VOLUME 11 ISSUe 2
iT’S in oUr hAndS The Hydrogen Economy
Microgrids and Distributed Generation
Limiting Climate Change
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conTenTS Editors Note .......................................................................................................................... 3 The emerging Hydrogen Economy .................................................................................. 6 Australia’s Hydrogen future ............................................................................................ 20 Is advanced nuclear the answer to global energy problems?................................... 22 Q&A with Clive Turton, CEO, Vestas Asia Pacific.........................................................25 Case Study...........................................................................................................................28 Gas turbine components life extension clinic ............................................................. 30 The role of Generator Sets in the new landscape of Microgrids ..............................33 The importance of exploring the Hydropower potential in India’s northeast ......38 Limiting climate change by switching to hydropower ...............................................46 Attracting investment in Hydro Power ...........................................................................51 Building a case for distributed generation in Asia.......................................................56 Are Micro-grids the answer to energy poverty? ..........................................................58 Australia’s Sun Cable project ............................................................................................61 Cyber Security is critical for Asia’s smart cities ............................................................64 Advertisers Index ...............................................................................................................66
4 | POWER INSIDER VOLUME 11 ISSUE 2
POWERWEEK ASIA
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The Emerging Hydrogen Economy Michael Joyce, Kelvin Mahal Akin Gump Strauss Hauer & Feld LLP
6 | POWER INSIDER VOLUME 11 ISSUE 2
Introduction
There are several reasons hydrogen is
Natural Gas Reforming Process
again receiving serious consideration
At present, the majority of the world’s
The worldwide demand for energy
as an alternative energy source.
hydrogen is produced through the
continues to grow at a substantial
In addition to a global desire for
natural gas reforming process, which
rate. The World economic Forum
more environmentally friendly fuel
involves using high-temperature
predicts that by 2050, global energy
sources, improvements in hydrogen
steam to produce hydrogen from a
demand will be between 30 to 40
technologies, increasing government
methane source such as natural gas.
percent higher than today, even on the
support for climatefriendly fuel
This method is currently the cheapest
assumption that the world becomes
diversification (e.g., in countries such
and most efficient method by which
much more energy efficient . At
as Japan, Korea and germany) and
hydrogen is produced and can be
present, the majority of the energy
changes in global energy policy, in
coupled with carbon capture and
sources the world depends on release
emission standards and in the global
storage technology to reduce the
greenhouse gas emissions, particularly
technology landscape (such as the rapid
carbon emissions produced in the
carbon dioxide, into the atmosphere.
deployment of intermittent renewables
hydrogen production process.
1
that require grid-scale storage for As such, the renewables sector has
system stability) all help to support the
Gasification
focused on developing renewable
argument for developing the hydrogen
Hydrogen can also be produced by
and clean energy resources such
economy. It is also generally recognized
means of ‘gasification,’ which is the
as solar, wind, nuclear, hydropower
that hydrogen has the potential to
process of, for example, releasing
and biofuels as alternatives to fossil
decarbonize a range of industries.
gaseous hydrogen compounds
fuels. However, hydrogen is set to
from coal or biomass utilizing high-
make a return to the mainstream as
A rising star of the renewable energy
temperature steam and oxygen in
the international community seeks
sector, hydrogen is a versatile and
a pressurized gasifier. The resulting
to respond to the world’s energy and
environmentally friendly resource which
gas contains hydrogen, which is then
climate challenges, particularly in light
produces only pure water and heat when
reacted with steam to separate the
of the targets set by the 2015 Paris
combusted. Although hydrogen has
hydrogen. This process can also be
Climate Agreement and recent climate
been traditionally used as a feedstock
coupled with carbon capture and
activism around the world.
in several industrial processes (such as
storage technology to reduce carbon
ammonia synthesis and the refining of
emissions produced through the
crude oil), recent developments have
gasification process.
What is the ‘Hydrogen Economy’?
shown that hydrogen can also be used for a number of applications, including
Renewable Liquid Reforming
The term ‘Hydrogen economy’ refers to
electricity generation, transportation
Like with natural gas reforming/
the vision of using hydrogen as a clean,
and storing energy from intermittent
gasification, this process involves
low-carbon energy resource to meet
renewable sources.
reacting renewable liquid fuels, such as
the world’s energy needs, replacing
ethanol, with high-temperature steam
How is Hydrogen Produced?
to produce hydrogen near the point of
Council, the international hydrogen
As hydrogen does not occur naturally
Electrolysis
market could be worth up to US$2.5
in a pure form, it must be produced
Another commonly used method of
trillion by 2050, meeting 18 percent
from other compounds such as oil,
producing hydrogen is electrolysis,
of global energy demand, providing
natural gas and water. There are various
which uses electricity to split water
30 million jobs around the world and
methods by which hydrogen can be
into hydrogen and oxygen. This
reducing carbon dioxide emissions by 6
produced, which are outlined in more
method also provides the potential for
gigatonnes per year .
detail below .
establishing a zero-emission fuel chain
traditional fossil fuels and forming a substantial part of a clean energy
end use.
portfolio2. According to the Hydrogen
3
4
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FEATURE: Hydrogen Economy
if the electrolysis process is powered by
out pure hydrogen gas from ammonia,
renewable energy generated from solar
which can then be used, for example,
or wind. In doing so, the process of both
in fuel cell vehicles5.
Potential Methods of Hydrogen Production A number of hydrogen production
producing and then subsequently using hydrogen to generate energy would not
The advantages of extracting hydrogen
methods are currently in development
produce any greenhouse emissions.
from ammonia are that:
and are summarized below6.
•
Due to its chemical composition,
It should, however, be noted that,
the production of hydrogen
High-Temperature Water Splitting
currently, the production of hydrogen
from ammonia does not release
This method aims to use high
from water requires the use of fresh
greenhouse gas emissions.
temperatures that are generated by
It is much easier to transport
sources such as solar concentrators or
production of hydrogen from seawater
hydrogen in the form of ammonia
nuclear reactors to drive chemical reactions
requires the development of new
that in a pure gaseous or liquid
that split water to produce hydrogen.
technologies to achieve commercial
form (as will be discussed in
viability. In geographies where fresh
greater detail below). If hydrogen
Photobiological Water Splitting
water is itself a precious commodity,
can be produced from ammonia
This method intends to make microbes,
the production of hydrogen requires a
at the point of need (using,
such as green algae, consume water
two-step process: (i) the production of
for example, the hydrogen
in the presence of sunlight to produce
fresh water by means of desalination
membrane technology from
hydrogen as a byproduct.
technology, followed by (ii) the
CSIRO), it will be easier and
application of electrolysis for hydrogen
cheaper to organize supply chains
Photoelectrochemical Water Splitting
production. Despite this additional step,
to support the use of hydrogen.
Similar to high-temperature water
water as the base material. The direct
•
splitting, photoelectrochemical water
the process has the benefit of being capable of implementation by utilizing
Extraction from liquid organic hydrides
splitting aims to produce hydrogen from
existing and proven technologies.
Technologies for the extraction of
water using special semiconductors and
hydrogen from liquid organic hydrides
energy from sunlight.
Currently, the production of hydrogen from water requires the use of fresh water as the base material
such as methylcyclohexane (MCH) are under consideration. MCH is produced
Uses of Hydrogen
from toluene and hydrogen, and both toluene and MCH exist in a liquid form
Power Generation
at ambient temperatures and pressures.
A hydrogen fuel cell produces
Hydrogen is removed from the MCH
electricity by combining oxygen
through a catalytic process, and the
and hydrogen, with this combustion
resulting toluene can be reused as the
process generating electricity and
base for the production of MCH.
producing only water and heat as byproducts. Small hydrogen fuel cells
Extraction from Ammonia Ammonia is a colorless inorganic
MCH is also capable of safe storage
can power items such as laptops and
compound of nitrogen and hydrogen
and transportation using existing
cell phones, while at the other end of
(NH3), usually found in gaseous form
technologies. However, at present there
the spectrum, larger hydrogen fuel cells
with a pungent odor. Much research
is no commercial scale project utilizing
can provide electricity for powering
has been undertaken into finding
an MCH value chain.
buildings. As such, hydrogen has the
methods of extracting hydrogen from
ability to generate power on small,
ammonia, such as that undertaken
Fermentation
medium and large scales, which makes
by the Commonwealth Scientific
Fermentation involves converting
it a very attractive option for helping
and Industrial Research Organisation
biomass into sugar-rich feedstocks
countries and corporations meet their
(CSIRO) in Australia. The CSIRO has
that can then be fermented to
decarbonizaton targets.
created a metal membrane that filters
produce hydrogen.
8 | POWER INSIDER VOLUME 11 ISSUE 2
THE EMERGING HYDROGEN ECONOMY
of being refilled in a manner similar to cars fueled by gasoline. Outside motor vehicles, hydrogen is already being used to power trains in both the United Kingdom and germany and is also being tested as a fuel source for powering other modes of transportation, such as aircraft, ships and material handling vehicles such as forklifts and tow trucks10, illustrating that hydrogen can power several modes of transport outside of normal automobiles An example of hydrogen fuel cells
Mitsubishi Heavy Industries and
and further demonstrating its
being used as the sole energy resource
Hitachi) and general electric have been
decarbonizing potential and versatility.
to generate electricity for buildings is
particularly focused on developing such
the three-story building at SP group’s
turbines, testing natural gas containing
It is also worth noting that many
training center in Singapore, the first
hydrogen contents ranging from 30
countries, particularly in Asia, have set
100 percent zero-emission building
percent to 90 percent. By blending
ambitious targets to get more FCVs on
in Southeast Asia powered by green
hydrogen with natural gas, the carbon
their roads. China, the world’s biggest
hydrogen. The building uses solar panels
emissions created by the combustion
automobile market with 28 million
to generate power, which is then utilized
process can be significantly reduced. For
vehicles being sold annually, is aiming for
in an electrolysis process to produce
example, general electric has found that
more than 1 million FCVs to be in service
hydrogen. The hydrogen is then stored
using a 5 percent blend of hydrogen in
in the country by 2030, compared with
in tanks, where it bonds with metal
the natural gas supply to a gas turbine
just the approximately 1,500 currently
alloy powders to form a metal hydride.
can reduce annual carbon dioxide
in use11. Japan, with sales of 5 million
When electricity is required, the stored
emissions by nearly 19,000 metric
vehicles annually, is looking to have
hydrogen is then released and passed
tons, using a 50 percent blend reduces
800,000 FCVs sold by 2030, up from
through on-site fuel cells to generate
carbon dioxide emissions by 281,000
its current level of 3,40012, and South
electricity. This hydrogen system was
metric tons and using a 95 percent
Korea, whose automobile market is one-
developed by SP group in conjunction
blend reduces carbon dioxide emissions
third the size of Japan, has set a target
with Japan’s Marubeni Corporation and
by 1.04 million metric tons9. Other
of selling 850,000 FCVs in the country
Tohuku University and the building is an
companies are also undertaking research
in the same time frame, up from the
example of how a zero-emission supply
into hydrogen-only fired turbines.
current level of 3,00013.
Transport (Fuel Cells Electric Vehicles)
Hydrogen Energy Storage
Many automobile companies, such as
Hydrogen energy Storage (HeS) is the
Moreover, several major power
Hyundai, Toyota/Lexus, Honda and
process of storing energy in the
companies (including Mitsubishi Power
Mercedes-Benz, have undertaken
form of hydrogen. Stored as hydrogen
Systems, general electric, Siemens
substantial investment to develop
for use in fuel cells, for example,
energy and Ansaldo energia) are
hydrogen-powered vehicles, which
hydrogen is an alternative to battery
developing gas turbines that can operate
possess both a longer range and much
storage. Intermittency, one of the
using a fuel containing a high volume
shorter refueling times when compared
key issues facing wind a solar power
of hydrogen8, offering another method
to electric vehicles. These vehicles are
generation (i.e., the sun doesn’t
by which hydrogen can be used for
called ‘Fuel Cell electric Vehicles’ (FCVs)
always shine nor the wind blow), can be
power generation on a large commercial
and contain hydrogen fuel cells and
resolved either by:
scale. MHPS (a joint venture between
hydrogen storage tanks that are capable
7
chain can be established when using hydrogen as an energy resource.
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FEATURE: HyDROgeN eCONOMy
1.
Using hydrogen fuel cells for power generation during periods when power cannot be produced from wind or solar.
2.
Using wind and solar to produce hydrogen, e.g., from hydrolysis, and then utilizing the power per point 1 above.
Japan, one of the leading countries in hydrogen development, has set a goal of becoming the world’s first ‘Hydrogen Society,’
Production of hydrogen utilizing wind
for the games (which is part of a longer term goal of deploying 200,000 such vehicles in the next six years19) and powering the Athlete’s Village with hydrogen. In addition to the number of Japanese automobile companies that have been developing FCVs (such as Toyota, Honda and Lexus), a number of other Japanese companies have also invested heavily in hydrogen. For
and solar when coupled with hydrogen
in hydrogen. In the United States,
example, in March of 2018, a group of
storage and transportation solutions
the funding provided by the U.S.
11 Japanese companies (including JxTg
(discussed further below) effectively
Department of energy for hydrogen
Nippon Oil & energy Corporation,
also allows wind and solar energy to be
and hydrogen fuel cells has ranged
Tokyo gas Company and Iwatani
“transported” in the form of hydrogen
from approximately US$100 million to
Corporation) launched a venture
and converted back into electricity (for
US$280 million per year over the last
called Japan H2 Mobility, which aims
example, by fuel cell) when needed. The
decade, with approximately US$150
to build 80 hydrogen fueling stations
HeS process can also be utilized to store
million per year being invested in
by 202220, with 12 stations already
energy from other renewable and non-
hydrogen by the U.S. Department of
nearing completion.
renewable energy sources. The hydrogen
energy since 201716. Japan’s Ministry
produced by the HeS process is most
of economy, Trade and Industry has
Major Japanese power utility electric
commonly stored as compressed gas,
also budgeted hydrogen funding
Power Development Co., Ltd (known
but can also be stored as cryogenic
of approximately US$560 million
as “J-Power”), in conjunction with
liquid at very low temperatures, similar
for 201917, while China has also
Kawasaki Heavy Industries, Marubeni
to liquefied natural gas (LNg). Other
announced hydrogen transport industry
Corporation, Iwatani Corporation and
methods by which hydrogen can be
investments of more than US$17 billion
Sumitomo Corporation, and Australian
stored include using metal hydride
through to 2023.
energy company AgL Ltd., with support from the Australian national and
materials (referred to above) as well as various chemical hydrides . 14
Japan, one of the leading countries
Victoria state governments, are building
in hydrogen development, has set
the world’s first coal-to-hydrogen
The benefit of using HeS is that it can
a goal of becoming the world’s first
demonstration project. Located in
address much longer storage timescales
‘Hydrogen Society,’ which includes
Victoria, Australia, the approximately
than batteries. For example, solid-state
plans to build 900 hydrogen-refueling
AUD$500 million project will produce
batteries are best suited to discharge
stations in the country by 2030 .
hydrogen from the gasification of brown
times of four hours or less, while HeS
Japan’s energy ministry has also set
coal and then liquefy the hydrogen for
can address longer duration needs
ambitious goals in the lead up to next
shipment21. Akin gump Strauss Hauer
(days, weeks or longer) by simply adding
year’s Olympic games, intending to
& Feld LLP is advising J-Power on its
more storage tanks or on-site hydrogen
deploy 100 hydrogen fuel cell buses
participation in this project. The project
18
production similar to the SP group
aims to demonstrate the technologies
building referred to above15.
needed to potentially develop an integrated commercial-scale hydrogen
Recent Developments
supply chain that encompasses production, transportation and storage,
given its numerous uses and
with a goal of delivering liquefied
decarbonizing potential, countries
hydrogen in a similar manner to
and corporations around the world
LNg. The project is the first initiative
are intensifying their investment
proposing to transport mass quantities
10 | POWER INSIDER VOLUME 11 ISSUE 2
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FEATURE: HyDROgeN eCONOMy
of hydrogen across open waters using
that it wanted the country to become
Netherlands. Meanwhile, Uniper Se has
an innovative liquefied hydrogen ship
“the number one in the world” for
established a pioneering gas-to-power
(which Kawasaki Heavy Industries
the technology and announced that
plant, which is the world’s first facility to
is currently developing22 with the
20 new research laboratories would
turn wind energy into a stored asset in
first such ship being launched on 13
receive a total of €100 million a year
the gas grid.
December ). When combined with
to test new hydrogen technologies
geo-sequestration of unwanted
for industrial-scale applications26. In
In the United Kingdom, the U.K.
gasses produced from the coal
addition, natural gas pipeline owners
government has recently unveiled a
gasification process, the entire supply
in germany have asked the german
£12 billion plan to use 4 gigawatts of
chain can effectively be greenhouse
government for rules that would allow
offshore wind for renewable hydrogen
emission free.
them to carry more hydrogen in their
production, which is scheduled to
pipelines. The world’s first passenger
begin in the early 2030s29. Hydrogen
Japanese company Chiyoda Corporation
train powered by hydrogen fuel
interests in the U.K. have also attracted
is also planning to demonstrate an
cells, which can run for up to 1,000
international investment, with The Linde
international hydrogen supply route by
kilometers on a tank of hydrogen
group recently investing £38 million
importing up to 210 tons of hydrogen
and store excess energy produced by
for a 20 percent stake in London Stock
(enough to fill 40,000 FCVs) in a
the fuel cell in on-board lithium-ion
exchange-listed technology developer
demonstration project in 2020 .
batteries, also began operating in
ITM Power30. London’s Metropolitan
germany in September 201827.
Police Service has added 11 Toyota Mirai
23
24
IHI Corporation also announced in
cars fitted with hydrogen fuel cells to
September of this year that it had
germany’s biggest companies are also
its fleet of responsive vehicles, and in
started construction on a 1,000
making substantial investments in
Scotland, a project which successfully
square-meter hydrogen facility
hydrogen . Siemens Ag announced
used tidal power to produce hydrogen
in Fukushima, which will focus on
in July of 2019 that it was building a
has been awarded €12 million in funding
developing hydrogen carriers, including
hydrogen laboratory system in eastern
to develop a hydrogen power system
ammonia and methane, which can
germany, with german Chancellor
for the car and passenger ferries that
be used in the logistics steps of a
Angela Merkel hailing the move as a
connect the Orkney archipelago31.
hydrogen supply chain25.
“milestone.” eON Se, a major utility company, is working on a project to
In France, taxi company Hype, which
In germany, hydrogen is now seen
blend hydrogen into natural gas grids
currently has a fleet of 100 FCV taxis
as an important option to fill the
at much higher rates than at present.
from Hyundai, is aiming to add a further
energy gap left from the impending
RWe Ag and Innogy Se are jointly
500 FCV taxis from Toyota by the end
closure of nuclear stations and the
evaluating a large-scale facility to
of 2020, with the company’s ultimate
phase-out of coal-fired power. In
produce green hydrogen close to Innogy
goal being a completely zero-emission
2019, the german government stated
Se’s Westereems windfarm in the
taxi industry in France by the 2024
12 | POWER INSIDER VOLUME 11 ISSUE 2
THE EMERGING HYDROGEN ECONOMY
Olympic games32. France also deployed
hydrogen economy, detailing how
at the same time that the costs of both
its first hydrogen-powered passenger
the U.S. can expand its global energy
hydrogen and hydrogen fuel cells have
bus in September 2019, and the
leadership by scaling up its activity in
fallen. The rise in Ballard Power’s share
Auvergne Rhône-Alpes region in France
the fast-evolving hydrogen industry37.
price has also been attributed to an
recently committed €200 million
Commenting on this road map, Morry
investment from a substantial Chinese
towards 1,000 hydrogen-powered
Markowitz, President of the Fuel Cell and
investor, as well as rising speculation that
vehicles and 15 electrolyzers . In the
Hydrogen energy Association, noted
there will be an upcoming mainstream
U.S., the majority of investment in
that in addition to hosting more than
adoption of hydrogen fuel cells40.
hydrogen has been focused in California,
half of the world’s FCVs, the U.S. also
where there are currently 40 hydrogen-
has more than 25,000 hydrogen fuel
refueling stations and 7,000 FCVs in
cell material handling vehicles, as well as
use (the U.S. already accounts for more
more than 8,000 small-scale hydrogen
than half of the world’s FCVs on the road
fuel systems in 40 states and more than
Supply
). The California Fuel Cell Partnership
550MW of large-scale hydrogen fuel
As the third most abundant element
(CFCP) aims to increase these numbers
cell power either installed or planned.
on earth, hydrogen can be found in
to 40,000 FCVs on its roads by 2022
Mr. Markowitz also noted that hydrogen
resources including water, natural
and 200 hydrogen refueling stations
could strengthen the U.S. economy by
gas, coal and biomass, meaning that
by 2025 . In early 2019, the CFCP
up to US$140 billion per year in revenue
there is no possibility of running out of
started work on building a large-scale
and generate 700,000 jobs by 2030,
hydrogen, unlike fossil fuels, which are
liquid hydrogen production unit, with a
while by 2050, it is estimated that
limited in their supply.
capacity to produce nearly 30 tons of
hydrogen will contribute US$750 billion
hydrogen per day, which will be able to
to the U.S. economy per year, generate
Decarbonization
fuel 35,000 FCVs. Moreover, Microsoft
3.4 million jobs and meet 14 percent of
The biggest advantage of using hydrogen
is studying how to use hydrogen fuel
U.S. energy demand38.
as an energy resource is its ability to
33
35
cells in their servers. general electric has
Advantages of Using Hydrogen
decarbonize a variety of industries,
also installed over 70 gas turbines in the
In Canada, Ballard Power Systems Inc., a
including the transportation and power
U.S. that previously have or currently are
hydrogen fuel cell company, has recently
generation industries. As detailed above,
using various levels of hydrogen as part
seen its shares climb significantly after
hydrogen fuel cells combine hydrogen
of the gas being used to power
40 years of never posting a profit, with
with oxygen to produce energy, with the
these turbines .
its stock being the best performing
only byproducts of this process being
36
stock on the S&P/TSJ Index in 2019 .
water and heat. This makes hydrogen a
A coalition of major oil & gas, power,
The reasons behind this rise are the
very attractive alternative to fossil fuels,
automotive, fuel cell and hydrogen
introduction of more restrictive emission
particularly given that if hydrogen is
companies have also come together
rules and stricter emissions targets
produced using energy from renewable
to develop a “Road Map” to a U.S.
across the world, which have occurred
resources (as explained above), then not
39
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FEATURE: Hydrogen Economy
only will industries be decarbonized,
While hydrogen is widely available, the cost of producing hydrogen is expensive
but the whole chain of producing and using hydrogen as an energy resource will be one that does not produce any harmful emissions or pollutants. As such, hydrogen possesses significant potential to assist with decarbonizing numerous industries and is, accordingly,
solar and wind resources in Australia or Latin America to cities thousands of kilometers away, enabling renewables to make an even greater contribution to the global energy mix44.
Challenges Facing Hydrogen
an attractive renewables option for
of gasoline42. In addition to the
many countries and corporations around
emissions-free nature of hydrogen use
Cost
the globe.
in FCV’s, they can also achieve better
While hydrogen is widely available,
fuel economy that vehicles using
the cost of producing hydrogen is
internal combustion engines.
expensive given the time and energy
Efficiency
required to separate hydrogen from
Hydrogen is a very efficient energy resource, particularly in comparison to
Also, while FCV and electric
other elements45. While the methods
more traditional fossil fuels. For example,
motor vehicles are not necessarily
of producing hydrogen are becoming
the traditional internal combustion
technological rivals (indeed, many
more cost-efficient, the cost of
engines operate at a very low efficiency
see them as complementary), FCVs
producing hydrogen remains high in
level (approximately 25 percent), while,
do have the advantage (based on
comparison to other renewable energy
according to the Connecticut Hydrogen
present technology) of faster refueling
resources and, in particular, fossil fuels.
Fuel Cell Coalition, a stationary hydrogen
and longer range (as FCVs can store
As such, the primary challenge for
fuel cell, when used with heating and
additional hydrogen as fuel). Powering
hydrogen production is to reduce the
power systems, can have an efficiency
Existing Renewables The International
cost of producing hydrogen to make it
level that exceeds 80 percent41.
Energy Agency (IEA) has noted that given
competitive with other energy resources.
hydrogen’s capacity to act as a short- or
This is particularly so when combined
Furthermore, hydrogen fuel is also
long-term storage medium, hydrogen
with the costs involved in storing and
more efficient than energy resources
can assist with storing energy from
transporting hydrogen, as well as the
such as gasoline (a fuel cell coupled
intermittent sources such as renewables,
costs of building the infrastructure
with an electric motor is two to
storing this energy when demand is low
required to support hydrogen as an
three times more efficient than an
and deploying it when required (see the
energy resource on a commercial level,
internal combustion engine running
paragraph on ‘Hydrogen Energy Storage’
all of which are examined below.
on gasoline) and by weight contains
above). Moreover, the IEA has also
more energy; for example, 1 kilogram
noted that hydrogen (and hydrogen-
However, it is important to note that
(2.2 pounds) of hydrogen gas contains
based fuels) can transport energy
the costs of producing, storing and
about the same amount of energy as
from renewables over long distances,
transporting hydrogen as well as building
1 gallon (2.8 kilograms, 6.2 pounds)
such as from regions with significant
the necessary infrastructure have been
43
steadily decreasing. In addition, countries such as Japan have firm targets in place in order to try and make hydrogen more costcompetitive (for example, Japan has set a target for reducing the cost of hydrogen by one-third by 2030, from the current price of US$10 per kg (2.2 pounds) to US$3 per kg)46. There is also collaboration between the Japanese government and Japanese industry to help reduce prices for hydrogen fuel cells,
14 | POWER INSIDER VOLUME 11 ISSUE 2
THE EMERGING HYDROGEN ECONOMY
which involves (i) extending its current
•
Liquefied Hydrogen Tankers:
transporting other energy resources such
fuel cell program to reduce the price of
This method involves cooling
as fossil fuels, storing and transporting
hydrogen and hydrogen fuel cells; (ii)
the hydrogen to a temperature
hydrogen is still not currently deemed
beginning the large-scale introduction of
where it becomes a liquid.
suitable for general commercial use from
hydrogen power generation and supply
While the liquefaction process is
a cost perspective50.
infrastructure; and (iii) establishing a
expensive, it enables hydrogen to
zero-emission supply system throughout
be transported more efficiently (in
Infrastructure
the manufacturing process47. The cost
comparison to using tube trailers)
A substantial amount of the energy
of producing energy from hydrogen fuel
over long distances by truck, railcar,
infrastructure currently in place around
cells is also decreasing.
ship or barge.
the world is designed to support the use of fossil fuels, such as oil pipelines and
Storage and Transportation One of hydrogen’s properties is that it has a low density, meaning that it must be stored in a highly pressurized environment or in a liquefied state. Hydrogen must also be stored at low temperatures to ensure that is both efficient and effective as an energy resource. Furthermore, hydrogen needs to be transported in a highly pressurized or liquefied state at low temperatures, making it more expensive to move in comparison to fossil fuels such as
While hydrogen has a high energy content by weight and is an efficient energy carrier, it does not have a high energy content by volume, presenting a particular challenge for storage
coal power plants. As explained above, specialized equipment and infrastructure is required to transport and store hydrogen, let alone generate power. While the infrastructure required to support the use of hydrogen is gradually being installed around the world, particularly in countries like Japan, it is not at a sufficient level to support the commercial use of hydrogen. For example, a commonly cited challenge to FCVs is a lack of refueling stations, which are costly to build (although it
oil and coal. Accordingly, at present, hydrogen is usually only transported
Furthermore, while hydrogen has
is also thought that a lack of refueling
in small quantities and requires
a high energy content by weight
infrastructure is due to there being an
specialized supply chains and logistical
and is an efficient energy carrier, it
insufficient number of FCVs on the road
arrangements in order to make sure it is
does not have a high energy content
to make refueling stations profitable
transported safely and effectively. The
by volume, presenting a particular
given their high cost51). When combined
three main methods by which hydrogen
challenge for storage49. Consequently,
with the high costs of generating,
is currently transported are48:
in order to store sufficient quantities
storing and transporting hydrogen, it is
of hydrogen gas, for example, it will
unlikely that hydrogen will be able to
Pipeline: This method involves
need to be compressed and stored at
rapidly replace lower-cost alternatives
using a pipeline to transport
high pressures, necessitating specialist
(such as gasoline).
hydrogen, similar to pipelines that
pressure relief devices and equipment
are used to transport oil and gas,
for both safety reasons and to ensure
A more cost-effective option
and is the least expensive way to
that the correct pressure is maintained.
may be to use or modify existing
•
deliver large volumes of hydrogen. •
energy infrastructure (such as gas
High-Pressure Tube Trailers:
As a result of these requirements,
infrastructure) in order to transport
This method, which is generally
the costs of storing and transporting
and store large quantities of hydrogen,
expensive, involves transporting
hydrogen remain high even though
which is what german company FNB
compressed hydrogen by truck,
these have gradually been decreasing,
Posch has suggested should occur in
railcar, ship or barge in high-
particularly over recent years as
germany. The company is looking to
pressure tube trailers and is
investment in hydrogen has intensified.
carry a mandated share of renewable
generally used for distances of 200
These high costs mean that, in
and decarbonated gases, including
miles or less.
comparison to the costs of storing and
biomethane, synthetic methane and
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FEATURE: HyDROgeN eCONOMy
hydrogen, starting at a blend of 1
of hydrogen fuel cells being used to
It is clear that hydrogen has the
percent in 2021 and rising to 10
generate power. As the costs associated
potential to form a substantial part
percent by 2030 . This would also
with hydrogen continue to decrease, it is
of the global energy mix as countries
help increase the uptake of hydrogen
hoped that governments, corporations
and corporations strive to meet their
as an energy resource, fueling the
and individuals will begin to take up
climate change and decarbonization
growth of hydrogen, and will likely
and install the technology required to
targets. The many applications and
lead to a decrease in costs given that
support a hydrogen economy at a faster
benefits of using hydrogen to generate
it would allow hydrogen to benefit
pace.
energy make it particularly appealing
52
from the economies of scale that
and are core reasons governments
would result from an increased uptake
Safety and Environmental Concerns
and corporations globally are making
in hydrogen energy.
One of the main challenges facing the
substantial investments into hydrogen.
vision of a hydrogen economy is the
Hydrogen’s versatility and multiple
Uptake of Technology
safety and environmental concerns that
applications, along with its ability reduce
Like with the infrastructure required
exist with regards to hydrogen given its
greenhouse emissions, increase energy
to support hydrogen, the pace of the
properties and characteristics. Hydrogen
security and support the deployment
uptake of the technology required
is a highly flammable element that
of renewable energy sources such as
to support hydrogen as an energy
can cause explosions when leaked.
wind and solar make it very likely to play
resource has not been as fast as was
This property of hydrogen can make
a significant part in the world’s future
initially hoped. For example, and as
it dangerous in enclosed areas such
energy mix.
mentioned above, it is often said that
as underground tunnels or carparks.
the lack of refueling stations for FCVs
Hydrogen is also odorless and its
While hydrogen faces various
is due to there being an insufficient
flames are almost invisible to the naked
challenges (particularly as to the
number of FCVs on the road to justify
eye, presenting challenges for both
costs of its production, storage and
building more refueling stations, which
safety and detection54. environmental
transportation in addition to the
are themselves expensive. Moreover,
concerns also arise with hydrogen, as
infrastructure required to support its
the costs of hydrogen technology,
current technology means hydrogen
use as an energy resource), recent
although decreasing, remains high
is generally made from fossil fuel
developments have shown that
compared to more traditional sources
reformation55.
progress is being made on all of
(for example, a Toyota Mirai FCV costs
these, providing the foundation for
US$46,200, which is about 50 percent
Advances in the technology used to
hydrogen to become a widely used
more expensive than a Toyota Camry,
generate energy from hydrogen as
energy resource around the globe.
which runs on a conventional gasoline
well as the implementation of strict
Consequently, it appears that the
engine) .
standards and regulations regarding
outlook for the future of hydrogen as an
the use, transportation and storage of
energy resource remains promising.
53
Furthermore, the uptake in the
hydrogen have helped to reduce these
technology required to produce, store,
risks and regulate the use of hydrogen
transport and use hydrogen as an
so that it is used both safely and in
energy resource on both industrial
an environmentally friendly manner.
and commercial scales has not been
However, the perception regarding the
as fast as anticipated given the cost
environmental and safety problems
and complexities involved in building
associated with using hydrogen still
such infrastructure. In addition, there
persist and will need to be addressed
has been reluctance to invest in such
in order for hydrogen to be used on a
infrastructure until there has been
wide-scale and commercial level.
a wider uptake in hydrogen power, such as an increase in the number of
What Does the Future Hold for
FCVs on the road and/or the number
Hydrogen?
16 | POWER INSIDER VOLUME 11 ISSUE 2
THE EMERGING HYDROGEN ECONOMY
Endnotes 1.
2. 3.
World Economic Forum – ‘Why
5.
6.
‘IHI Breaks Ground on Hydrogen
energy’ – 22 May 2018.
November 2018.
Research Facility’ – 5 September
The Guardian – ‘What’s the ‘hydrogen
Hydrogen Energy Storage’ – 1
Petroleum Economist – ‘Hydrogen
November 2018.
Hydrogen in Quest for Clean Energy Economy’ – 2 August 2019.
Alternative Fuels Data Center
Review and Peer Evaluation (DOE
countries are pioneering hydrogen
– ‘Hydrogen Production and
Hydrogen and Fuel Cells Program,
power’ – January 2019.
Distribution.’
2009 through 2019).
CSIRO Website – ‘Hyper for
17.
International Partnership for
27. World Economic Forum – ‘These
28. Bloomberg – ‘Germany Turns to Hydrogen in Quest for Clean Energy
hydrogen: our world first for carbon-
Hydrogen and Fuel Cells in the
Economy’ – 2 August 2019.
free fuel’ – 22 November 2018.
Economy – ‘Country Update for
29. Green Tech Media – ‘10 Countries
U.S. Department of Energy:
Japan’ – April 2019. 18. StateImpact – ‘Amid global push
Moving Toward a Green Hydrogen Economy’ – 14 October 2019.
– ‘Hydrogen Production and
to reduce carbon emissions, Japan
Distribution.’
looks past battery-powered electric
Moving Toward a Green Hydrogen
Channel News Asia – ‘SP Group
cars and envisions a ‘hydrogen
Economy’ – 14 October 2019.
launches first zero-emission building
society’’ – March 2019. 19. StateImpact – ‘Amid global push
30. Green Tech Media – ‘10 Countries
31. World Economic Forum – ‘These countries are pioneering hydrogen
hydrogen’ – 30 October 2019.
to reduce carbon emissions, Japan
PowerMag – ‘High-Volume Hydrogen
looks past battery-powered electric
32. New Mobility News -
Gas Turbines Take Shape’ – 1 May
cars and envisions a ‘hydrogen
33. Green Tech Media – ‘10 Countries
GE Reports – ‘The Hydrogen
society’’ – March 2019. 20. CNBC – ‘How Toyota is helping Japan
power’ – January 2019.
Moving Toward a Green Hydrogen Economy’ – 14 October 2019.
Generation: These Gas Turbines Can
with its multibillion-dollar push to
34. Thomas – ‘New Report Offers Road
Run On The Most Abundant Element
create a hydrogen-fueled society’ –
Map to U.S. Hydrogen Energy
In The Universe’ – 7 January 2019. 10. Hydrogen Europe – ‘Hydrogen 11.
26. Bloomberg – ‘Germany Turns to
and Fuel Cells Program: Annual Merit
2019. 9.
16. U.S. Department of Energy Hydrogen
2019.
U.S. Department of Energy:
in Southeast Asia powered by green 8.
15. AZO Materials – ‘Understanding
economy’?’ – 11 October 2012.
Alternative Fuels Data Center
7.
25. Ammonia Energy Association –
Hydrogen Energy Storage’ – 1
scales up’ – June 2018. 4.
14. AZO Materials – ‘Understanding
hydrogen could be the future of green
26 February 2019. 21. Reuters – ‘Japan’s Kawasaki set to
Leadership’ – 7 November 2019. 35. Air Liquide – ‘Hydrogen mobility
Applications.’
trial Australian hydrogen exports in
around the world – Episode 2: United
Reuters – ‘Explainer: Why Asia’s
2020’ – 19 July 2019.
States and China, the giants’ – 6
biggest economies are all backing
22. Kawasaki Heavy Industries Website
hydrogen fuel cell cars’ – 29
– ‘Hydrogen – Transportation &
September 2019.
Storage.’
12. Reuters – ‘Explainer: Why Asia’s
23. PortNews - Kawasaki Heavy
biggest economies are all backing
Industries launches the world’s
hydrogen fuel cell cars’ – 29
first liquefied hydrogen carrier – 13
September 2019.
December 2019.
13. Reuters – ‘Explainer: Why Asia’s
24. CNBC – ‘How Toyota is helping Japan
September 2019. 36. GE Reports – ‘The Hydrogen Generation: These Gas Turbines Can Run On The Most Abundant Element In The Universe’ – 7 January 2019. 37. Thomas – ‘New Report Offers Road Map to U.S. Hydrogen Energy Leadership’ – 7 November 2019.
biggest economies are all backing
with its multibillion-dollar push to
38. Thomas – ‘New Report Offers Road
hydrogen fuel cell cars’ – 29
create a hydrogen-fueled society’ –
Map to U.S. Hydrogen Energy
September 2019.
26 February 2019.
Leadership’ – 7 November 2019.
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 17
FEATURE: HyDROgeN eCONOMy
39. Hydrogen Fuel News – ‘Hydrogen fuel cell company shares take off after
14 June 2019. 45. U.S. Department of Energy
51. Reuters – ‘Explainer: Why Asia’s biggest economies are backing
4 decades of decline’ – 8 November
– ‘Hydrogen Production and
hydrogen fuel cell cars’ – 25
2019.
Distribution.’
September 2019.
40. Hydrogen Fuel News – ‘Hydrogen fuel
46. Mistubishi Hitachi Power Systems –
cell company shares take off after
‘All eyes are on hydrogen’ – 16 March
4 decades of decline’ – 8 November 2019.
2019. 47. PowerMag – ‘High-Volume Hydrogen
41. Future of Working – ‘18 Advantages and Disadvantages of Hydrogen Fuel Cells.’
Hydrogen in Quest for Clean Energy Economy’ – 2 August 2019. 53. Reuters – ‘Explainer: Why Asia’s
Gas Turbines Take Shape’ – 1 May
biggest economies are backing
2019.
hydrogen fuel cell cars’ – 25
48. U.S. Department of Energy –
42. U.S. Department of Energy -
52. Bloomberg – ‘Germany Turns to
Alternative Fuels Data Center
September 2019. 54. ‘The Current Hydrogen Economy
Alternative Fuels Data Centre –
– Hydrogen Production and
and Its Challenges’ – November 2015
‘Hydrogen Basics.’
Distribution.
(Stanford University Coursework).
43. The International Energy Agency
49. Hydrogen Tools – ‘Hydrogen
Website – ‘The Future of Hydrogen’ – 14 June 2019.
55. The Current Hydrogen Economy and
Compared With Other Fuels.’
Its Challenges’ – November 2015
50. Future of Working – ‘18 Advantages
(Stanford University Coursework).
44. The International Energy Agency Website – ‘The Future of Hydrogen’ –
18 | POWER INSIDER VOLUME 11 ISSUE 2
and Disadvantages of Hydrogen Fuel Cells.’
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AUSTrALiA’S hydrogen FUTUre Australia is a nation built on natural
are being forced to grapple with
solution for Australia. Hydrogen has
resources. They have fortified our
an escalating environmental crisis
2.4 times the energy of natural gas.
economic growth and lifted our
that calls for lower emissions and
It is abundant, transportable, and
prosperity. They created generations
cleaner economies. Australia is in
when produced from water has the
worth of jobs and income for
the same position and has slowly
capacity to become the linchpin to
regional communities. Their boom-
awoken to the reality that it must
Australia’s shift to renewable and
and-bust cycles are part of our
decarbonise its energy supply to
low-carbon energy generation. But as
national identity and the peaks and
meet its international commitments,
Finkel rightly noted, hydrogen is not a
troughs of modern Australia.
and in the longer term, decarbonise
silver bullet. It will be one part of what
its minerals sector.Advertisement The
must be a multi-technology energy
transition from coal is an evolution –
future, including natural gas and coal
not a revolution – and it’s happening
as bridging fuels between our previous
in slow motion. Today, we rely on it for
reliance on resources and renewable
electricity, jobs and revenue, and will
options.
continue to do so for many decades to come. It still forms the basis for many
Our existing gas and coal resources not
CSIRO CEO Larry Marshall
of our strongest trade relationships.
only give us a head start on hydrogen,
with a mini-hydrogen fuel cell.
Countries such as South Korea rely
they are crucial to an orderly transition.
CReDIT:eAMON gALLAgHeR
heavily on coal to fuel their industrial
Hydrogen from coal – with carbon
growth. But governments around the
capture – could even bridge the divide
Australian coal has powered Asia’s
world have begun positioning their
between clean energy advocates and
industrial development, but it is
countries for the transition, and the
the resources sector.
now time that hydrogen launches
governments that are best prepared
its future. Australia must be ready
are looking to hydrogen.
to capitalise on this opportunity.
The transition will take decades, but in South Korea, hydrogen is already
The world – and our trading
Last week, Australia’s Chief Scientist,
a reality. It has developed a roadmap
partners – are moving away from
Alan Finkel, sounded the clarion
to build a “hydrogen economy”. By
our national stalwart. Countries
call for hydrogen as a major energy
2040, hydrogen gas will account for 5
20 | POWER INSIDER VOLUME 11 ISSUE 2
per cent of its gross energy. Korea has
which describes the hydrogen
Corporation for clean hydrogen
simultaneously begun to phase out
export industry as a critical piece
development at the last election.
coal and nuclear energy, driven by a
of our future by 2060, and our
Australia can become a global
national plan to captivate investment
Chief Scientist released a National
hydrogen powerhouse; a renowned
and provide renewable energy for its
Hydrogen Roadmap.
exporter of renewable energy. We have
households and industry that by 2030
gas networks that can switch to 100
will account for 20 per cent of total
The business community is betting
per cent hydrogen and the technical
electricity generation.
big. Hydrogen was the focus of the
expertise to deliver emissions-free
joint meeting between the Australia-
energy to every Australian household
Korea Business Council and Korea-
and business. We have willing private
Australia Business Council in Sydney
sector investment and world-class
last year. Macquarie group has made
universities producing innovative
substantial investments through
hydrogen technology.
the Asia Renewable energy Hub in the Pilbara, Fortescue has partnered
The decades-long death knell for
Simon Crean, the chairman of the
with the CSIRO to develop hydrogen
coal could herald the ascendancy of
Australia-Korea Business Council,
fuel technologies, and Woodside is
hydrogen as our key national export.
with Australia’s chief scientist, Alan
partnering with Korea gas Corporation
What we need is the political will to
Finkel, and the chairman of H2Korea,
to study the feasibility of a green
capture the market. If we don’t, another
Jaedo Moon.
hydrogen pilot project.
country will. The time is now.
In Australia, we’re planning for
Critically, hydrogen has broad
Simon Crean is chairman of the
the shift. Our Resources Minister
bipartisan support, with the
Australia-Korea Business Council,
met South Korean officials in
Morrison government opening
and a former minister in the Hawke,
November to promote our potential
public consultations on a national
Keating, Rudd and gillard
as a hydrogen supplier. The
hydrogen strategy, and Labor
Labor governments.
CSIRO recently released its latest
committing $1 billion in funding
Australian National Outlook report,
for the Clean energy Finance
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iS AdVAnced nUcLeAr The AnSWer To gLoBAL energy ProBLemS? Is Advanced Nuclear the answer to global energy problems?
Concern theeffects climate Concern aboutabout the climate
effects ofthe man-caused COnuclear has prompted gigantic 2 emissions down country’s remaining to develop advanced nuclear reactor investments into so-called renewable energy sources: wind, solar, hydropower and of man-caused CO2 emissions has power plants by 2022. technologies as the key to eliminating source biofuels. Meanwhile, in a huge mistake, nuclear energy – a reliable 2-free power prompted gigantic investments into world CO dependence on fossil fuels –a producing 14% of the world’s electricity – has been left far behind. so-called renewable energy sources: Would it not be more rational, if we goal that could never be attained by the wind, solar, hydropower and biofuels.
believe that human emissions of CO
so-called renewable sources alone.
source producing 14% of the world’s
rather than shut it down? Last December
versatile test reactor. illustration: US
2 Germany provides a bizarre example, albeit not the only one. Here the government’s are destroying the planet, to expand Meanwhile, in a huge mistake, nuclear commitment to its so-called climate goals has been combined, paradoxically, with the nuclear energy as quickly as possible, energy – a reliable CO2-free power Design of Bill gates’s TerraPower-Hitachi decision to shut down the country’s remaining nuclear power plants by 2022.
electricity been far behind. Would–ithas not beleftmore rational,
german DOe who remain destroying ifthe weinfluential believe that magazine human Der emissions ofAddressing CO2 arereaders
Spiegel ran story with as the title, “Can terrified of nuclear Spiegel the planet, to expand nuclear energy asa quickly possible, rather than shut energy, it down? germany provides a bizarre New Reactor Concepts Save UsSpiegel from the ran writes: “According estimates, Last December theexample, inßuential German magazine Der a story withtothe title, 800 ÒCan New Reactor Concepts Save Us from the Climate Collapse?Ó The article reports albeit not the only one. Here the Climate Collapse?” The article reports on 000 people die every year fromon the how numbers of international investors and Þrms, including and his TerraPower, government’ s commitment to its sohow numbers of international investors Bill Gates smoke produced by coal, containing are climate engaged in abeen race to develop nuclear technologies assuch theaskey called goals has combined, andadvanced firms, including Bill gates reactor and toxic substances sulfurto dioxide, eliminating world dependence on fossil fuels – a goal that could never be attained by the But paradoxically, with the decision to shut his TerraPower, are engaged in a race nitrogen oxides, mercury or arsenic. so-called renewable sources alone.
Design of Bill GatesÕs TerraPower-Hitachi versatile test reactor. illustration: US DOE Addressing readers who remain terriÞed of nuclear energy, Spiegel writes: ÒAccording to estimates, 800 000 people die every year from the smoke produced by coal, containing 22 | POWER INSIDER VOLUME 11 ISSUE 2 toxic substances such as sulfur dioxide, nitrogen oxides, mercury or arsenic. But concepts must also be demonstrated for how to dispose of the toxic substances contained in usedup photovoltaic cells.Ó
concepts must also be demonstrated for
new reactor concepts are on the table,
construction of new coal power plants,
how to dispose of the toxic substances
which addresses those issues and could
which are the single biggest source of
contained in usedup photovoltaic cells.”
completely redefine the role of nuclear
CO2 emissions by human activity. Since
energy in the world economy.
the start of 2018, China has brought 42.9
The magazine explains that “energy
gigawatts of new coal-fired power plants
generation nearly always claims
I shall describe some of these reactor
online, with another 121.3 gW under
victims and creates some pollutants.
concepts in a bit of detail. But first
construction and 200 gW or more in
The question is, what costs and risks
I should try to establish clarity on a
various stages of planning.
are we ready to accept? What should
crucial point. India also continues to expand its coal
we fear most: global warming, which is sure to come, or a possible regional
I believe we are facing a branching point in
power capacity, with 36 gW under
reactor catastrophe? The objections to
global energy policy. What should be the
construction. Last July the Indian power
nuclear energy are justified. But in view
priority? Assuming it should be a goal to
ministry’s chief engineer declared that
of climate change, is it right to reject
drastically reduce world emissions of CO2
coal-fired power generation capacity
nuclear technology altogether?”
in the medium and long term – which I
is expected to rise by 22.4% in the
don’t want to argue about here – is it wise
coming three years. The ongoing
New reactor designs such as the traveling
to invest so much in renewable energy
expansion of coal power in China
wave reactor, the molten salt reactor
sources, as many nations are doing today?
and India does not reflect a lack of
and small modular reactors promise
Or should we allot only a limited role to
concern about pollution and climate
to be much safer and cheaper than
the renewables, and go for a massive
change; the problem lies above all in
conventional nuclear power and have
expansion of nuclear energy instead?
the economic, physical and technical
broader ranges of applications. Some
constraints under which these nations
could even “burn” nuclear waste as a
Note: nuclear energy in this article
fuel – eliminating the need for very long-
signifies only fission energy, presently
term storage of radioactive material,
the only established means for large-
The simple fact is, that in the
which is a major argument against
scale energy generation by nuclear
foreseeable future no amount of
nuclear energy. Standardised modular
processes. Promising developments in
investment into renewables, however
construction would allow nuclear
next-generation technologies that may
large, will be sufficient to eliminate
reactors to be factory-produced in much
become game-changers for a future
humans’ dependence on coal, oil and
shorter times.
generation, which we may group under
natural gas. That is, unless we are willing
the shorthand term “cold fusion,”. First
to collapse the world economy.
must design their energy policies.
On this basis, a massive expansion
let’s deal in more detail with a very big
of nuclear power worldwide might
question: To what extent could so-called
If we are really committed to reducing
be accomplished within the space
renewable energy replace the use of
CO2 emissions, then there is no way
of 10-15 years. The rapid build-up of
fossil fuels?
around nuclear energy, and lots of it.
nuclear power in France, in response to
According to Bloomberg New energy
The reasons are elementary.
the 1973 “oil shock,” provides a certain
Finance, $288.9 billion was invested into
historical precedent.
renewable energy in 2018, the bulk of
Suppose that by some means we could
which went into wind and solar energy.
completely eliminate the use of fossil
Despite this, CO2 emissions worldwide
fuels for transport and heating. This
continue to grow relentlessly.
is hardly conceivable without greatly
New agenda There is no doubt that nuclear energy
increasing the global consumption
is back on the world agenda, even
China, for example, leads the world
of electricity, which can already be
for many of those who have been
in the size of its investments into
projected to more than double over
bitterly opposed to it in the past. And
renewable energy, with over $100 billion
the next 25 years. Where will all the
nuclear energy – in the form used
invested in 2018 alone. At the same
electricity come from?
today – still has serious problems. But
time China also leads the world in the
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FEATURE: ADVANCeD NUCLeAR
If we insist on “CO2-free” sources of
it impossible to fit the output curve to
the same capacity. I mentioned biogas.
electricity, then the number of realistic
the demand curve, even approximately.
electricity production from biogas
options is small. When it comes to
Solar panels produce no electricity at
could be included as “CO2-neutral” in
large-scale power production they are
all at night, of course, and not much on
the sense that the CO2 emitted by the
limited essentially to hydroelectric,
rainy and overcast days. The electricity
combustion of biogas ultimately derives
wind, solar and nuclear energy.
output from wind power installations
from the photosynthetic capture of
electricity generation from biofuels,
can fluctuate wildly even from one hour
atmospheric CO2 by crop plants.
which can claim to be “CO2-neutral”,
to the next, and even when averaged
might contribute a few additional
out over a large region. In contrast,
The World Bioenergy Association
percent. Unfortunately, economically
conventional or nuclear power plants
estimates that biogas has the future
viable hydropower is limited to
provide a continuous, steady supply of
potential to provide an amount of
certain geographical locations, and
electricity, at power levels which can be
energy equivalent to about 25% of that
its potential for further expansion is
precisely controlled.
presently generated from natural gas (in all its uses) in the world economy.
strongly constrained by environmental, economic and social factors as well
Quite apart from the intermittent
If 100% of that biogas were used to
as very long lead times for large
character of solar and wind energy, the
produce electricity – which is highly
projects. Leaving these problems aside,
so-called renewable energy sources
unrealistic – this would cover about 5%
hydroelectricity might hypothetically
all suffer from the drawback of low
of today’s electricity consumption.
be increased to about three times its
intrinsic power density: the renewables
present level in the long term. given the
require vastly larger areas and/or larger
Large-scale biogas production – as
projected growth of electricity demand,
numbers of operating units to reach
opposed to smaller-scale utilisation of
the share of hydropower could at best
the same output as a modern, compact
organic wastes – de facto means using
grow from 16% today, to 25% in 2050.
coal, gas or nuclear plant.
agricultural crops as solar collectors. Unfortunately, photosynthesis in
Where will the other 75% come from? Under typical weather conditions of
plants is 10 times less efficient in
Wind and solar power have some
central europe, for example, it takes
capturing solar energy, than modern
obvious strong points. They require
some thousands of large wind turbines,
solar cells. This makes the production
no supply of fuel and their total
or solar cells covering a total area of
and use of biofuels for large-scale
capacities can be expanded quickly, at
the order of 100 square kilometres, to
electricity generation an extremely
relatively low unit cost, as is occurring
generate the same yearly quantity of
resource-intensive process, requiring
today around the world. At the same
electricity as a single 1 gW conventional
large land areas, water resources,
time, wind and solar energy have a
or nuclear power plant. Building a
machinery, transport and labor
fundamental drawback: their output
wind turbine capacity of 1 gW requires
per unit output – resources that
fluctuates depending on conditions that
50-100 times as much steel and
might otherwise be applied to food
are outside human control. This makes
cement as a nuclear power plant with
production and other uses.
24 | POWER INSIDER VOLUME 11 ISSUE 2
Questions and Answers wih Clive Turton, CEO, Vestas Asia Pacific
1. Tell me about yourself and your role
of smart, driven people who share my
as CEO, Asia Pacific at Vestas
passion for the renewable industry and for building a clean, sustainable energy
I grew up in Australia, and have
industry in Asia. As the CeO of Vestas
2. How does Asia Pacific differ from
been living overseas for more than
I get to see close up the birth of new
other regions where Vestas operates?
20 years. I have lived and worked
clean energy projects across the region
in the US and europe but I have
– from Australia one day, Mongolia the
Asia Pacific is a high growth market;
made my home in Singapore and
next, Japan, Korea, Vietnam, India and
the most important market for growth
the Asian region. I began my career
so on. We are construction, operating
in the global energy market. By 2040,
as a corporate lawyer in Sydney,
and developing renewable energy
the power market here will be larger
transitioned across to banking where
projects across fifteen countries and
than the rest of the world’s combined.
I ran the energy and Infrastructure
the growth in activity level for our
As the economics of renewables
group for INg Bank in Hong Kong and
business over the last few years has
improve, wind and solar are
since then have managed a number
been amazing.
increasingly competing with fossil fuels
of energy businesses in the region,
I am extremely passionate about the
as a clean power source to replace coal
before joining Vestas as Asia Pacific
region, and even more so about the
in Asia Pacific.
CeO in early 2017.
regional prospects for the renewable energy industry. Renewables are
However, it is also a highly complex and
I feel extremely lucky to be a
abundant, clean, and increasingly cost
diverse market. There are 11 time zones
regional leader for the world’s largest
effective, and it is clear they will play a
and more than 20 languages across
renewable energy company. We are
vital role in the region meeting its fast-
the 15 markets in which we operate
at an immensely exciting time in the
growing demand for energy.
here. We also serve a diverse customer
history of energy production and to
base, from mature markets like Australia
be part of a world-changing energy
Vestas has always been a leading player
to emerging markets like Vietnam
company in an industry that changes
within the region and now we’re uniquely
and Thailand and then the enormous
and grows and adapts on a daily basis
positioned to capitalize on this growth
potential of India. Our customers range
is very exciting. I am also very lucky
and further expand our leadership as a
from utilities, to independent power
to be supported by a fantastic team
renewable solutions innovator.
producers, to financial institutions, with
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FEATURE: Q&A - CLIVe TURTON
a variety of experience in the wind
of power demand in the region. Its
4. Compared with other renewable
energy space.
electricity consumption has increased
energy sources, why is wind the best
by 13% annually since 2000. electricity
option for Vietnam’s energy transition?
Due to this uniqueness, we need to
peak demand is growing at 11% annually
set up a very fast-paced and agile
as investments in the country continue
Vietnam has some of the strongest
organization to tailor our solutions to
to accelerate. Industries are adjusting
wind resources in the Southeast Asian
customer needs.
their supply chain to be less reliant on
region. endowed with more than
neighbouring China, and are attracted
3,000km of coastline, Vietnam has 24
3. What factors are driving the rate
by lower labour costs in Vietnam.
gW of estimated technical potential
of growth of Vietnamese power
Vestas is leading the pack in developing
for onshore wind. Average wind speeds
consumption over other Southeast
new wind projects in Vietnam – we
in Vietnam are 7.2m/s at 100 meters
Asian countries?
closed four of the five deals last year in
height in the top 10th percentile of
this market and we are now deep into
windy areas.
Southeast Asia is primed to become
execution of new projects. Vietnam has
the engine of global economic growth.
a feed in tariff and a government that is
In Vietnam, costs for wind and solar
The region’s electricity consumption
supportive of renewable energy. There
dropped below those of coal in 2017,
has grown by nearly 6% annually since
is considerable interest in this market
meaning renewables are now the
2000, double the world’s average.
from investors the world over and it has
cheapest form of new power generation
the opportunity to be a regional leader
on a Levelized Cost of energy (LCOe)
in the renewable energy industry.
basis. While the average LCOe of coal
With a growing population of 96.7 million, Vietnam is at the forefront
is projected to remain at current levels
Clive Turton Group Senior Vice President President, Vestas Asia Pacific Clive Turton is Vestas Asia Pacific President.
Pacific and VP Business Development at independent
With over 15 years of experience in the region, he has
power development company APR Energy LLC where
built and managed businesses across all sub-markets;
he built and managed APR’s Asia Pacific business,
from South East Asia, China, and India to Korea, Japan and
and extensive board experience from his position as
Australia. His background is within business development,
Non-Executive Director at infrastructure development
asset management, banking and law.
company, Infraco Asia Development.
Clive comes from a position as the CEO of Asia Power
Previously he spent 10 years with ING Bank, N.V. in Hong
Development Platform (APDP), a power generation
King and Singapore where he held positions as Managing
development company established through a joint
Director, Head of Corporate Finance, Asia, and Head of
venture between Australian financial services provider,
Utilities and Infrastructure Group, Asia. Earlier positions
Macquarie and German power generation company,
include Business Development Director at IPP developer
STEAG. APDP is focused on the development,
Mirant Corporation, Hong Kong, Senior Associate at Gide
construction and operation of power generation assets in
Loyrette Nouel, a law firm in Paris, France, and as Solicitor
South East Asia.
at Clayton Utz, a law firm in Sydney, Australia.
Clive also has strong leadership and commercial
Clive Turton holds Bachelor of Arts and Bachelor of Laws
experience from his positions as Managing Director Asia-
(Hons) degrees from Australian National University.
26 | POWER INSIDER VOLUME 11 ISSUE 2
through 2030, wind and solar LCOe
This technology reduces disruption
In the end though, our goal for
are set to continue to decline as the
to farming and other activities on
Vietnam, Southeast Asia and every
technologies mature. We project that
land close to the shore, but does not
market that we operate in around the
wind and solar will be cheaper than
require the capital investment for
world is to reduce reliance on polluting
hydropower around 2022.
full-scale offshore wind development.
fuels and bring abundant clean,
It is popular in Vietnam where there
affordable renewable to the markets for
This would be the same story though
are tidal flats surrounding a lot of the
the benefit of consumer, of industry,
in a lot of Vietnam’s neighbours.
coastline in the Mekong Delta where
and ultimately the whole planet.
Wind and solar are fast becoming
there are good wind resources.
the cheapest forms of new energy in
7. Is there anything you would like to
markets across the region and across
6. What are Vestas’s current goals for
the world. Countries that previously
capacity and operations growth both
relied on imported fossil fuels, sending
in Vietnam and the Southeast Asian
Wind and other renewable energy can
money overseas month after month,
region? How close is the company to
play a bigger role in helping Vietnam
are now realising that they can tap
meeting those targets?
meet its increasing energy demand, and
their own indigenous wind and solar
add or reiterate?
bring clean, cheap, reliable energy to
resources to deliver clean, cheap power
Currently, Vestas operates more than
industries and communities.
to consumers without the need to fund
80 MW of wind assets in Vietnam, and
More ambitious wind development
fuel shipments.
won an additional 200 MW of orders
targets, clearer future procurement
in 2019. By virtue of our mature project
framework post 2021 FiT expiry, and a
5. How does an intertidal wind farm
execution record and service set up, we
fit-for-purpose PPA could help Vietnam
differ from traditional offshore projects?
are already the dominant wind solution
move away from its reliance on coal,
provider in the market. It is our goal
attract more foreign investment, as
Intertidal projects are located in the
to maintain our leadership position in
well as bring jobs and cheaper/cleaner
shallow near-shore waters, and use
both Vietnam and Asia Pacific region
energy to its communities.
onshore wind technologies to harvest
as a whole.
wind resources from the sea. Turbines are built on top of raised foundations,
As our business in the region grows, we
using the same foundation technology as
will continue to strengthen relationships
onshore wind farms. The tower, however,
with key customers, provide innovative
is coated in a special paint to prevent
and advanced energy solutions, and
corrosion in the marine environment.
offer market leading products suited to the Asia Pacific region.
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cASe
STUdy
Adoption of variable speed drives yields increased plant efficiency, reliability and availability PacificLight Power
in Singapore to be completely fuelled
operations without compromising on
by Liquefied Natural gas (LNg),
reliability, availability and flexibility.
Singapore-based power generation
and is capable of producing enough
and electricity retailer, PacificLight,
electricity to meet the demands
As part of an initiative to reduce
utilizes variable speed drive technology
of all households in Singapore. In
onsite electrical consumption, the
from Siemens to achieve significant
2015, the plant generated over
company elected to modify its two
energy savings and improve overall
9% of Singapore’s total electricity
cooling feed water pumps. Prior to the
plant efficiency.
consumption. PacificLight energy, a
modification, the cooling feed water
subsidiary of PLP supplies electricity
pumps represented over 35% of the
to contestable retail customers.
total unit onsite auxiliary load and were
PacificLight Power (PLP) is a Singapore-based power generator
the highest consumer of internal energy
whose power plant stands as one of
The Need for Greater Efficiency
the most efficient operating units in
With Singapore’s growing energy
the Singapore power market today.
needs, which are currently around
The plant was installed with a
With an installed electrical generating
46,403 gWh per year, coupled with
mechanical throttling valve control
capacity of 800 megawatts (MW), the
the increasingly competitive business
for the feed flow, which consumed
state-of-the-art Combined Cycle gas
environment, PLP recognized the
a considerable amount of energy as
Turbine (CCgT) power plant is the first
need to improve the efficiency of its
the pump motors were running at
28 | POWER INSIDER VOLUME 11 ISSUE 2
within the CCgT plant
constant speed. In addition to vary
integrated transformer and the ability
water cycle, which has reduced
pressure, the upstream high-pressure
to scale the drive for a wide range of
the differential pressure across the
feed water control valve was throttled
voltage and output power. The drive
feed water control valve to a value,
to control the flow, which led to
offers increased availability due to its
which was initially not thought
severe valve erosion.
modular design and ability to bypass
possible. The energy savings from
any one cell during operation.
this project will allow the company
Seeking a Partner with Automation
to realize a return on investment in
Expertise
Siemens installed the first unit of
Automation is at the heart of today’s
variable speed drives at PLP’s power
CCgT performance and PLP wanted
plant in October 2015, and the second
noise enclosure of the feed water
an automation partner that was
unit in January 2016. Because of the
motor and pump at ambient
dependable and experienced enough to
unique multi-cell topology design,
conditions. The noise level of the
help the company evolve and embrace
the Perfect Harmony converter does
feed water pump motor dropped
system changes in a timely manner.
not cause any significant stress on the
from 89 dBA to 81 dBA, meaning
PacificLight needed a partner that had:
motor insulation or bearings and does
that the plant operator does not
•
Relevant experience.
not affect the mechanical and electrical
have to wear ear plugs to carry out
•
Proven concept – with successfully
integrity of PLP’s feed water pump as
patrol inspections.
commissioned products with
it does not require repositioning of
reliable operating history.
the pump and motor. Once installed,
temperature, therefore less chiller
Readily available engineering
the variable speed drives were able to
capacity required.
support expertise in terms of
control the speed of the feed water
quality in on-site field service
pumps and modulated the discharge
The technology has also enabled
personnel, turnaround time,
pressure optimally according to the load
operators to control the speed of the
logistical sourcing of critical/
profile, delivering the required flow at
pump and modulate the discharge
contingency spares, remote
much lower motor power.
pressure of the flow according to the
•
engineering specialist consultation,
•
less than 3 years. •
•
Significant improvement in the
Close to 4% decline in
load profile – delivering the required
and prompt technical update to
Apart from supplying the technology,
alert the customer.
Siemens also contributed valuable
Competitive pricing.
insights and advice leading to increased
flow at a much lower motor power.
reliability of the installed variable
“Throughout the years of working with
Taken the above into account as well
speed drives. Furthermore Siemens
Siemens, the company has consistently
as the detailed understanding that
assisted to train PLP’s duty operators
proven itself in providing robust
Siemens has of PLP’s plant given
and maintenance personnel to ensure
technological solutions that are delivered
its role as ePC contractor in the
maintenance and operations can be
on time, within budget and that often
construction of its 2 x 400MW F-class
conducted smoothly post installation
operate even better than expected. Trust,
Combined Cycle gas Turbines that
by the PacificLight team.
reliability, professionalism and honesty
were completed in 2014, Siemens were selected for the project.
are just some of the values that Siemens Seeing the Results
has demonstrated, and we appreciate
Since the installation of the variable
their ability to not only handle the project
Siemens Variable Speed Drives:
speed drives, PLP has achieved:
smoothly from start to finish, but also
SINAMICS PERFECT HARMONY
•
A significant reduction in onsite
provide us excellent support at every step
GH180 Converter System
power usage of up to 50% for
in the plant operation. We look forward to
The SINAMICS PeRFeCT HARMONy
the feed water pumps, thereby
many more years of partnership ahead,”
gH180 Converter System is a series
improving the generation output
Mr. K.K Shivakumara,
of cells linked together to create the
and efficiency of each unit.
Chief Operating Officer,
An 18% increase in energy savings
PacificLight Power
medium voltage power output of the drive system. The design features an
•
due to the flexibility of the steam
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gAS TUrBine comPonenTS LiFe eXTenSion cLinic
Mechanical Dynamics & Analysis
Formerly PW Powers Systems’ IgT
repair program, by undertaking TBC
(MD&A) now offers gas turbine
division, the MD&A San Antonio
coating systems, and by making
components life extension through its
Service Center experts have years
platform improvements.
integration of PW Power Systems IgT
of experience evaluating the life
division based in San Antonio, Texas.
limiting factors for gas turbine vanes
Thermal mechanical fatigue cracks
or blades. Such factors include cracks,
will eventually lead to platform
We can extend the service life of parts
corrosion, wall thickness, and material
failure. Design modifications often
whose OeM service limit has passed
condition. Most cracks are located
are required, incorporating a robust
or whose configuration is no longer
at the platform or shroud. Smaller
repair procedure. The life cycle
suitable to operate. Significant savings
percentages occur at the blade tip, the
enhancement process used by our
can be realized by opting for lower-cost
blade airfoil, or the root.
experts exceeds OeM platform
repaired spares instead of new parts.
properties. Platform degradation can be reduced
elevated temperatures take a big toll
in many ways: by operating in base
Our experts at the San Antonio
on gas turbine components. Repair
load only (even though dispatch
Service Center combine years of
enhancements can extend a part’s
conditions may prevent that from
experience with state-of-the-art
life by slowing its degradation and
being a practical solution), by
equipment to deliver exactly the right
pushing out its usable service life.
pursuing a robust platform weld
solutions to you!
30 | POWER INSIDER VOLUME 11 ISSUE 2
9FA 3rd Stage Blade Extended to 120,000 FFH
9FA 3rd stage blades were received by our San Antonio facility where they underwent detailed inspections, including microstructural assessment and high-temperature testing.
Vacuum Heat Treat Furnace
Observations indicated galling in root
were deemed repairable.
condition and in the post repair
serrations and seal pin surfaces, as well
Additional repair work included grit
heat treated condition. These third
as the presence of two distinct casting
blasting and polishing the gas path
stage blades were evaluated and
houses to produce the row of buckets.
surfaces to remove an oxide layer,
subsequently determined to be
Scope of work included a visual
a complete x-ray inspection, and
candidates for a Life Time extension
inspection, dimensional measurements,
HVOF coating and diffusion to reduce
(LTe) repair.
and an x-ray inspection. Also included
surface degradation.
were a microstructural assessment,
Once established as candidates for Life
high-temperature mechanical
Repair heat treatment was applied to
Time extension, our experts employed
properties testing, assessment of
several samples from the test blades.
repair practices to further extend the
material condition at multiple locations,
Our experts utilize a vacuum heat treat
useable life of the components and
heat treatment of specimens to
furnace, where we control the heating
the 9FA 3rd stage blades’ lives were
demonstrate the effects of repairs, and
and cooling of metals to alter their
extended to 120,000 FFH.
high-temperature mechanical property
physical and mechanical properties. The test blades were evaluated to
V94.3A4 2nd Stage Blade Extended to 75,000 EOH
Inspections showed that the
determine the material’s response
A V94.3A4 2nd Stage Turbine Blade
manufacturer’s heat treatment did
to the heat treatment. The material
set had 50,000 eOH and operated
not achieve full solutioning. All blades
responded well to the heat treatment
through two service intervals, along
also displayed a two-phase gamma
on the blades. The primary gamma
with one repair performed by the
prime structure within each grain,
transformed to a more cuboidal
OeM at 25,000 eOH.
indicating that the previous repair heat
morphology, which provides for
treatments were not optimized to
improved component creep life.
testing performed post-heat treatment.
Our San Antonio service center experts performed testing and
achieve a good structure. In addition, the blades had surface oxidation and
In conclusion, our experts evaluated
evaluation on the blade set to
depletion. even so, the components all
each component in the as received
determine if the hardware is deemed
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FEATURE: Life Extension Clinic
lives were extended to operate to a total of 75,000 EOH. Our San Antonio Service Center, or Gas Turbine Parts Service Facility, exemplifies best in service because of the deep experience in industrial gas turbine engineering and technology, repair techniques and equipment, and proven expertise on multiple frame gas components. MD&A’s available Gas Turbine services range from full turnkey major inspections, to rotor unstacking, gas Blade tip showing significant oxidation
turbine alignment, and control systems troubleshooting services.
repairable and serviceable for another
One heat-treated blade’s metallurgical
interval, as well as, evaluation of the
properties were then evaluated and
MD&A is a global full-service OEM
previous repairs.
compared to the other blade in the
alternative for services, parts, and
One 2nd Stage Blade tested in the as
as received condition. The evaluation
repairs. Call our MD&A Gas Turbine
received condition had an internal and
confirmed that the heat treatment
Services today at +1-518-399-3616 or
external Coating Evaluation, along with
process will heal and improve the
visit our website www.mdaturbines.com
a mechanical properties & metallurgical
gamma prime structure.
properties inspection.
Note: Not subject to the EAR per 15 Based on all the evaluation performed
C.F.R. Chapter 1, Part 734.3(b)(3). © 2018
The other 2nd Stage Blade was
on the two 2nd Stage turbine blades,
Mechanical Dynamics & Analysis LLC. All
evaluated in the post heat-treat
our experts considered that the full set
Rights Reserved
condition with a mechanical properties
is a viable candidate for life extension to
& metallurgical properties inspection,
75,000 EOH.
and then evaluation of metallurgical results. The heat-treated part was then
The measurements of the blade
evaluated for reparability.
tip cap indicated that there was sufficient material to perform a
Our experts performed a pre-weld heat
successful weld build up repair,
treatment, post-weld heat treatment,
so they removed most of the
and a diffusion or aging heat treat
previous weld repair. Because of
solution utilizing our vacuum heat treat
heavy oxidation on the blade tip,
furnace in our shop.
an oxidation resistant alloy was used. Our weld repair procedure has
The external TBC appeared in good
demonstrated to provide excellent
condition. However, the blade tip has
oxidation resistance during operation
significant oxidation. This is most likely due to the weld wire selected during
A coating system consisting of a
the previous repair. All other inspections
NiCoCrAlY applied by HVOF and a TBC
were normal.
top coat was applied with our propriety coating. The V94.3A4 2nd Stage Blades’
32 | POWER INSIDER VOLUME 11 ISSUE 2
A coating consisting of a NiCoCrAlY is applied by HVOF
®
The roLe oF generATor SeTS in The neW LAndScAPe oF microgridS The demand for primary energy, the
we currently enjoy. On this last point,
energy needed to meet the basic needs
this is where generator sets play a crucial
of the population for heating, transport
role. generators add reliability to this
and electricity consumption, has
new mix, which has to meet many
consistently grown in recent decades.
requirements at the same time: it has to
Since 2010, it has increased by a factor
be efficient, compatible with the existing
of 1.5 and, according to the International
infrastructure everywhere, adapt to
energy Agency, it is predicted to grow
demand at any given time and reduce
32% by 2040. How can this growth be sustainable in the long term? The energy mix needs to be remodelled to make way for cleaner forms of energy, without sacrificing the stability of supply
the environmental impact caused by the
Distributed Energy to meet longunstoppable increase in global energy term energy demand needs.
demand for energy resources. But this growth has set a course: the process has to be sustainable. The last United Nations
Increased consumption in countries such
Climate Change Conference, held in
as India and China, global population
Paris in 2015, set out the path towards
Massimo Brotto. HIMOINSA SALeS
eNgINeeRINg MANAgeR growth and the significant industrial
Genera
commitment of the 195 countries that
an enormous effect on the upswing in
signed the agreement. The majority have
take en
energy
autono Control
Distributed Energy to meet longterm energy demand
such as India and China, global population growth and the significant
Increased consumption in countries such
industrial development that is taking
as India and China, global population
place have an enormous effect on resources. But this growth has set
the ele dema continu growt Microg to be develo
Clima to date Paris to the
development that is taking place have
a lowdiffere comm techno
an enormous effect on the upswing in
signe genera
growth and the significant industrial
the upswing in demand for energy a course: the process has to be
feature
sustainable. The last United Nations Paris in 2015, set out the path towards
depen
solutio
a low-emission economy, with the
Distributed Energy to meet longterm energy demand
Climate Change Conference, held in
to put
Techno
development that is taking place have
Increased consumption in countries
heede
part, w Control work c MICROGRID
heart o
a low-emission economy, with the
Technology already offers concrete
on the electricity grid, can produce
commitment of the 195 countries that
solutions to these needs. “Distributed
energy continuously and sustainably.
signed the agreement. The majority
Generation” makes it possible to take
have heeded the agreement and have
energy production to where the
Microgrids represent the most
started to put solutions in place to
energy is, with units that, by working
developed Distributed generation
reduce their dependence on coal.
autonomously and without depending
model to date: systems, whether
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 33 MICROGRID
FEATURE: HIMOINSA geNeRATORS
Combining genera Hybrid Renewable Energy Systems
connected to the grid or not, which can
management syste
combine different conventional and
to plan running hou
renewable technologies. In addition
to increase the mic
to energy generation, they have
RENEWABLE TECHNOLOGIES
CONVENTIONAL TECHNOLOGIES
• SOLAR
• GAS
enormously. SOLAR DIESEL
two distinctive features: control, the most intelligent part, which predicts consumption and work cycles; and
+
• WIND • BIOMASS
SOLAR GAS
The combination o
fuel-powered gene BIOMASS COAL
=
• DIESEL
100% renewable e
significant advanta
• COAL WIND SOLAR
storage devices, the with power
WIND DIESEL
Firstly, it provides a
supply, which a ren
electronics compensate for the load
alone is unable to
variations of renewables and are much SOURCE: FROST&SULLIVAN SOURCe: FROST & SULLIVAN
more efficient in energy production.
Secondly, it signific
costs. A typical loa
next five years, and rural and island
The combination of a conventional
plants shows how
To make all this equipment work,
electrification is expected to lead the with power electronics compensate
such the legislativegeneration framework, plant the fossilasfuel-powered
generator sets wit
a monitoring system is required to
for theas load variations of year-on-year renewables process a whole, with
with a 100% renewable energy plant
collect and communicate all data,
and are growth ofmuch 23%.more efficient in energy
both from the grid and from the other
production.
Hybrid Renewable Energy Systems
To make all this equipment work, a
from generator sets, another third from wind energy and the rest from
Incorporating generator sets into
microturbines, solar panels or fuel cells.
these hybrid systems guarantees that sets, another third from wind energy and
environment. At present, one third of energy supplied by microgrids comes
SOLAR DIESEL
• SOLAR
• GAS
• WIND
• DIESEL
• BIOMASS
• COAL
offers not only a si
grid, and the cost and profitability of
but also reduced o
generators with its a smart electrifying anCombining area, considering
maintenance costs
population density and its level of to plan running hours to perfection and
always be lower an
to increase microgrid’s efficiencyis industrialisation. Even so, this market Firstly, it provides anthe uninterrupted
and lubricant, filter
expected to grow at a abrisk around SOLAR GAS The combination of apace, conventional fossil power supply, which renewable energy
will be required.
offers significant advantages.
Advantages ofis required to collect monitoring system incorporating and communicate allgenerator data, both from the grid and from the other connected sets in hybrid + = sources, in a smart grid generation plantsenvironment.
connected sources, in a smart grid
distance from the national electricity
management system makes it possible
enormously.
generation with a 17.1% per yearfuel-powered for the next fiveplant years,
plant alone is100% unable to guarantee. renewable energy plant offers
BIOMASS COAL
WIND SOLAR
At present, one third of energy supplied by microgrids comes from generator
and rural and island electrification is significant advantages.
WIND DIESEL Firstly, it provides an uninterrupted power expected to lead the process as a whole,
Secondly, it significantly reduces with year-on-year 23%. alone growth is unable toof guarantee.
supply, which a renewable energy plant
Secondly, it significantly running running costs. A typical loadreduces pattern of
SOURCE: FROST&SULLIVAN
costs. A typical load pattern of these
to combine different technologies to
Hybrid solutions ar
for industrial marke
Advantages of incorporating these plants plants shows how the combined shows how the combined use of or telecommunicat generator sets with renewable energy such as the legislative framework, the generator sets in hybrid with power electronics compensate or fueliscells. up energy in rural a energy always available. They are use of generator sets with renewable offers not only a significant fuel saving, distance from the national electricity for the load variations of renewables generation plants but also reduced overall running and and the cost and profitability of However, the global trend is grid, certainly well as a single so thethe system is reliable: it ensures rest from microturbines, solarthat panels
However, the global trend is certainly
Suitable conditi installation of a
and are much more efficient in energy the ingredient in the mix thatelectrifying provides energy offersmaintenance not only a significant costs. Running hours will an area, considering its production. to combine
different technologies to
Incorporating generator sets into
power for shops, f
eliminate the negative aspects they
always be lower and less maintenance population density and itsfuel level of aTovery sound solution saving, but also reduced overall make all this equipment work, ato the intrinsic
each have when used individually,
be required. expected to grow at a brisk pace, around instability ofallrenewable running and will maintenance costs. and communicate data, both from energy,
and to reduce dependency on
the grid and from the other connected because, unlike renewable energy, Running hours will always be lower and rural and island electrification isis always Suitable conditions for are the theand • reduce dependency on fossil fuels. The energy available. They sources, in a smart grid environment. expected to lead the process as a whole, installation of a hybrid plant At present, one third of energy supplied falling price solar panels iswith making the ingredient in the mixand thatlubricant, provides afilter very generators areofnot dependent upon less maintenance year-on-year growth of 23%.
fossil fuels. The falling price of solar panels is making the transition much smoother and countries such as the United Arab emirates, Saudi Arabia, Qatar, germany and Chile
and lubricant,guarantees filter or injector that changes industrialisation. Even so, this market is eliminate the negative aspects they these hybrid systems monitoring system is required to collect
each have when used individually, and to the system is reliable: it ensures that 17.1% per year for the next five years,
by microgrids comes from generator
transition much smoother countries sets, another third from wind energy and and often unpredictable natural conditions. or fuel cells.
Arabia, Germany However, the Qatar, global trend is certainly and
started to encourage renewable energy
the system is reliable: it ensures that
falling price of solar panels is making the
ingredient in the mix that provides a very
energy projects with this goal.
such as the United Arab Emirates, Saudi largely depend on external
for industrial markets, such asrunning the hours mining aArabia, smart management system makes Qatar, Germany and Chile have with around 4,000 renewable energy, generators are not The appeal of combining fossil fuels
to encourage renewable energy per year. The ideal situation for a dependent upon often unpredictable or telecommunications sectors, as itstarted possible to plan running hours projects with this goal. hybrid plant is most of the demand natural conditions.
and renewable energy, and its success,
Theperfection appeal of combining fossil occurring during the day, when solar as a energy in backup rural areas and islands, to and tofuels increaseIn addition, the generators function
largely depend on external factors,
largely depend onefficiency external factors,enormously. • They have a high of exposure respond very quickly to load as variations. well as a SMART single source of level continuous microgrid’s GRID
and renewable energy, and its success,
very useful storage alternative that can
sources are available.
BALANCE OF SYSTEM
power for shops, farms or households. BALANCE OF SYSTEM SMART GRID
grid, and the cost and profitability of electrifying an area, considering its population density and its level of industrialisation. even so, this market is expected to grow at a brisk pace, around 17.1% per year for the
34 | POWER INSIDER VOLUME 11 ISSUE 2
BALANCE OF SYSTEM SMART GRID
Their demand
occurring duri
connected to the grid or have
• Their demand to 5MW, of renewable energy, because, unlikevery quickly factors, respond to loadis up variations.
excessively h
hybrid plant is
common features:
and renewable energy, and its success, very useful storage alternative that can Hybrid solutions are especially attractive variations. Combining generators withto the intrinsic transition much smoother and countries excessively high electricity costs. sound solution instability
connected to
per year. The i
eliminate the negative aspects they All these applications share a number of these hybrid systems guarantees that for the installation of a very usefulwith storage alternative that projects this goal. natural conditions. each have when used individually, and to
They are place
with around 4
dependent upon often unpredictable
reduce dependency on combining fossilquickly fuels. The fossil • They are function places that are is always available. They are the generators The appeal of fuels In addition, asnota hybrid plant can respond very to energy load
distance from the national electricity
•
Suitable power conditions In addition, generators function as a to combine different technologies to for shops, farms or households. Incorporating generator sets into
have started to encourage renewable
such as the legislative framework, the
common features:
Hybrid solutions are especially attractive
sound solution the will intrinsic instability forto industrial markets, as the mining or injector changes be such required.
Advantages of incorporating or telecommunications as backSaudi of renewable energy, because,sectors, unlike generator sets in hybrid up energy in rural areas and islands, as generation Chile haveplants renewable energy, generators are not well as a single source of continuous
thesuch rest from panels as microturbines, the Unitedsolar Arab Emirates,
All these applicatio
sources are a •
They have a h
generator set actually works
integrated in the management of a smart
In this specific case, it would mean
an annual saving of 1,600,000 litres of FEATURE: geNeRATOR INplant NeWisMICROgRIDS Let’s suppose that aSeTS hybrid diesel per year, more than one third of installed in Chile, in a region where solar
grid, make it possible to plan running hours and to increase the efficiency of the whole system.
PV 36%
POWER [kW]
DIESEL 64%
HOURS [h]
All these applications share a number of
this is under a roof, the ratio should
for detecting which energy source is the
common features:
be around 10 square metres per
best at any given time. So, during the
•
They are places that are not
kW generated. Where this is on the
hours of greatest solar irradiance, the
connected to the grid or have
ground, 20 square kilometres would
generators work at a minimum level. In
excessively high electricity costs.
be required per MW.
this way, the service life of the engine
•
Their demand is up to 5MW, with
and maintenance costs of the unit are
occurring during the day, when solar
Case study: how integrating renewable energy with a generator set actually works
sources are available.
Let’s suppose that a hybrid plant is
1,600,000 litres of diesel per year, more
They have a high level of exposure
installed in Chile, in a region where solar
than one third of current consumption.
to sunlight or wind. To guarantee
irradiance is 2,312kWh/m² and annual
Based on these figures and depending
a return on investment, solar
electricity consumption is approximately
on the price of diesel and solar irradiance,
irradiance should be more than
17,520MWh/year. For constant daily
the investment in a plant that combines
1,300kWh/kWp or, as applicable,
consumption of 4MW for 12 hours, let’s
generator sets with solar panels could be
wind exposure should be at least 4
estimate that 4,800,000 litres of diesel
recouped within three to five years.
m/s. Countries such as Chile, Peru
would be required.
around 4,000 running hours per year. The ideal situation for a hybrid plant is most of the demand
•
is increased and therefore the running reduced. And of course, fuel consumption is considerably reduced. In this specific case, it would mean an annual saving of
www.himoinsa.com | the 2017 and India, or regions such as
•
Caribbean, Asia Pacific, Middle east
If three HIMOINSA HTW-2030 T5
and North Africa are geographical
generator sets, which supply a total of
areas that meet all these optimal
4.85MW are installed, how many hours
natural conditions for installation.
would it take to recoup an investment
They have enough space for the
like this? How much fuel could be saved?
installation of solar panels. Where
The monitoring systems are responsible
Massimo Brotto HIMOINSA SALES ENGINEERING MANAGER
With more than 15 years of experience, he leads a team of professionals
Conclusions
providing technical support to the
In the transition from conventional energy production to more renewable forms of
the development of generator set
production, generator sets unquestionably have a role to play in the coming years.
applications with batteries and
Their capacity to ensure availability of energy to meet increasing demand that is more
renewable systems. In terms of
challenging from an environmental point of view makes them a sound solution to the
new product design, he focuses on
intrinsic instability of renewables, and a useful storage alternative. generators respond
optimising profitability and minimising
quickly when load variations occur and, when integrated in the management of a
running costs.
sales department and working on
smart grid, make it possible to plan running hours and to increase the efficiency of the whole system.
www.himoinsa.com
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Engie
36 | POWER INSIDER VOLUME 11 ISSUE 2
SUBScriBe noW
ME 10 VOLU
E4 10 ISSU VOLUME
E1
ISSU
SIA’S MALAY BLE A RENEW FUTURE
A’S ASI N GE O R Y HYD GHWA HI rket
ch Finte
ergy in En
a Ma Kore
w Revie
ll
e uel C ina F
Ch
nology CFB Tech ation Gas Gener
curity
Cyber Se
VOLUME 11 ISSUE 2
IT’S IN Barges & HANDS PowerOUR The Hydrogen Economy
Microgrids and Distributed Generation
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Limiting Climate Change
The imPorTAnce oF eXPLoring The hydroPoWer PoTenTiAL in indiA’S norTheAST JAYA THAKUR
ABSTRACT The Northeastern states of India have massive potential for harnessing hydroelectricity. While the government has rightly recognised this capacity as crucial to boosting the growth of the region, the pace of development has remained slow, and marred by many problems. This brief builds on the “43rd Report on Hydro Power” presented in Parliament in January 2019 by the Standing Committee on Energy, to assess the prospects of the hydropower sector in the Northeast. The brief outlines the challenges faced by the sector and offers suggestions to address them. Attribution: Jaya Thakur, “Exploring the Hydropower Potential of India’s Northeast,” ORF Issue Brief No. 341, March 2020, Observer Research Foundation. Observer Research Foundation (ORF) is a public policy think tank that aims to influence the formulation of policies for building a strong and prosperous India. ORF pursues these goals by providing informed analyses and in-depth research, and organising events that serve as platforms for stimulating and productive discussions.
Introduction
hydropower potential of the country.
India3. In 2001, the Central electricity
Since the 1990s, the government
Authority (CeA) conducted a
India’s Northeastern states, with
of India (goI) has shown interest in
preliminary study of the hydroelectric
their mountainous topography and
exploring this potential as an energy
potential of various river basins in
perennial streams, have the largest
source that is cleaner and more
India, ranking the Brahmaputra basin
hydropower potential in all of India.
sustainable than traditional ones.
the highest. In 2003, the Ministry of
Together, Sikkim, Arunachal Pradesh,
Following the Northeast Business
Power launched a hydro initiative of
Assam, Meghalaya, Manipur, Mizoram,
Summit in Mumbai in July 2002,
50,000 MW, with a major focus on
Nagaland and Tripura account for
the Northeast has fre quent ly been
the Northeast. In January 2007, the
almost 40 percent of the total
calle d the “Future Powerhouse” of
“Pasighat Proclamation on Power” was
1
38 | POWER INSIDER VOLUME 11 ISSUE 2
2
adopted at the Northeast Council’s
focus on exploiting the full potential
banks, financial institutions or bonds.
Sectoral Summit on the Power Sector,
of hydropower in the previously
The SCe’s report claims that for
identifying the region’s “hydropower
underexplored regions of India, 9
projects developed by Public Sector
potential” as a priority area with regard
specifically the Northeast.
Undertakings / Central Public Sector
to India’s energy security .
Undertakings (PSUs/ CPSUs), the
4
In the context of the recommendations
availability of domestic loan is not an
In 2001–02, Sikkim became the
made in the report, this brief
issue.11 “However, lenders carry out
first state in the region to kickstart
examines their feasibility, viability and
their own exercise of due diligence
the hydroelectricity boom, followed
sustainability for India’s Northeastern
before deciding to finance any project.
by Arunachal Pradesh. Both states
states. It first discusses the challenges
In some cases, after releasing part
signed a number of Memoranda of
that have caused time overrun and
of the loan, the lenders may stop
Understanding/Agreement (MoU/MoA)
the palpably slow development of the
disbursing further loan due to reasons
with power developers. Meghalaya,
hydropower projects, then assesses the
such as inability of promoters to
Manipur, Mizoram and Nagaland
SCe’s report and its suggestions in light
deploy requisite equity, unsatisfactory
soon followed. The government of
of these. Finally, the brief highlights
physical progress of the project, time &
Arunachal Pradesh had already allotted
some gaps in the report and makes
cost overruns etc.”12
132 projects to companies in the
recommendations to address them. This can turn into a vicious cycle,
private and public sector, of which 120 involved private players. Together, these projects accounted for a total installed
Hydroelectricity Projects in the Northeast
capacity of 40,140.5 MW . At the time
especially when the project is affected and delayed by the other factors. Previous studies have found that, “In
5
of signing the deals, project developers
Time Overrun Causes Listed in the
a large numbers of instances over the
also offered substantial monetary
SCE’s Report
Hindu Kush Himalayan stretch, the
advances to the states6. Despite such
viability of these projects has been in
progress, however, the development
There are various reasons behind
question and private players are exiting
of hydroelectric power has been slow.
the time overrun of the hydropower
the business due to their inability
At present, India has a total potential
projects in the Northeastern states of
to break even within their planned
of 145,320 MW hydropower, excluding
India (See Figure 1). The SCe’s report
period.”13 Recommendation No. 6 of
takes cognisance of some of these and
the SCe report urges approaching
offers suggestions to combat them.
bankers for longterm loans (tenure
pumped storage scheme, but only 45,399.22 MW of this has been utilised . 7
In 2019, there were only 18 projects
> 20 years), grants or assistance at
above the capacity of 25 MW under
Fund Constraints
construction across Northeast. Of these,
According to the SCe’s 2019 report,
from international agencies, along with
10 are suffering from time overrun due
the average cost for new power
power finance corporations and rural
to various challenges . On 4 January
plants is around INR 8 crore/MW for
electrification corporations. However,
2019, the Standing Committee on
coal-based ones and INR 10 crore/
this strategy might not work as well
energy (SCe) presented the “43rd
MW for hydroelectric ones. Thus,
as projected, since the domestic
Report on Hydropower” in the Lok
from an initial-cost perspective,
organisations lending money might
Sabha, which discusses the potential
hydropower projects are less lucrative
not be in a position to recover their
and significance of hydropower in India,
for developers. A typical hydro station
investments, and foreign institutions
as well as the challenges faced by the
is financed based on the debt–equity
might not be interested to invest in
sector which have resulted in the slow
ratio of 70:30. ‘The 30 percent equity
further projects. The report claims that
pace of development. Based on the
is managed by developers, either from
investors would be more interested
report, in March 2019, India declared
their own resources or from public–
if the clearance process is sped up;
large hydropower projects (installed
private placements. The remaining 70
however, this can create several
capacity more than 25 MW) as sources
percent can be obtained from various
problems elsewhere.
of “renewable energy,” with special
sources such as scheduled commercial
8
cheaper rates for hydropower projects 10
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FEATURE: INDIA’S HYDROPOWER POTENTIAL
Table 1: Reasons for Time Overrun of Hydroelectricity Projects States
Project (IC) Executing Agency
Reasons for Time Overrun CENTRAL SECTOR
Arunachal Pradesh
Pare (2x55 = 110 MW) NEEPCO
Central
Kameng (4x150 = 600 MW) NEEPCO
Arunachal Pradesh/ Assam
Subansiri (8x250 = 2000 MW) NHPC
Law-and-order problem Poor geology Poor approach roads Flash flood during June and September 2015; dam area inundated with water Concreting of dam affected for four months Funds constraints with contractor Change in dam parameters Slow progress in dam and HRT due to bad geology, heavy Seepage and inadequate machinery Flash flood in October 2008 and September 2012 Ingress of water in HRT Poor approach roads Contractual issues Shortage of aggregate Clearance for quarry from state government Slow progress of works Funds constraints with contractor Delay in transfer of forest land Disruption of works by locals in Arunachal Pradesh Slope failure in powerhouse in January 2008 Damage to bridge on Ranganadi River Change in design of surge shafts to surge tunnels Stoppage of works due to agitation launched by the anti-dam activists in Assam against construction of projects Work stopped since 16 December 2011; issue of D/S impact studies Case in NGT
PRIVATE SECTOR Teesta Stage VI (4x125 = 500 MW) Lanco Energy Pvt. Ltd.
Sikkim
Rangit-IV HE Project (3X40 = 120 MW) JPCL Bhasmey (2x25.5 = 51 MW) Gati Infrastructure Rongnichu Land (2x48 = 96 MW) Madhya Bharat Pvt. Ltd.
Arunachal Pradesh
Sikkim
Gongri (2x72 = 144 MW) Dirang Energy (P)Ltd Rangit (II 2x33 = 66 MW) Sikkim Hydro Power Ltd. Panan (4x75 = 300 MW) Himagiri Hydro Energy Pvt. Ltd.
Poor geology Land acquisition Contractual issues Funds constraints with developer Slow progress of HRT and Surge Shaft works due to poor geology Works hampered due to earthquake in September 2011 Financial constraints with developer Forest clearance Financial constraints with developer Land acquisition Poor geology Works awarded on 22 November 2011; however, consent to establish from State Pollution Control Board issued on 19 May 2014 Financial constraints with the developer Slow progress of works Financial constraints with the developer Clearance from NWLB received in December 2015 Pvt. Ltd. Clearance from NGT
Source: Created by the author, with data from the 43rd Report on Hydropower, 2019.14 40 | POWER INSIDER VOLUME 11 ISSUE 2
EXPLORING THE HYDROPOWER POTENTIAL IN INDIA’S NORTHEAST
Lack of Clearance
Department.17 Moreover, the eIAs
2001, structural engineering experts
The SCe’s report states that delays in
often grossly neglect the ecosystem
Sitharam and govindarajau, speaking
environmental and forest clearances
services provided by the rivers and
of the importance of seismic resistance
have been cited as one of the major
rarely highlight the need to maintain
in their 2004 paper, noted that “there
reasons for apprehensions and entry
ecosystem flows in the constrained
is an imperative need to assess the
barriers. At present, three types
rivers. Recommendation No. 4 of the
design and construction practices” of
of clearances are mandatory from
SCe report proposes the establishment
dams in India.20
three different wings of Ministry of
of a special cell to address the
environment and Forest (MoeF), i.e.
hydropower projects.18 While this is
geological issues, such as slope
environmental clearance from the
a definite step in the right direction,
failure, are the second-largest
expert Appraisal Committee (eAC),
the authorities should not attempt to
cause of delay for ongoing projects
forest clearance from the Forest
fast-track the clearance process at the
(See Table 1). The SCe’s report calls
Advisory Committee (FAC), and wildlife
cost of national ecological resources.
such issues “geological surprises.”21
clearance from the National Board of
Recommendation No. 5 of the report
However, geological problems like
Wildlife (NBWL). Developers as well
suggests conducting basin-based
these are anything but a surprise in
as the Ministry of Power describe this
studies before planning a project. If
this region. After all, the Himalayas
process as cumbersome and time-
properly implemented, this can help
are a growing ‘folded mountain’ in
consuming. However, five of the 10
make eIAs more holistic by identifying
an active tectonic zone, where slope
projects that were previously delayed,
the ecological costs of a project, which
failure is a frequently occurring event,
had already started construction
will allow for informed decisions during
especially when the fragile rock strata
with partial clearance. This resulted
clearance processes. However, the
are disturbed by construction. There
in increased delay and costs, as the
framework of this basin-based study
are several folds and fault zones in the
construction then had to be stalled
requires further elaboration.
Himalayas as well as the Northeastern hills, with discontinuities in the
while the developers waited for the remaining clearances.
15
Geological Issues
rock masses. Developers have faced
India’s Northeast is one of the six
“geological surprises” since the start of
An important aspect of clearances
most seismically active regions in
hydroelectric development in the region.
is the issue of environment Impact
the world. From 1953 to 1992, the
Assessment (eIA). The eIA conducted
region experienced 21 earthquakes of
A paper published in 199322 details
for several Northeastern hydropower
more than 6.5 on the Richter Scale.19
the issues that stall projects in the
projects has been found lacking. Dr.
The proposal for large constructions
eastern part of the country, such as the
Anwaruddin Choudhury, renowned
in the region should consider such
existence of soft rocks behind faults,
naturalist from Northeast India,
susceptibility to seismic activity. The
the highly weathered and decomposed
examined the eIA reports of a few
project reports lack sufficient details
rocks under hard gneissic rocks, and
hydro projects and found them poor
and transparency in this aspect.
the existence of buried channels. The
on some ecosystem aspects.16 For
While the seismic aspects of the
analysis used certain projects as case
the Tipaimukh project (a proposed
construction area are evaluated by
studies—Umiam and Umling Dam
178-metre high dam on the Barak)
experts, and dams designed based
in Meghalaya, Manu Dam in Tripura,
the then Principal Chief Conservator
on the seismic criteria for “maximum
Kopili Dam in Assam, and Teesta-III
of Forest S. Singsit noted that the
credible earthquake” and “design
in Sikkim—to examine how the issue
preparation of the 2007 “Detailed
basic earthquake,” the lack of proper
of these “geological surprises” have
Project Report” did not even involve
historical cataloguing of earthquakes,
been handled before.23 Since these
the Forest Department. This is a
poor knowledge of ground motion
geological issues often cause leakage
critical oversight, since the reservoir
post-earthquake, and the variation
and seepage, they had to be addressed
created behind the dam will lead to the
of spectral acceleration can lead to
before the construction of the dams,
submergence of 219.5 sq. km of land
incorrect assessments. Following
which sometimes required changing
that comes directly under the Forest
the Bhuj earthquake in January
the dam design. This caused significant
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FEATURE: INDIA’S HYDROPOWER POTENTIAL
delays in the construction process. As
and resettlement plans are formulated
by the Siang project in Arunachal
any project in these area has a high
and implemented by the state
Pradesh have alleged that “their right
probability of facing such geological
governments. Therefore, the proactive
to free, prior and informed consent (as
issues, prior arrangement of funds for
support and cooperation of the state
enshrined by the UN Declaration on
mitigation and their inclusion in detailed
and local authorities is necessary
the Rights of Indigenous Peoples) is not
project reports can avoid future stalling
for their effective implementation.
only being ignored, but deliberately
of construction due to lack of funds.
The non-availability of land records
avoided.”31 Such incidents have made
has been another major hurdle in
the locals increasingly sceptical of
Land-Acquisition Issues
landacquisition. Rehabilitation and
hydropower projects, exacerbating
The SCE’s 2019 report suggests a
resettlement issues become further
distrust and resistance and further
“regional government structure”
complicated due to the issue of multiple
delaying the projects.
to facilitate the land acquisition,
claimants.28 The identification of
resettlement and rehabilitation
villages and individual households that
The SCE’s report rightly notes that the
processes. However, India has a long
are likely to be affected by a project
local district administration has a major
history of improper identification of
must be the foremost consideration.
role to play in R&R and expects that
stakeholders (and the extent of their
In this context, many EIAs have been
“the District Administration, wherever,
involvement) in large dam projects,
found lacking. For example, different
the hydro power projects/potential
even when local government is
versions of the EIA for Tipaimukh
lies, will actively participate and do the
involved. Involuntary displacements
Project on Barrak mention different
needful to expedite the matter of land
and inadequate resettlement and
numbers of affected individuals
acquisition and R&R process related to
rehabilitation of the people affected
and villages. Such lapses fuel local
hydro power projects to provide fair
by large Multipurpose River Valley
agitations and anti-dam movements,
deal for the affected people as well as
Projects (MRVP) are some of the
which sometimes escalate into court
to fast track the hydro power projects.
biggest reasons behind anti-dam
cases, further delaying the projects.
The Committee also recommend that
movements in India, which hinder the
According to local protestors, the
the Central Government, the State
land-acquisition process.
public hearings conducted are often
Government(s) and the Developer
29
24
designed to ensure that the affected
of the Projects should coordinate
The “Rights and Risk” framework of
stakeholders cannot be present to
and cooperate with the District
WCD Report of 2000 prioritises
make their case. For example, in the
Administration in this regard.”32
five core values— equity, sustainability,
public hearing for Tipaimukh dam
However, in its recommendations,
efficiency, participatory decision
in Churachandrapur (Manipur) on
the report fails to include a clear
making, and accountability—with
November 2006, only those officially
methodology of making the land
able to prove their displacement were
transfer and rehabilitation process
dialogue at all stages of development.
allowed to participate. Those from
more transparent.
The GoI has passed several policies
displaced villages who did not have
and acts to ensure transparent and
any official documents were denied
fair compensation and rehabilitation
entry. Moreover, even the ones were
for those displaced due to the
allowed inside had to deal with the
There are a number of other issues
development of any hydropower
delay tactics, i.e. being made to wait for
that have hampered the economic
project, e.g. The National Rehabilitation
the hearing for long hours, compelling
profitability and sustainability of these
and Resettlement Policy (2007), and
many to return to their villages. The
hydropower projects but which were
the Right to Fair Compensation and
documents that listed the details of
not mentioned in the 2019 report.
Transparency in Land Acquisition and
the dam were not translated into
While these issues are pervasive in
Rehabilitation and Resettlement Act
local dialects, and according to some
the Northeastern states, they are not
(2013). However, a huge gap remains
affected villagers, the authorities were
exclusive to the region. Due to this
between the onpaper provisions and
patently biased in their judgements.
oversight, the SCE’s report falls short of
the on-ground reality. Rehabilitation
The Adi and Galo tribes affected
25
importance given to stakeholder 26
27
42 | POWER INSIDER VOLUME 11 ISSUE 2
Issues Not Listed in the SCE’s Report
30
being comprehensive.
EXPLORING THE HYDROPOWER POTENTIAL IN INDIA’S NORTHEAST
Sediment Management
India and Bangladesh. The projects
human technology over nature, of
The Brahmaputra and Meghna systems
developed by India (the upstream
harnessing the untameable. After
(the main river systems in the Northeast
country) creates panic concerning
Independence, India gave the green
region), together with the ganga system,
water scarcity and ecological distress
light to a number of multipurpose
are the largest carriers of sediment in
in the lower riparian Bangladesh,
river-valley projects in the first two
the world. Consequently, sediment
e.g. the hydroelectric projects on
Five-year Plans. Such reservoirs
segregation is required before the water
Teesta, some rivers in Tripura, or the
played a crucial role in making India
can be used to produce electricity,
proposed Tipaimukh dam. India and
self-sufficient in food production by
even for run-of-the-river projects.
Bangladesh have established a “Joint
supplying irrigation water. According to
The production of sediment in any
River Commission” to address the
a 2000 report by WCD, approximately
river system significantly impacts any
common issues regarding water and
35 percent of the water needed for
engineering obstruction created on the
river management. However, the major
irrigation in India is provided by large
river. Sediment accumulation in the
motivation is the quantitative sharing of
storage reservoirs or dams.35 However,
reservoirs of large hydroelectric projects
available water volume.
while dams have been hailed as the
33
“New Temples of Modern India” (a
can diminish their life expectancy. Unless properly managed, sediment load also
India has proposed several large
term coined by Jawahar Lal Nehru,
reduces the cost- and carbon-efficiency
projects in the Northeast, which
India’s first Prime Minister36), they
of hydropower projects over time. Thus,
will occupy transboundary rivers
have some far-reaching adverse
construction of dams on the Northeastern
between India and Bangladesh. These
consequences that have remained
rivers must be preceded by the creation
constructions can affect the ecology
understudied and underestimated.37
of a proper database of the sediment load
and economy of the downstream part
Dams are large structures that obstruct
of those rivers. Further, when the project
of those rivers, i.e. Bangladesh. Without
the flow of river water to create a
is planned, a management process must
proper assessment and negotiation,
reservoir. However, rivers are complex
be put in place.
these projects can create hydro-
ecosystems created by the interaction
diplomatic problems for South Asia
of water, energy, biodiversity and
Transboundary River Management
in future. The cross-border corelation
sediment (WeBS).38 River ecosystems
A large number of the rivers that
based on energy trade between
have supported the development
are utilised for hydropower flow
some neighbours can result in further
of human society and economy for
through more than one country. The
discords. In this context, basin-based
centuries. For communities that live
basin-based study mentioned in
authorities under the JRC can handle
on banks and floodplains, especially
Recommendation No. 5 of the SCe’s
bilateral issues regarding India and
tribal and indigenous ones, rivers form
report must include this issue of
Bangladesh. While doing so, the JRC
an integral part of cultural history and
hydropower projects being developed
must take a holistic approach, instead
intangible heritage. The building of
in transboundary river basins. For
of considering rivers as mere ‘water
large dams disturbs this natural and
example, the ganga–Brahmaputra–
channels’.
social equilibrium.
The Risks of Hydroelectricity Projects in the Northeast
A case in point is that of the Himalayan
Meghna Basin is shared between India, China, Nepal, Bhutan and Bangladesh, with Bangladesh being the lower riparian to India. The Indus basin
region, where the issue of large dams has become a critical one due to the region being a young folded mountain
includes India, China and Pakistan, with Pakistan being lower riparian to India.
The building of dams in India has
and one of the most seismically active
Many of these rivers do not have any
largely been a colonial legacy, with
regions of the world.39 A number
basin-based authority in place.
the technology of flood control,
of large and active faults and thrust
irrigation and power generation
zones exist in and near the basin.
In the case of Northeastern states, the
having come first from europe, then
As mentioned earlier, the region
majority of the projects are being built
North America. Large dams were
experienced 21 earthquakes of more
on basins that are shared between
considered a symbol of triumph of
than 6.5 on the Richter scale during
34
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 43
FEATURE: INDIA’S HyDROPOWeR POTeNTIAL
the period of 1953 to 1992.40 Before
The Way Ahead
the construction of the Tehri Dam,
Despite their significance, the viability of hydropower projects has come under
the environmental impacts of large
In light of the worsening climate crisis
scrutiny in Northeast India. Private
dams had not received significant
that especially threatens developing
players seem uninterested in investing
attention. When the historical anti-
countries like India, the country should
in the business due to difficulties they
Tehri campaign by the “Tehri Bandh
move away from fossil fuels and towards
face in reaping economic returns
Birodhi Sangharsh Samiti” demanded
eco-friendly sources of energy. However,
within the expected timeframe.42 To
a wider review of economic and safety
it cannot roll out large hydroelectricity
ensure project viability, all possible
aspects of the dam, such issues were
projects without first conducting
hidden costs—including those of losing
brought to mainstream consciousness.
proper impact assessment. In addition
ecosystem services—must be factored
That campaign remains one of the
to traditional eIAs, detailed studies
into the projected cost of a plant before
most important contributions to the
should be carried out regarding possible
national resources are allotted. The
methodology of the environmental
geological issues that might arise during
time overrun of the current hydropower
Impact Assessment of large dams in
the project . Further, rehabilitation
projects in the Northeast is an
Himalayas.
and resettlement processes should
important reminder of the importance
be transparent, and the people most
of ecological and human issues, which
While building large dams to harness
likely to be affected should be involved
must not be neglected in favour of
hydroelectric power has certain
from the start to avoid future feuds. The
quick benefits.
benefits, the current paradigm, which
43rd Report on Hydropower urges the
neglects environmental issues, can
government to fast-track the clearance
About the Author
have disastrous consequences and is
processes. However, while doing so, the
Jaya Thakur is a Junior Fellow at ORF,
fast becoming outdated.
goI must be mindful of the possible,
Kolkata.
41
often irreversible, damages that can be caused to the ecosystem.
Endnotes 1.
Power Potential of North East by
third Report on Hydro Power (2018–
March 2018, accessed 19 November
NEEPCO, https://neepco.co.in/
19),” presented to Lok Sabha and laid
2019, http://thethirdpole.net/
projects/power-potential.
in Rajya Sabha on 4 January 2019,
en/2018/03/ 29/hydropower-in-the-
2. “‘North-East Business Summit’” in
accessed 19 November 2019, http://
himalayas-the-economics-that-are-
Mumbai from 19 July,” The Hindu
www.indiaenvironmentportal.org.in/
often-ignored/.
Business Line, 11 July 2002, accessed
files/file/Hydro-power.pdf.
14. Standing Committee on Energy, op. cit.
15 November 2019, https://
8. Standing Committee on Energy, op. cit.
15. Standing Committee on Energy, op. cit
www.thehindubusinessline.com/
9. N. Khandekar, “Only Hydro Projects
16. N. Vagholikar and P.J. Das, op. cit..
todays-paper/tpothers/tp-states/
Can Feed India’s 24×7 Power Needs,”
article28991916.ece
Indiaspend.com, 27 October 2019,
without power, but we can’t live without
accessed 19 November 2019, https://
our land’: Indigenous Hmar Oppose
the Northeast (Pune/Guwahati/New
www.indiaspend.com/only-hydro-
the Tipaimukh Dam in Manipur,”
Delhi: Kalpavriksh, Aaranyak and
projectscan-feed-indias-24x7-power-
Sociological Bulletin 61, no. 1 (2012):
Action Aid India, 1 November 2010).
needs/.
109–128.
3. N. Vagholikar and P.J. Das, Damming
17. V. Arora and N. Kipgen, “We can live
4. Ibid.
10. Ibid.
18. Standing Committee on Energy, op. cit.
5. Arunachal Pradesh State Government
11. Ibid.
19. V. Arora and N. Kipgen, op. cit..
and Ministry of Environment and
12. Ibid.
20. T. G. Sitharam and L. Govindaraju
Forests data, 2010.
13. N. Ghosh, “Hydropower in the
“Geotechnical aspects and ground
6. N. Vagholikar and P.J. Das, op. cit.
Himalayas: the economics that are
response studies in Bhuj earthquake,
7. Standing Committee on Energy, “Forty-
often ignored,” The Third Pole, 29
India”,Geotechnical and Geological
44 | POWER INSIDER VOLUME 11 ISSUE 2
EXPLORING THE HYDROPOWER POTENTIAL IN INDIA’S NORTHEAST
Engineering 22: (2004) 439–455,.
30. S. Akoijam, “Public hearings on
“PSUs: Modern industrial temples of
21. Standing Committee on Energy, op. cit.
Tipaimukh project a farce,” Down
India,” DNA India, 8 October 2009,
22. S. Gangopadhyay, “Geotechnical
to Earth, 4 July 2015, accessed
accessed 19 March 2019, https://www.
Problems of Dam Sites and Their,”
15 November 2019,https://www.
dnaindia.com/special-features/report-
International Conference on Case
downtoearth.org.in/news/public-
psus-modern-industrial-temples-of-
Histories in Geotechnical Engineering
hearings-on-tipaimukhproject-
india-1296571
16 (1993): 493-498. 23. Ibid. 24. J. Bandyopadhyay, B. Mallik, M.
a-farce-8872. 31. C.K. Duarah, Activists Continue
37. Standing Committee on Energy, op. cit. 38. J. Bandyopadhyay, “Why we need a
to Protest Dam Being Built on
new perspective on rivers,” The Third
Mandal and S. Perveen, “Dams and
Brahmaputra , The Wire, 2017,
Pole, 25 July 2018, accessed 19 March
Development: Report on a Policy
accessed 15 November 2019,
2019, https://www.thethirdpole.net/
Dialogue,” Economic and Political
https://thewire.in/environment/
en/2018/07/25/why-we-need-a-
Weekly 37, no. 40 (2002): 4108–4112.
activists-continue-protest-dambuilt-
newperspective-on-rivers/,
25. World Commission on Dams, Dams
brahmaputra.
39. K. Khattri, “Great earthquakes,
and Development: A New Framework
32. Standing Committee on Energy, op. cit.
seismicity gaps and potential
for Decision-Making (London:
33. J.N. Holeman, “The Sediment Yield
for earthquake disaster along
Earthscan, 2002). 26. Ibid. K. Conca, “The World Commission On Dams And Trends In Global Environmental Governance,” Politics and the Life Sciences 21, no. 1 (2002): 67–71.
of Major Rivers of the World,” Water
the Himalaya plate boundary,”
Resources Research, 4, no. 4 (1968):
Tectonophysics 138, no. 1 (1987):
737–747. 34. J. Bandyopadhyay, B. Mallik, M. Mandal and S. Perveen, op. cit. 35. Ibid. World Commission on Dams,
79–92. 40. V. Arora and N. Kipgen, op. cit. 41. J. Bandyopadhyay, “Sustainability of Big Dams in Himalayas,” Economic
27. Standing Committee on Energy, op. cit.
Dams and Development: A New
and Political Weekly 30, no. 38 (1995):
28. Ibid.
Framework for Decision-Making
2367–2370.
29. F. AFCL, “Introduction,” in
(London: Earthscan, 2000).
Comprehensive Environmental
36. Special Correspondence, “When the
Studies on Tipaimukh Hydro-electric
Big Dams Came up,” The Hindu, 20
(multipurpose) Project: Environmental
March 2015, accessed 19 March 2019,
Impact Assessment, Vol. 1 (Shillong:
https://www.thehindu.com/todays-
NEEPCO, 2007). V. Arora and N.
paper/tp-national/when-the-big-
Kipgen, op. cit.
dams-cameup/ article7013509.ece.
42. N. Ghosh, op. cit. 43. ORF
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 45
LimiTing cLimATe chAnge By SWiTching To hydroPoWer Human activities currently consume close to 150,000 terawatthours of energy each year – 25 times more than in 1800. Today’s energy supplies are largely derived from fossil fuels, which have been proved to contribute significantly to climate change.
“It’s clear that they are great pollutants,” eddie Rich, CeO of International Hydropower Association, a non-profit organisation working to advance sustainable hydropower, has said.
“[We] are using up the world’s resources and they are contributing enormously to climate change – manmade climate change. We have to do something to move beyond this
The burning of fossil fuels to produce
It’s clear that fossil fuels are great pollutants … they are contributing enormously to climate change. We have to do something to move beyond this reliance on fossil fuels to renewable energies
energy has been proved to contribute
Eddie Rich, CEO, International Hydropower Association
reliance on fossil fuels to renewable energies.” As reserves of fossil fuels are being depleted, industries and governments are increasingly looking at other alternative sources of energy, particularly renewable energy.
greatly to climate change.
46 | POWER INSIDER VOLUME 11 ISSUE 2
The focus of renewable energy has
achieved despite hydropower accounting
where almost 100 per cent of electricity
been centred on solar and wind energy,
for less than 10 per cent of the energy
is generated from hydropower.
but what happens when the sun goes
mix in Malaysia, outside Sarawak.
The Malaysian state of Sarawak – home to more than 55 rivers with a combined length exceeding 3,300km (2,050 miles) on the island of Borneo – is playing to its strengths and sustainable competitive advantage by investing in hydropower to drive development. The goal is to supply Sarawak with full electrification by 2025.
Focus on affordable and clean power Hydropower is the largest source of renewable energy in the world, accounting for around 16 per cent of the planet’s electricity.
“There are opportunities around the world at the moment for more growth in
down and the wind speed drops?
There are opportunities around the world for growth in hydropower … [we must] draw on the lessons of the past, in terms of environmental, social and climate impact, to make sure that the impacts can be very positive
hydropower,” Rich says. “As I look to the future of hydropower, I hope that there’ll be a lot more of it – and it will be replacing much of the fossil fuel production and complementing other forms of renewable energy.” “I also hope that it will draw on the lessons of the past, in terms of environmental, social and climate impact, to make sure that the impacts can be very positive.” Sarawak has not only an abundance of waterways, but also benefits from all-year-round rainfall and tropical monsoons.” This plentiful supply of water has made Sarawak a key mover in Southeast Asia’s
Eddie Rich
Association of Southeast Asian Nations Sarawak joins other hydropower
The availability and accessibility of
power grid; it began exporting power to
successes around the world including
hydropower sources in the state mirrors
West Kalimantan across the Indonesian
Norway, Canada, Brazil and China.
countries such as Norway and Uruguay,
border in 2016.
At present, Sarawak’s three large hydropower dams have a combined installed capacity of 3,452MW of renewable energy, in line with the stateowned energy developer and power company Sarawak energy’s goal to help fulfil one of the UN’s 17 Sustainable Development goals (SDg) of affordable and clean energy. This has led to a 77 per cent reduction in carbon emissions from the state’s electricity system since 2009, when Sarawak started focusing strongly on hydropower. In turn, this cut has contributed to
Eddie Rich, CEO of International Hydropower Association, says the use
Malaysia’s 2015 UN Climate Change
of hydropower should be maximised to complement other renewable
Conference (COP21) target of a 45 per
energy sources. Photo: SCMP
cent reduction by 2030. This is to be
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FEATURE: LIMITINg CLIMATe CHANge
As I look to the future of hydropower, I hope that there’ll be a lot more of it – and it will be replacing much of fossil fuel production, and complementing other forms of renewable energy Eddie Rich
By working with neighbouring utilities
and other renewable energy to account
are likely to be within reach by then:
such as PLN in Indonesia and Sabah
for 4 per cent of the total mix by 2030.
affordable and clean energy (goal no
electricity Sdn Bhd in Sabah, Sarawak
7), which is closely linked to decent
energy plans to complete a Borneo grid
The diverse geographic make-up of
work and economic growth (goal no 8)
connecting the member states of Borneo
the state means Sarawak energy also
and climate action, via the reduction of
– Brunei, Sabah, and Kalimantan – with
uses microhydro and solar hybrid to
carbon emissions (goal no 13). With a
its hydro resources. In the longer-term,
power scattered and remote rural
good mix of different renewable energy
Sarawak can potentially export power to
communities. The power company
sources, Sarawak is creating a template
Southeast Asian states beyond Borneo,
is also exploring hydrogen’s potential
for states across Southeast Asia and
such as parts of the Philippines, Java, in
as an alternative fuel and energy. The
the wider region to move away from a
Indonesia, Singapore and West Malaysia.
UN’s 17 SDgs are interconnected so
dependence on coal and gas-generated
achieving all of them by 2030 may be
electricity while playing their part in
too challenging, but some core goals
achieving the 17 SDgs.
State combines different energy sources To further maximise hydropower, the ways in which it can complement other forms of renewable energy should be fully explored, Rich says. Hydropower currently accounts for 75 per cent of Sarawak’s total power generation mix. For energy security, the state balances its hydro strengths with thermal energy from indigenous gas and coal resources. Sarawak is also exploring large-scale solar power production that floats on existing lakes instead of
Hydropower currently accounts for 75 per cent of Sarawak’s total energy generation.
clearing land for solar farms. Sarawak
Photo: Sarawak energy
energy targets large-scale solar power
48 | POWER INSIDER VOLUME 11 ISSUE 2
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ATTrAcTing inVeSTmenT in hydro PoWer
Hydropower is a strategic industry in
Over 150 managers from hydropower
water resources while Kazakhstan
Central Asia, as industrial production
sector, state authorities, international
has coal and gas. Then Kyrgyzstan
is developing and digitalisation is
investors and leading manufacturers
accumulated water, and Uzbekistan
ongoing in the region.
of hydropower technologies and
and Kazakhstan watered their
equipment took part in the event.
fields during the growing season. In
How to attract investment in
winter, Tajikistan and Kazakhstan
Regional cooperation
compensated with electricity.
in the region? These issues were
The development of energy sector
With the collapse of the Soviet
discussed by the participants of the
is impossible without international
Union, each country began to resolve
international congress “Hydropower
cooperation. In Soviet times, there
energy issues on its own. The parallel
Central Asia and Caspian 2020� held
was a reliable and efficient single
operation of energy systems has not
in Bishkek, Kyrgyzstan on February
energy system in Central Asia.
become reliable enough, energy expert
19-20.
Kyrgyzstan and Tajikistan possess rich
Shamil Dikambaev said.
the hydropower sector, improve cooperation and develop green energy
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 51
FEATURE: HyDRO POWeR INVeSTMeNT
Industry challenges
It is necessary to create a common energy
in the industrial sector. Over the past
market in Central Asia. The work has
few years, electricity consumption has
begun on creating the Eurasian Economic
grown by more than a third, while the
electricity consumption in Kyrgyzstan
Union’s electricity market which will be
capacity of hydropower plants (HPP)
is increasing by 4% annually, but since
launched before January 1, 2025.
has been replenished by only 3.5%.
2010 no hydropower plants have been
For instance, there is a problem with
The most realistic way out is to
country’s hydropower potential is 142
tariffs in electricity trade between
increase trade in electricity supplies
billion kilowatt-hours, of which only
Kyrgyzstan and Kazakhstan. The
from neighbouring countries.
10% is used.
CASA-1000 project
Due to high wear and tear on
launched or built in the country. The
complexity will remain even if the unified energy system is restored, since electricity tariffs in Kazakhstan
equipment, annual maintenance
are much higher than in Kyrgyzstan.
CASA-1000 is a new electricity
costs are rising. The country has HPPs
The southern Kazakhstan bordering
transmission system to connect
from 63 to 92 years old, but thanks
with Kyrgyzstan experiences electricity
Kyrgyzstan, Tajikistan, Afghanistan
to the professionalism of employees,
shortages, said yernur Djienbayev,
and Pakistan.
they are still operating. Some hydroelectric units have served more
Head of the Samruk-energy JSC Project Office. Kazakhstan is
Kyrgyzstan and Tajikistan have
than a hundred years, since they were
interested in using Kyrgyzstan’s
abundant hydropower resources
transported from europe and installed
hydropower to regulate morning and
with water cascading from the
in Kyrgyzstan during the Second World
evening peaks in the region.
mountain ranges and filling the
War, representative of Kyrgyz energy
rivers every summer. Both countries
Holding Kubanychbek Astapaev said.
In Kazakhstan, more than 70% of
have a surplus of electricity during
electricity is generated at coal-fired
the summer. Nearby in South Asia,
Currently, with the support of ADB, one of
power plants, kursiv.kz reported.
Afghanistan and Pakistan suffer from
the largest projects is being implemented
For comparison, in the eU energy
chronic electricity shortages.
— the reconstruction of the Toktogul HPP, which will result in a 20% increase in
systems, the share of electricity generation at coal-fired power plants
CASA-1000 project would help make
its capacity. During the first phase, the
is 19%, in the US — 27%, in Russia —
the most efficient use of hydropower
electrical and mechanical equipment was
17%, and in Uzbekistan — 19%.
resources in Central Asian countries by
upgraded. The second phase includes
enabling them to transfer and sell their
replacing of two hydraulic units, resulting
Kazakhstan, which has dozens of
electricity surplus during the summer
in 60 megawatts power increase of each
power plants, is a large consumer of
months to the deficient countries,
unit. In the third phase, the remaining two
electricity due to increased demand
Afghanistan and Pakistan.
hydraulic units will be replaced by new ones.
52 | POWER INSIDER VOLUME 11 ISSUE 2
ATTRACTING INVESTMENT IN HYDRO POWER
The rehabilitation is to be accomplished
The Kambar-Ata HPP-2 was launched
in 2022. As a result, the HPP’s total
in 2010. The two projects are important
The development of renewable energy
capacity will increase by 240 MW.
and interconnected, because Kambar-
sources (RES) needs political will
Ata-2 cannot fully work without launching
based on mutual interests, said eBRD
Kambar-Ata-1. In 2008-2009, the Kyrgyz
representative erlan Ramazanov.
Kambar-Ata-1 HPP
government was in talks with Inter RAO Kyrgyzstan plans to begin construction
on the construction of Kambar-Ata-1,
Another important point is the term for
of the Kambar-Ata-1 HPP, head of the
but due to certain disagreements, the
concluding a contract for the purchase
National energy Holding Aitmamat
project was suspended. At the congress,
of energy from a producer. According to
Nazarov said.
the Inter RAO representative said that the
Kyrgyz law, electricity generated from
company had not denounced the project
ReS can be sold at an increased price
and was ready to return to it.
for ten years. This is not a sufficient
The feasibility study is ready, and negotiations are underway with several investors and international financial
period of time, Ramazanov believes. It
Renewable energy
institutions, he added. It is planned to
is 15 years in Kazakhstan, and 20 years in Uzbekistan.
hold negotiations with Uzbekistan and
eight HPP cascades, including 34 small
Kazakhstan, so that they also take part in
hydropower plants, can be built on the
Regulatory changes that improve
the construction. Earlier, Kyrgyzstan signed
Naryn River, the largest in Kyrgyzstan.
investment conditions will positively
a memorandum with Uzbekistan on joint
Their total capacity will be 6,450
affect investment growth and
HPP construction, and it is in force.
megawatts, and an average annual
the signing of contracts, which is
output — 25 billion kilowatt-hours.
especially important for Kyrgyzstan.
The National energy Holding intends
According to the State Committee
to give the project national status. The
According to the National energy
for energy, Industry and Subsoil Use
capacity of the Kambar-Ata-1 HPP will
Holding, the Upper Naryn HPPs cascade
of Kyrgyzstan, the potential of the
be 1,860 megawatts with an annual
project is of interest to many investors.
country’s small HPPs is 258 MW and
output of 6 billion kilowatthours.
earlier, the project of building small
of wind energy — 44 million kWh.
Kambar-Ata-1 will generate 1.5-fold
HPPs was widely promoted in the
Uzbekistan has enormous potential
more electricity than the country’s
country but it was delayed due to lack
for the development of solar and
largest Toktogul HPP.
of funding.
wind energy. In collaboration with the Masdar Clean energy Company, UAe, it
The Inter RAO Russian energy company
The only problem with small HPPs is
is planned to build wind power stations
is developing projects in all Central
their profitability. In 2014, a tariff was
with a total capacity of 500 MW based
Asian countries. The company is also
introduced for energy companies to
on the g2g principle. A memorandum
interested in the Kambar-Ata HPP
purchase electricity for 4.4 soms per
was also concluded with the eBRD on
project, Inter RAO’s representative
kilowatt hour, but energy companies
the implementation of PPP projects in
Dmitry Volkov said.
cannot afford such price.
wind energy.
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FEATURE: HyDRO POWeR INVeSTMeNT
Tariffs
Raising tariffs is an important issue, and
In Kazakhstan, the first ReS law was
political will and a balanced system
adopted in 2009, and the eBRD was
To build new HPPs, investments are
are needed, expert Ramazanov said.
the first international institution to fund
needed. However, potential investors,
It is necessary to take the first step
the first renewable energy project in
having learned about electricity tariffs
and determine a strategic line, having
the country. In Uzbekistan, a law on
in Kyrgyzstan, refuse to cooperate. The
developed a long-term strategy. This
ReS was adopted two years ago and
country has the lowest electricity tariffs
is what investors need, he concluded.
the first result was last year. The eBRD
in Central Asia. Investors will come
The National energy Holding proposed
is currently working with the Uzbek
when they see profit.
raising tariffs to breakeven. The State
government on wind generation.
Committee for Industry, energy and
emil Osmonbetov, Chairman of the
According to the National energy
Subsoil Use and the energy Holding are
Kyrgyz State Committee for energy,
Holding, Kyrgyzstan has the lowest
now drafting a proposal to increase the
Industry and Subsoil Use, believes that
average electricity tariff among the
tariff for thermal energy.
Kyrgyzstan can be called a country with
eeU countries. In Belarus, it is about
green energy, since more than 90% of
Green energy
electricity is generated from hydropower.
$0.17, and in Kyrgyzstan — an average
When considering energy projects,
To attract investment, there should be
of $0.07. In Kyrgyzstan, production of
financial institutions take into account
a base and tools within which financial
one kilowatt hour of electricity costs
environmental issues, and more
institutions could develop projects, bring
1.69 soms and most of the electricity is
attention is paid to clean energy and
them up for discussion and implement
sold at a social tariff of 0.77 soms. So,
renewable energy sources. In 2015, the
them, expert Ramazanov said.
companies involved in the generation
eBRD adopted the green economy
of electricity operate at a loss.
Transition (geT) approach, under
All countries in the region are competitors
which the Bank had to increase green
in the investment market, and they
financing to at least 40% of total annual
should provide attractive opportunities for
investments by 2020.
investors to come.
$0.7 per one kW, in Russia — $0.37, in Kazakhstan — $0.25, in Tajikistan —
54 | POWER INSIDER VOLUME 11 ISSUE 2
Karpowership
www.karpowership.com
power for asia
BUiLding A cASe For diSTriBUTed generATion in ASiA Rapid economic development, a
region, not helped by constrained
can rapidly bring power to provinces
continuous growth in population,
transmission and distribution facilities,
that are currently not connected
and increased domestic and foreign
is making it challenging to satisfy the
to the countries’ national grids due
investments across key industries
immediate electricity demand.
to isolation and remoteness. While
have all contributed to the remarkable
in Myanmar, distributed power
increase in Southeast Asia’s power
The observed inadequacy in the
generation systems can provide
consumption in recent years. The
current power infrastructure, delays
electricity to smaller load centers,
region’s power demand has risen by
in the construction of permanent
considering that the country’s overall
2.5 times in the past 20 years, and
power generation facilities, and the
electrification rate is only 26% and
by 2040, Southeast Asia’s electricity
heightened need to fulfill the region’s
the transmission line losses stands
requirements is likely to triple, for
immediate power requirements have
at 25%.Cars are Already Rushing
which an additional power generation
prompted Southeast Asian countries
Through the Racetracks Moreover,
capacity of approximately 400 gW is
to find solutions in distributed power
more than 60% of the land in
said to be required.
generation.
Thailand, Myanmar and Vietnam are greatly suitable for large-scale solar
In the interest of maintaining a healthy
Distributed Power generation in
farms, with substantial irradiance
economy and attracting further foreign
Southeast Asia According to global
levels between 1,200 kWh/m2/year
investment and activities, countries in
research and consulting firm Frost and
and 2,000 kWh/m2/year. Overall,
Southeast Asia have ramped up their
Sullivan, the overall installed capacity
Southeast Asia is touted to have an
spending in infrastructure, including
of the distributed power generation
annual global horizontal irradiance
in roads, railways, and residential and
market in Southeast Asia is in the area
ranging from 1,200 kWh/m2 to
commercial facilities. This, among
of 20,450 MW in 2015, which can
1,800 kWh/m2, making the region
other factors, has caused the region’s
scale up to 34,747 MW by 2020.
highly ideal for developing solar
power demand to exponentially expand.
power plants. Among the countries in Southeast Asia, the Philippines, Indonesia,
The key types of distributed power
And while Southeast Asian
Myanmar, Thailand and Vietnam
facilities installed in the region include
governments and allied stakeholders
are considered to be high-potential
biomass and waste-to-power, solar
are also funding the building of new
territories for distributed power
photovoltaic, and diesel/HFO/
or the refurbishment of existing
based on market potential and
gas temporary rental power plants.
power facilities to support long-term
available resources. For instance,
Hybrid power plants and micro-
electricity requirements, the current
in the Philippines and Indonesia,
grid systems are reportedly also
shortage in power supply within the
distributed power generation facilities
being developed. Distributed Power
56 | POWER INSIDER VOLUME 11 ISSUE 2
System in Southeast Asia (Photo
and the National Power Corporation
credit: Flickr) Biomass and waste-to-
in the Philippines, or the Perusahaan
power plants are ideal to supply the
Listrik Negara in Indonesia and the
captive power needs of small- and
Vietnam electricity Company, will
medium-scale industries. This type of
find numerous benefits in setting
distributed power system enjoys wide
up temporary rental power plants to
government support across Southeast
meet the immediate power demands
Asia, and benefits from abundant
of their countries. Temporary power
biomass resources, particularly
plants are also scalable, in that its
in Indonesia, the Philippines and
output can be tailored to the existing
Thailand. Solar PV facilities, on the
electricity demand of a community,
other hand, are gaining ground across
a city or a province. They can also be
the region, thanks to policy support
installed even in areas with limited
and incentives. Thailand is at the
power infrastructure, say where
forefront of the solar PV market in
substations are absent, because they
Southeast Asia, with an estimated
can be directly connected to the grid
capacity additions of approximately
having been equipped with the latest
one gW in 2015 alone. Temporary
protection systems and advanced
power plants running on diesel or
transformation and switching
HFO still dominate the rental power
equipment. When the permanent
segment in Southeast Asia, owing
power plants are completed, the
to significant cost-savings, rapid
rental power plants can be easily
installation, wide availability of fuel,
and completely demobilized, thus
and inherent flexibility of use.
leaving no power facility not used or that will require further maintenance
Temporary power plants running on
and servicing. As Southeast Asian
gas are also gaining popularity in the
economies continue to grow in the
region, in recognition of their cost and
coming years, the region’s demand
environmental benefits. By going for
for electricity will proportionally
the rental power option, one avoids
increase. While the region’s
the need for a significant upfront
governments are implementing
investment, and the long lead times
long-term programs to respond to
associated with the construction of
future power needs, power utilities
permanent power generation facilities.
in Southeast Asia, including Tenaga Nasional in Malaysia or the electricity
Industry studies conducted across
generating Authority of Thailand,
Southeast Asia reveal that a
can take advantage of the availability
permanent centralized power plant
of distributed power generation
may take around five to ten years to
systems, like temporary power
become fully operational due to the
plants. Distributed power facilities
obstacles created by environmental
can help overcome topographical
laws in the region and land acquisition
challenges in delivering power,
requirements, compounded by overall
circumvent power transmission and
construction delays. While waiting for
distribution limitations, and boost
the power plants to be constructed
the electrification rates of various
and activated, power companies in
countries in Southeast Asia.
Southeast Asia, the likes of Meralco
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 57
Are micro-gridS The AnSWer To energy PoVerTy? Natarajan Chandrasekaran is chairman of the Tata Group. Rajiv J. Shah is president of the Rockefeller Foundation. Imagine you are one of the 840
modern economy, according to the
We are now at a tipping point: Advances
million people around the world who
report tracking progress on SDg7. The
in science and technology have
live without access to electricity: Basic
business, social, and public sectors
produced next generation, decentralised
machinery is powered manually, you
must come together to do more.
energy solutions transformational
rush to finish work before sundown,
enough to quickly connect the
there are limited means for reading
When electricity enters a community,
unconnected and move people to
or studying at night, and you are
everything changes. Families can light
a new level of economic potential.
locked out of the modern information
their homes, charge their cell phones,
Today, advancements in energy
economy. yet imagine that suddenly,
and power appliances that save
management systems, smart meters,
your situation changes with the arrival
hours of household chores each day.
remote monitoring, and new energy
of microgrids.
Communities enjoy modern health
storage technologies make microgrids
care services and education, and
the best possible solution to connect
Renewable energy microgrids,
streetlights increase safety for women
hundreds of millions of people more
also referred to as mini-grids, are
and girls.
quickly and more sustainably. The World
decentralised electrification systems,
Bank recently released a flagship report
comprising local generation (solar,
Farmers increase their crop yields with
assessing that over half of the world’s
biomass, micro-hydro), battery
irrigation, protect their crop value with
unelectrified population would be more
storage, a small control room, and
cold storage, or increase their returns
cost effectively served via microgrids.
local distribution lines. These grids
through post harvest processing. Small
offer not only the potential of
businesses can grow and hire new
extending the existing grid is of
electricity, but also the power of
workers, connecting into increasingly
course another way to address energy
data and technology. This reversal
integrated supply chains and markets
poverty, although that expansion takes
of fortune is now possible for
at home and around the world. Indeed,
time and is often not cost effective,
hundreds of millions of people. In
electricity is the foundation on which
especially in rural areas where most
fact, it is one of the critical Sustainable
modern businesses run and thrive.
of the world’s unelectrified population
Development goals of the United
lives. A typical microgrid, on the other
Nations, SDg7: the global goal of
When such gains happen at scale, the
hand, can be up and running in as little
ensuring basic energy access for
economic benefits multiply and lift up
as two months. It can power a small
100% of the world’s population by
communities, regions, and countries.
village or an entire town, and serve
2030. yet as we look ahead to this
This is what ending energy poverty
a wide range of customers, including
new decade, at the current rate of
means—and why we believe ending
households, businesses, and public
progress, 650 million people will still
energy poverty is core to ending
institutions such as health care clinics
be left behind and locked out of the
poverty itself in the 21st century.
and schools.
58 | POWER INSIDER VOLUME 11 ISSUE 2
Today microgrids in rural areas across
standards in a manner that is
the standard for microgrids,
sub-Saharan Africa and Asia are
consistent with our shared global
significant cost reductions for capital
using control and data management
climate goals. There are other
and operating expenditures will help
systems as sophisticated as what
major players in this growing space.
deliver the cheapest microgrid power
utilities use in major cities, according to
Powergen, which one analyst calls
in the world. Continued innovation
a report by the Institute for Advanced
the market leader in Africa, has
will further drive cost reductions,
Sustainability Studies. It is even possible
rapidly scaled up from 60 microgrids
helping define a pathway for more
to pair microgrids with traditional grid
at the end of 2018 to 193 sites
affordable, low-carbon development
extension for faster, cheaper, and more
currently. PowerCorner, the mini-grid
strategies worldwide.
impactful electrification.
arm of French multinational engie, is operating nine microgrids with four
As we embark on a new decade, the
This is why TP Renewable Microgrid
more under construction, with the
need to end energy poverty—and
Ltd., an initiative of Tata Power
aim of continuing to expand in the
the impact it will have—can’t be
supported by the Rockefeller
coming years.
ignored. There is room for everyone
Foundation, has come up with
to have a role—investors, technology
a plan to provide clean, reliable,
To end energy poverty on a global
companies, data scientists, and those
affordable power to 10,000 villages
scale, the private and philanthropic
in the energy industry.
across India, directly impacting
sectors must work together to drive
the lives of 25 million people over
technology improvements so that
Through collaboration and partnership
the next decade. (This projection
systems get smarter, cheaper, and
across sectors, we can transform the
is based on research conducted by
quicker to deploy. Philanthropy can
lives of millions of people around the
the Rockefeller Foundation, Smart
reduce risk for businesses looking
world. Providing reliable, renewable
Power India, and the Institute for
to scale up social impact through
electricity to the communities that
Transformative Technologies.)
increased investment.
need it most is one of the best ways for
This partnership will unleash local
us to end poverty, protect our planet,
economic opportunities, driving
With highly efficient lithium-ion
and unleash economic opportunity in
energy consumption and living
battery technology close to becoming
our lifetimes.
FOLLOW US ON TWITTER: @PIMAGAZINEASIA WWW.PIMAGAZINE-ASIA.COM | 59
Ametek Land
60 | POWER INSIDER VOLUME 11 ISSUE 2
W W W. L A N D I N S T . C O M
|
W W W. A M E T E K . C O M
AUSTrALiA’S SUn cABLe ProJecT
Australia is the world’s third largest
The proposed Sun Cable project
vast renewable energy resources. They
fossil fuels exporter – a fact that
envisions a ten gigawatt capacity solar
promise to provide an alternative to the
generates intense debate as climate
farm (with about 22 gigawatt-hours of
export business of coal, iron ore and gas.
change intensifies. While the
battery storage) laid out across 15,000
economy is heavily reliant on coal
hectares near Tennant Creek, in the
As experts of east-Asian energy
and gas export revenues, these fuels
Northern Territory. Power generated
developments, we welcome Sun
create substantial greenhouse gas
will supply Darwin and be exported to
Cable. It could pioneer a renewable
emissions when burned overseas.
Singapore via a 3,800km cable slung
energy export industry for Australia,
across the seafloor.
creating new manufacturing industries
Australia doesn’t currently export
and construction jobs. Importantly, it
renewable energy. But an ambitious new
Sun Cable, and similar projects in the
could set our economy on a post-fossil
solar project is poised to change that.
pipeline, would tap into the country’s
fuel trajectory.
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FEATURE: AUSTRALIA’S SUN CABLe PROJeCT
Long-term cost benefits Sun Cable was announced last year
unit) of generating and transporting
farms to create renewable hydrogen,
renewable power offers further
transported to east Asia as liquid
advantage.
hydrogen. Similarly, the planned
by a group of Australian developers.
Asian Renewable energy Hub could
The project’s proponents say it would
The A$20 billion-plus proposal’s
have renewable hydrogen generated
provide one-fifth of Singapore’s
biggest financial hurdle was covering
in Western Australia’s Pilbara region
power supply by 2030, and replace
initial capital costs. In November last
at 15 gigawatts. This would also
a large share of fossil fuel-generated
year, billionaire Australian investors
be exported, and supplied to local
electricity used in Darwin.
Mike Cannon-Brookes and Andrew
industries.
“Twiggy” Forrest provided initial funding to the tune of up to A$50
These projects align with the Western
million. Cannon-Brookes said while
Australian government’s ambitious
Sun Cable seemed like a “completely
Renewable Hydrogen Strategy. It’s
batshit insane project”, it appeared
pushing to make clean hydrogen a
achievable from an engineering
driver for the state’s export future.
perspective. Sun Cable is expected to be completed in 2027. Submarine cables are laid using deepsea vessels specifically designed for
Bringing in business
the job. Alan Jamieson/Flickr. The proposal would also bring To export renewable energy overseas,
business to local high-technology
a high-voltage (HV) direct current
companies. Sun Cable has contracted
(DC) cable would link the Northern
with Sydney firm 5B, to use its “solar
Projects such as Sun Cable could
Territory to Singapore. Around the
array” prefabrication technology to
reduce Australia’s reliance on coal
world, some HVDC cables already
accelerate the building of its solar
exports. AAP
carry power across long distances.
farm. The firm will pre-assemble solar
One ultra-high-voltage direct
panels and deliver them to the site in
current cable connects central China
containers, ready for quick assembly.
Reliable solutions generating and transmitting power
to eastern seaboard cities such as Shanghai. Shorter HVDC grid
The Northern Territory government
from renewable resources avoids the
interconnectors operate in europe.
has also shown support, granting Sun
energy security risks plaguing fossil
Cable “major project” status. This
fuel projects. Renewable projects use
The fact that long distance HVDC
helps clear potential investment and
manufactured devices such as solar
cable transmission has already proven
approval barriers.
cells, wind turbines and batteries. These all generate energy security (a nation’s
feasible is a point working in Sun Cable’s favour.
Across Australia, similar renewable
access to a sufficient, affordable and
energy export plans are emerging.
consistent energy supply)..
The cost of generating solar power is
The Murchison Renewable Hydrogen
also falling dramatically. And the low
Project in Western Australia will use
marginal cost (cost of producing one
energy produced by solar and wind
62 | POWER INSIDER VOLUME 11 ISSUE 2
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cyBer SecUriTy iS criTicAL For ASiA’S SmArT ciTieS Civic leaders around the world are
as well as the convenience of remote
for not only devices to connect to OT
looking to automate the infrastructures
operations, hinge on the convergence
networks, but also cybercriminals.
that make their cities run in a drive
of IT and OT (operational technology)
to reduce costs and cope with rising
for maximum connectivity.
What might be attacked?
utilities, through to refuse collection and
However, IoT devices often run
Public services can be made more
streetlighting, making services “smart”
on operating systems that have
time- and cost-efficient through
by connecting devices to the Internet
vulnerabilities that are challenging
automation and connectivity. However,
is appealing to those managing cities
to patch, or simply no longer
with each service that is brought online,
and large towns. In fact, UBS predicts
supported. For instance, IPnet is
smart cities are exposing themselves
that Asia’s smart city market could
still an integral part o ng systems
and their citizens to the risk of large-
reach US$800b in 2025. The UN
of smart devices used in connected
scale threats.
projects that 66% of the population
cities, despite being unsupported
in Southeast Asia will be living in
since 2006. Combined with the
Take street lighting for example. By
urban areas by 2050, and many of its
reality that there are likely to be
2026, Asia Pacific is set to be home
cities are looking to smart solutions to
hundreds of thousands of these
to a third of all smart streetlight
address their challenges. However, in
devices connecting to an OT network,
installations worldwide, the bulk of
their rush to automate their cities, civic
that presents a huge, exposed attack
which include central management
managers need to ensure that they
surface for attackers to exploit.
systems. In Jakarta, remote monitoring
populations. From transit networks and
and control of streetlights has allowed
also build in cybersecurity to protect Already, 88% of organisations in Asia
the city to save energy during off-peak
Pacific have experienced at least
hours, and to deploy repair crews
one IoT-related security breach, the
only when necessary. Street lighting
highest rate in the world. This is likely
is vital for towns and cities as it helps
The benefits of generating data-based
to be exacerbated by the rollout of 5g
enhance quality of life, improve public
insights from IoT-powered smart cities,
networks, which provides a better way
safety, and reduce traffic accidents.
them from threats.
The severity of the threat
64 | POWER INSIDER VOLUME 11 ISSUE 2
Conversely, a cyberattack knocking out
was leaked in a cyberattack, which
and mitigate any vulnerabilities on their
an entire street lighting system could
has been attributed to system
networks. As IoT and OT environments
endanger commuters.
vulnerabilities and weak passwords.
use unique communication protocols,
This should be of concern to smart
this requires specialised solutions that
There is also the reality that alongside
city managers, as it doesn’t take
can recognise them.
the potential to cause widespread
long once a threat actor is in an IT
chaos, cybercriminals are likely to want
network to move laterally into the
Once they know what is running on
to break into these systems to steal the
OT that a smart city runs on if there
the network, security professionals
data, including personally identifiable
is not proper segmentation between
also need to know how assets
information, on which they run.
the two. Local authorities must also
should be running, so that they can
ensure existing staff are trained to be
detect any anomalies. This requires
“cyber aware”, so that their actions
continuous automated monitoring
don’t compromise their networks’
that can present contextualised alerts
While IoT could transform how cities
security. They must also recruit or train
ranked by level of severity, providing
are managed, these advantages
a cybersecurity team that understands
security teams with all the information
can be wiped out by a single
the difference between managing and
they need to tackle potential risks in
cyberattack. As such, cybersecurity
protecting IT and OT networks.
priority order. Such solutions also help
Reducing risks
must be a priority when making any infrastructure “smart”.
reduce time wasted dealing with false The other piece of the puzzle is to
positives and low risk alerts.
invest in technology that provides However, public servants often lack
detailed oversight into everything on
When building physical infrastructures,
cybersecurity expertise. In 2018,
a city’s IT and OT networks. Knowing
a key consideration for civic managers
Singapore faced what authorities
granular details such as a device’s make,
and leaders has always been safety
dubbed its “most serious personal
model, OS and IP address through to
and security. The same now has to be
data breach” when the personal
risk level and update schedule, the IT
true when building OT infrastructures
information of 1.5 million patients
security team will be able to identify
in the age of IoT.
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66 | POWER INSIDER VOLUME 11 ISSUE 2
POWERWEEK AFRICA
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Oscar Amonoo – Neizer Executive Secretary Energy Commission, Ghana
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Haliru Dikko Commissioner ECOWAS Regional Electricity Regulatory Authority
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William Price CEO Enel Green Power, South Africa
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