engineering
shore power
Cavotec pioneered shore power back in the 1980s.
Shore power:
taking charge of climate change
Claire Instone reports…
C
limate change is one of the biggest challenges this generation faces. As such, there an on-going international effort to decarbonise the maritime sector. Ports across Europe and the world are increasingly seeing shore power as a highly effective way to reduce emissions from ships in port - a problem which intensified in the wake of the pandemic, with vessels that previously stayed in ports for a matter of hours or days, staying at the same berths continually.
Shore power is ending the outdated practice of ships keeping their engines running while anchored in port, thus reducing the poisonous fumes entering the air. Currently, berthed ships keep their idling diesel engines running at ports to power lighting, galleys and other crucial amenities needed for staff and others on board the ship. The exhausts from these diesel engines produce CO2 and other air pollutants as well as noise pollution and vibration. This is harmful to the health of the ship’s crew, as well as people living and working near and around the area of the ship terminal. With shore power, vessels are able to turn off their engines and plug into onshore power (OPS) sources when berthed.
At present, there is a lot of activity across Europe in terms of installing and introducing onshore power sources thanks to a European Union directive encouraging ports to adopt shore-to-ship electrification systems to reduce emissions from vessels when in port. By 2025, this recommendation will become binding for all European ports. Moreover, the Fit for 55 regulation package - recently published by the European Commission (EC) - contains legislative proposals to make the EU’s climate, energy, land use, transport and taxation policies fit for reaching the European Green Deal’s objective of reducing net greenhouse gas emissions by at least 55% by 2030. According to cleantech company Cavotec, which pioneered shore power back in the 1980s, there is a big task ahead to get the maritime industry where it needs to be. “In Europe alone, more than 2,500 ports will have to drastically reduce emissions by offering shore power to visiting ships in the next 5 - 10 years,” says Mikael Norin, CEO of Cavotec. The company is set to invest 20 million euro in technology, engineering and business development over the next five years to strengthen its position and to meet the expected demand.
36 World Port Development January/February 2022
“We’re now at an inflection point where our core markets are undergoing a drastic change where what has been niche markets for cleantech are becoming mass markets,” states Norin. “We will accelerate our focus on developing connection and electrification solutions to enable the decarbonisation of ports and industrial applications. We are determined to contribute to a future world that is cleaner, safer and more efficient.”
Shore power is certainly one of the solutions that can help the maritime sector combat greenhouse gas emissions. That said, it needs to be understood that these projects are highly cost intensive and the technology itself may not be a great fit for everyone. Ports are diverse and this diversity needs to be accounted for in context of various environmental regulations and policies.
So, where is shore power at? As stated by Tim Morris, CEO at the UK Major Ports Group, “shore power has the potential to play a positive part in the future of zero emission maritime, although it is an area that currently faces some significant challenges.” Although shore power is already in use at ports around the globe, there is a long way to go before it is the norm across the board.