Oil, Gas and Shipping Magazine by Oil, Gas and Shipping

ISSUE 67 www.ogsmag.com

A PARTNER IN PIONEERING SUBSEA TECHNOLOGY Subsea 7 builds on its track record in the harshest offshore environments

Konepaja H채kkinen Oy Konekuja 4, FI-21200 RAISIO Tel. +358 207 813 400 E-mail: email@konepajahakkinen.fi Website: www.konepajahakkinen.fi

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CONTENTS

A PARTNER IN PIONEERING SUBSEA TECHNOLOGY Subsea 7 builds on its track record in the harshest offshore environments

Articles 6

Subsea 7 “Depth of expertise”

18 Kongsberg Maritime “Two centuries of success” 34 Statoil “The power of possible” 42 VSMPO Titan Ukraine “Geared up for surging demand expected in titanium tube market” Oil, Gas and Shipping 2014 Oil, Gas and Shipping Magazine is published by Worldwide Business Media Limited, London, EC1V 2NX United Kingdom. Registered No. 6809417 England/ Wales. VAT No. 972 7492 76. All rights reserved. Reproduction in whole or any part without written permission is strictly prohibited. Liability: while every care has been taken in the preperation of this magazine, the publishers cannot be held responsible for the accuracy of the information herein, or any consequence arising from it. All paper used in this production comes from well managed sources. Oil, Gas and Shipping Magazine Tel: +44(0)203 5751249 Sales email: info@ogsmag.com Editor email: editor@ogsmag.com

CONTENTS

2 Konepaja Hakkinen OY 4 Marine Safety Supplies 16 Shepherd Offshore 17 Bio UV 17 Breuer Motoren 23 ISIC Systems 26 Exova 27 Technip 32 NAG Marine 32 CC Jensen 33 Danbor 38 FMC Technologies 46 Vroon Offshore 47 IKM Cleandrill/ IKM Testing 48 Van Oord

ISSUE 67 www.ogsmag.com

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Cover Story: Page 6 Subsea 7 “Depth of expertise”

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depth of expertise Investing in technology In the offshore energy industry, Subsea 7 is the leading global contractor in seabed-to-surface engineering, construction, inspection, repair and maintenance (IRM) and other services. In recent years, this subsea market has entered an era of increasing challenge, with reservoirs at greater depths and in more hostile environments. The company has responded by developing a wide and versatile range of market-driven, enabling technologies and by extending its technical expertise. “Many of the large subsea developments in recent years are either marginal or extremely technically challenging, and probably wouldn’t have been attempted a decade ago,” says Øyvind Mikaelsen, Subsea 7 Senior Vice President, North Sea and Canada. “Today, Subsea 7 is much more than an installer of subsea infrastructure – we design pipeline systems for clients, develop technologies to support flow assurance in hostile conditions, and invest in world-class high-performance vessels which enable the execution of large, complex projects even in extremely deep waters.” The catalyst for this accelerated commitment to technology was the successful combination between two complementary predecessor companies, Acergy S.A. and Subsea 7 Inc. in 2011. “The 2011 merger delivered much more than enhanced volume, capacity and geographical range,” says Steve Wisely, Subsea 7 Executive Vice President Commercial. “It also gave us the widest range of technologies in key sectors in the subsea market, including pipeline riser systems, pipelay techniques, pipeline Bundles, Life-of-Field services and Remotely Operated Vehicles (ROVs). “As a result, the technologies we use are independent and fit for purpose. We are not committed to using in-house hardware – we meet the challenge of delivering each complex subsea project through selecting the most effective technical solution.”

SUBSEA 7

Subsea 7 operates in every major offshore region worldwide, including the North Sea, the Gulf of Mexico, West Africa, Brazil’s pre-salt fields, West of Shetland, Western Australia and, most recently, the Norwegian Sea. Well established for decades in the Norwegian offshore market, and listed on the Oslo Børs, Subsea 7 is focused on playing a leading role in delivering technology-rich subsea projects in Norwegian waters. Safety remains the number one priority in all Subsea 7’s operations, and powerful hazard identification, risk assessment and safety management processes all contribute to the highest levels of safety performance. In Norway, Subsea 7 has had no Lost Time Incidents in over a year during more than 2,000 vessel days and 12 current projects.

The subsea market Subsea installation is already a major growth sector of the oil and gas market, as operators explore technological alternatives to conventional offshore drilling and platform production, most notably for deepwater field developments. Industry analysts forecast that subsea production will match or exceed conventional platform production in the next 15 years, with the subsea processing market in particular estimated to grow from its current annual value of $500 million to a projected $8 billion by 2020. As subsea infrastructure grows in size and complexity to meet the demands of higher pressure deepwater installation, an increasing number of operators are demonstrating a preference for the packaged EPIC (Engineering, Procurement, Installation and Commissioning) or EPCI (Engineering, Procurement, Construction and Installation) contract models, which only a number of large top-tier contractors are able to deliver. “Innovative subsea technologies and large EPIC/EPCI contracts represent the future, but cost and reliability remain the two principal drivers in this industry,” says Thomas Sunde, Subsea 7 Vice President Technology. “Operators are prepared to give increased installation responsibilities to their contractors – but they want confidence in the contractors’ track record.”

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Subsea 7 is certainly well placed to meet this requirement. The company has extensive global project experience in every element of subsea construction and engineering, from conceptual design through to installation and commissioning.

“Many of our areas of technological expertise are not what clients expect from an ‘installer’; flow assurance, Finite Element Analysis (FEA), concept analysis, structural riser design, the development of Autonomous Inspection Vehicles and other cutting-edge areas.”

“We have executed a huge number and diversity of subsea projects on a worldwide basis, and we harness all this technological expertise and know-how into safe, reliable delivery,” says Sunde.

As a result of this experience, the company is an acknowledged leader in key sectors of the subsea market, including Subsea Umbilicals, Risers and Flowlines (SURF) and Life-of-Field (LOF).

Subsea 7’s Seven Borealis a world-leading pipelay and subsea construction vessel

SUBSEA 7

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Equipped for Martin Linge In November 2012, Total E&P Norge AS awarded to Subsea 7 the largest Subsea Umbilicals, Risers and Flowlines (SURF) contract to date on the Norwegian Continental Shelf, for the Martin Linge Development project. The four-year Engineering, Procurement, Construction and Installation (EPCI) contract, valued at around $800 million, comprised engineering, procurement, construction and installation of the complete subsea facilities on the field. The workscope was familiar in scale and complexity to similar recent EPIC/EPCI projects executed by Subsea 7 in other offshore regions, most notably West Africa. The Martin Linge Development project consisted of three main elements: the gas export system, based on a 70km x 24-inch pipeline; the infield systems, including three 3km flexible flowlines and risers provided by NOV and the FSO mooring system; and the world’s longest high-voltage power from shore cable, delivered by ABB, extending to 160km. The contract represented a step-change in the Norwegian subsea sector, calling for the deployment of around 100 engineers and project personnel in Subsea 7’s Stavanger office. The project team is

responsible for all planning and design work, as well as the procurement of all pipeline and subsea equipment to be used on the seabed. The contract also calls for the deployment of ten vessels from Subsea 7’s fleet on diverse pipelay, construction, diving, trenching and survey activities across 34 offshore campaigns. The main pipelay activities mark the debut in Norwegian waters of Subsea 7’s flagship vessel, the Seven Borealis, whose construction at approximately $550 million represents the largest capital investment project undertaken to date by the company. The Seven Borealis is a versatile, high-performance rigid pipelay and heavy construction vessel, capable of laying up to 46-inch diameter pipe in S-lay mode and 24-inch pipe in J-lay mode, and is equipped with the world’s largest offshore mast crane, with a 5,000-tonne capacity. The vessel is deployed by Subsea 7 on a global basis, and augments Subsea 7’s local fleets when her high-performance capabilities are required to execute projects more quickly, more efficiently and more costeffectively, as on Martin Linge.

Subsea infrastructure is growing in size and complexity to meet the demands of higher pressure deepwater installation.

”

SUBSEA 7

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Deepwater challenges in the ‘High North’ Subsea 7’s Norwegian office was awarded another milestone SURF project in 2013, in this case from Statoil, for the construction of the Aasta Hansteen gas field in the northern Norwegian Sea, north of the Arctic Circle, in water depths of 1,300 metres. As well as its challenging location, the project is also the deepest field development on the Norwegian Continental Shelf, and calls for the deployment of a number of key enabling technologies developed by Subsea 7. This is the first Steel Catenary Riser (SCR) system in the North Sea (SCRs are deepwater riser pipelines configured in a catenary shape). SCRs are recognised to have significant benefits, including cost efficiency, ease of installation and a strong international track record in service. For pipeline protection against the corrosive well fluids, Subsea 7 is also installing BuBi® mechanically-lined pipe by the reel-lay method – another North Sea first. BuBi® pipe consists of a thin-walled corrosion-resistant liner aligned and expanded inside a carbon steel pipe, and represents a cost-effective alternative to solid corrosion-resistant alloy or metallurgically-clad pipes. BuBi® pipe has been successfully deployed by Subsea 7 on projects for almost 20 years, and Subsea 7 achieved a major technological breakthrough in collaboration with manufacturing partner BUTTING in extending the scope of this key technology for installation by the reel-lay method. Extensive testing and Finite Element Analysis (FEA) confirmed that reel-lay was possible without the liner suffering from local buckling during the spooling process. The achievement was recognised by Subsea 7 receiving the Pipeline Industries Guild’s prestigious Subsea Pipeline Technology Award in 2012, and this specialist capability has been a significant factor in the award of a number of challenging deepwater contracts worldwide.

Aasta Hansteen subsea development (Image courtesy Statoil)

SUBSEA 7

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Subsea 7 people – putting the company at the forefront of subsea technology Subsea 7 employs the highest concentration of specialist subsea engineering and project management expertise in the sector, with more than 2,000 engineers deployed globally, including 1,000 on North Sea, Norwegian Sea and West of Shetland projects. “One of our greatest assets is our ability to share expertise and know-how from project to project,” says Thomas Sunde, Subsea 7 Vice President Technology. “We retain world authorities in many key areas of technology, and we can flow this intellectual property efficiently through the company. “Our ability to deploy technological expertise is a major differentiator in our market.” One of the company’s most eminent technologists is Dr Daniel Karunakaran, Chief Engineer–Technical Authority, who has held the position of Adjunct Professor in Marine Technology with the University of Stavanger since 2008, and has strong links with the University of Trondheim, the University of Tromsø and other Norwegian research and educational institutions. Professor Karunakaran’s specialist area is the non-linear dynamic response analysis of subsea structures, pipelines and risers, and he has played a key role in the design of some of the world’s most innovative riser designs, including, most recently, Buoyancy Supported Risers (BSRs) on the giant Brazilian Guará-Lula NE pre-salt development in water depths beyond 2,100 metres. Daniel has worked on the design of steel catenary risers (SCRs) for 20 years, during which time he has published over 90 technical papers on riser design. He is the Technical Lead for Subsea 7’s Community of Excellence for Dynamic Risers and also supports the engineering resources on Subsea 7 riser projects worldwide. “As with Subsea 7’s other Technical Authorities, Daniel is consistently generous in sharing his unequalled expertise in support of our live projects,“ says Thomas Sunde. “As well as making outstanding contributions to technology development, which keep us at the very forefront of our industry, he shares lessons learned throughout our company on a global basis, and consistently guides our project teams towards technological best practice.”

Dr Daniel Karunakaran Chief Engineer–Technical Authority

SUBSEA 7

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Local presence The Aasta Hansteen project is a strategic, as well as technological, milestone for Subsea 7, since it is the maiden project for Subsea 7’s new office in Tromsø, in Norway’s ‘High North’. The decision to open the office in 2013 in Norway’s new offshore frontier territory was taken with a view to the longterm. “Clients have already welcomed our decision to set up a solid operational platform to service future subsea developments in the region,” says Tromsø Managing Director Yngve Vassmyr. “We are, for example, targeting a number of new oil and gas developments, including Johan Castberg, Gotha and Wisting in the Barents Sea.

strong strategic position for anticipated Arctic subsea development. Subsea 7 has invested strongly in expanding its local Norwegian presence in recent years, and now employs over 1,000 onshore personnel in its project execution offices in Stavanger, Oslo and Tromsø, support bases in Kristiansund and Dusavik, and a vessel management and support base in Grimstad. “In 2008, we opened our $30 million state-of-the-art spoolbase at Vigra, in north-west Norway, which is the most sophisticated of its type in the world,” says Stuart Fitzgerald, Subsea 7 Vice President Norway.

“In addition to our own local presence, our clients expect our expansion to accelerate a positive ripple effect with other suppliers. We are committed to introducing, training and qualifying local businesses into the subsea supply chain, and estimate we will spend in the region of NOK 200m with regional suppliers. We are also recruiting around 50 engineers and support personnel for the new office.”

Vigra’s 2,000m-long spool-lines reduce vessel spooling time by around 25%, and the facility incorporates worldleading automatic welding, inspection and field joint coating technologies designed by Subsea 7’s Global Pipeline Welding Development Centre in Glasgow, UK.

This northern expansion parallels Subsea 7’s expansion in north-east Canada, where the office in St. John’s, Newfoundland, now employs around 80 personnel and, working in collaboration with Tromsø, puts the company in a

Since its opening, Vigra has demonstrated its advanced automatic welding capabilities on an extensive range of linepipe sizes, types and materials, including highperformance Pipe-in-Pipe (PIP), BuBi® mechanically lined pipe, Corrosion Resistant Alloy (CRA), high-strength and stainless steel pipe.

Vigra spoolbase Reduces vessel spooling time by around 25%

SUBSEA 7

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Knarr_BG over A99

Bundle launch at Wick A giant towhead and Bundle are pulled down the launch ramp by tugs

Applied technologies: Pipeline Bundles and Pipe-in-Pipe Subsea 7 has also pioneered and established two technologies with particular significance for subsea developments in the northern seas: pipeline Bundles and high-performance Pipe-in-Pipe (PIP). The unique pipeline Bundles are produced at the companyâ&#x20AC;&#x2122;s fabrication base at Wick, in northern Scotland, which recently underwent an $8.8 million refurbishment, and where the company has established world-leading expertise in the technology. A successful Bundles case study has been carried out for Statoil exploring the use of the concept in the Barents Sea, and Subsea 7 is currently installing its deepest Bundle to date, a 4.5km product for BGâ&#x20AC;&#x2122;s Knarr Norwegian North Sea project

SUBSEA 7

in water depths of 410 metres. This Bundle also features the largest and heaviest towhead launched to date from Wick, at around 575 tonnes. The company has designed, fabricated and installed 70 North Sea Bundles in the last 30 years, and the prefabricated concept is widely recognised as a technically and commercially attractive alternative to field-laid flowlines. Pipeline Bundles are fully fabricated and tested onshore in lengths of up to 7.6km and diameters up to 56 inches, and are towed to their offshore location at a controlled depth below the sea surface to minimise wave-induced fatigue implications.

www.ogsmag.com The product therefore requires no specialist pipelay vessels for installation, and has many potential benefits for new subsea installations, including excellent thermal performance, fibreoptic “health monitoring” and the potential for re-use. In particular, the large towheads which terminate one end of the Bundle are being increasingly viewed as a cost-effective housing for subsea processing equipment. “Bundles offer clients both technical and cost benefits, and we anticipate their deployment in fields beyond their North Sea origins,” says Thomas Sunde. Working in collaboration with manufacturer ITP InTerPipe, Subsea 7 has also designed and manufactured the most thermally-efficient pipeline on the market today – highperformance Pipe-in-Pipe (PIP). To date, the company has installed PIP in over 40 projects worldwide, including Statoil’s Svalin development, where the PIP was fabricated at Vigra and installed by reel-lay in 2013 by the Seven Navica.

Subsea 7 has also developed and qualified Electrical Heated Trace Flowlines (EHTFs), a unique game-changing enhancement of PIP with low-voltage electrical heating elements incorporated to offer an active temperature control capability added to the product’s high-performance insulation. Trace heating is a low-power consumption element which gives operators an optional capability to ensure that the residual fluid in a pipeline never cools down to a critical level, for example during maintenance shutdowns. ETHF has been received with great interest in the market, and has been qualified by independent authorities such as DNV and clients including Total, Statoil, ExxonMobil and Noble Energy. “Pipeline flow assurance is the key issue in subsea field development,” says Sunde. “PIP and ETHFs give clients the predictability that they need, especially for seabed processing”.

Pipe-in-Pipe installation The Seven Navica reel-laying PIP

Subsea 7 is focused on playing a leading role in delivering technology-rich subsea projects in Norwegian waters.

”

SUBSEA 7

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Life-of-Field (LOF) In addition to its field development capabilities, Subsea 7 is also one of the largest and most successful global contracting partners in the Life-of-Field market, which includes survey, inspection, repair, maintenance (IRM), and field support and field extension services. Subsea 7 optimises engineering solutions through its multidisciplined team of engineers, technicians and programmers, complemented by experts in bespoke tooling and equipment such as Autonomous Inspection Vehicle, pipeline repair equipment, data management and map-based Geographical Information Systems (GIS) support. The company estimates that it has inspected more than 300,000km of subsea pipelines, and at any one time may have around 1,200 people onshore and offshore engaged on LOF contracts. The North Sea LOF market has two main sectors – divingbased LOF and Remotely Operated Vehicle (ROV)- based. Over many years, the UK sector has seen an increasing deployment of innovative ROV and remote intervention technologies, many of which have been pioneered by Subsea 7. But, with the growing emphasis on subsea processing, the Norwegian sector is no longer so reliant on diving support services, and there is a growing demand for dedicated, dual-purpose support vessels with both ROV and diving capabilities. Subsea 7 has invested in a number of new world-leading support vessels for the Norwegian market, and, as a consequence, is now experiencing an increasing client preference for long-term IRM frame agreements based on the deployment of these dedicated multi-purpose vessels.

“Through our North Sea frame agreement contracts with majors like Statoil, Shell and BP, we have already demonstrated that the partnership approach is particularly cost-effective in LOF, where we can base our service activities on long-term knowledge and understanding of the existing subsea infrastructure,” says Stuart Fitzgerald. “This approach is also increasingly of interest to smaller independents who can pool their requirements to enjoy the benefits of dedicated LOF vessels on long-term contracts. “Our Life-of-Field capability benefits from the versatility of our fleet, and positively complements our EPIC project management activities.”

World-class vessels Subsea 7 has its roots in the early days of North Sea diving, and, despite its fleet of over 175 advanced Remotely Operated Vehicles (ROVs) and the widespread growth in diver-less remote intervention, it remains a market leader in the provision and support of diving-related subsea activities. The company operates the largest and most versatile fleet of Dive Support Vessels (DSVs) in the industry, including the Seven Falcon, one of the largest and most advanced DSVs in the world, which features a state-of-the-art 24-man saturation diving system rated to 400 metres. Along with two other DSVs, the Seven Atlantic and Seven Pelican, the Seven Falcon was deployed in 2013 on ConocoPhillips’ Norwegian Eldfisk and B11 projects, the world’s first subsea projects to feature three simultaneous hyperbaric welding habitats. Subsea 7 is adding to its North Sea fleet in 2015 with another high-performance new-build DSV, the Seven Kestrel.

World-class Diving Support Vessels The state-of-the-art Seven Falcon

SUBSEA 7

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Game-changing heavy lift and vertical pipelay capability Artist’s impression of the Seven Arctic, currently under construction

Subsea 7 also continues to invest in its high-end construction and pipelay vessel capability, building on the introduction to service in 2012 of the flagship Seven Borealis with a second new high-performance heavy construction vessel, the Seven Arctic, which is currently under construction in South Korea for delivery in 2016. Despite her name and winterisation features, the Seven Arctic will be deployed on a global basis. The vessel’s high-performance capabilities represent a game-changing technological advance: her 900 tonne heavy lift crane, high-tension Vertical Pipelay System (VLS) and 7,000 tonne underdeck storage basket will extend the operating limits for architects of the next generation of subsea structures. “To meet the challenges of more complex field developments in deeper waters calls for heavier structures, longer umbilicals, more complex spoolpieces and a greater diversity of equipment to be installed,” says Øyvind Mikaelsen. “The advanced capabilities of the Seven Arctic will meet these demands, and allow even the most technically challenging projects to be executed more quickly, safely, reliably and cost-effectively.” Subsea 7’s world-class fleet is based on a wide range of modern, high-performance vessels which are, both individually and collectively, capable of operations beyond the scope of other vessels in the market.

The successful strategy has been to develop a versatile global fleet designed to meet market needs in wide-ranging workscopes, including high-performance pipelay in all four modes - J-lay, S-lay, flex-lay and reel-lay. Subsea 7 is committed to maintaining its competitive advantage in fleet capability through its in-house design expertise, collaborations with leading vessel construction and equipment partners, and ability to sustain investment in these critical assets.

The Seven Arctic allows even the most technically challenging projects to be executed more quickly, safely, reliably and costeffectively.

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SUBSEA 7

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As a key operating part of the Kongsberg Gruppen (KONGSBERG), Kongsberg Maritime delivers systems for dynamic positioning and navigation, marine automation, safety management, cargo handling, subsea survey and construction, maritime simulation and training, and satellite positioning. Its solutions enhance efficiency and safety throughout the whole maritime technology spectrum and it is able to offer additional competence in providing turnkey engineering services within the shipbuilding and floating production sectors. Key markets are countries with large offshore, shipyard and energy exploration and production industries. In exploration Kongsberg Maritime provides sophisticated underwater and positioning technology and systems for survey vessel operation. In field development, it supports constructions and offshore vessels with innovative solutions for operation and specialist applications, whilst in production its hardware and software enhances output and minimises downtime. For maritime transport and offshore vessels, Kongsberg Maritime supplies â&#x20AC;&#x2DC;The Full Pictureâ&#x20AC;&#x2122;, including navigation, automation, training and safety systems.

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Kongsberg Marine has been engaged in marine activities for more than fifty years and during this time it has built up a wealth of knowledge on marine operations, user requirements and challenges. Kongsberg Marine has evolved to meet the unique challenges of the marine industry by providing cost-efficient products and systems tailored to each individual client. Throughout the companyâ&#x20AC;&#x2122;s history, Kongsberg has ensured the commercial availability of technologies and systems that enhance value for the users. In the 1960s, it installed the worldâ&#x20AC;&#x2122;s first computer-based radar/ARPA. Since then, it has been at the forefront of many innovations, ranging from dynamic positioning systems to integrated automation systems and from fish finding equipment to fishery research. Owing to the depth and ferocity of the North Sea, the development of the offshore oil industry was made possible by achievements comparable with those of the space industry. Kongsberg developed dynamic positioning systems for diving support vessels in the 1970s. This significantly increased the efficiency and safety of diving operations. Since then, the offshore and maritime industries have benefited from these achievements. In more recent years these advances have been applied to the cruise industry with dynamic positioning systems for manoeuvring and the complex task of precise position keeping.

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In the early 1950s, Simrad, a subsidiary of Kongsberg, introduced the first commercial echosounder and sonar, making fish finding equipment available to ordinary fishermen. Since then, fishing has evolved into a technology-based industry, and Kongsberg has carved out a place at the forefront of technological developments. As cost levels rose rapidly during the 1960s, the need to reduce shipsâ&#x20AC;&#x2122; operating costs became evident. People turned to technology for solutions, and Norcontrol and Autronica provided them. Norcontrol, with its first main engine remote control system, and Autronica, with its first alarm and monitoring system, enabled vessels to sail with unmanned engine rooms at night. Operational safety was maintained, but less manpower was required. Under the ownership of Kongsberg, both companies have continued to improve the safety and efficiency of ship operations. Kongsberg provides fully segregated network design featuring open system architecture. The network is fully redundant and based on industry standards. The standard hardware and software modules can easily be distributed throughout the network to ensure the optimal solutions for vessels. Having a standard network solution that brings all functions and information together also facilitates easy integration with other ship systems. Information is presented on multipurpose operator stations, offering an easy to use, intuitive user interface. All process and vessel data is available in the reporting system and can be incorporated into electronic logbooks and used for ship-to-shore communication.

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LNG carriers built to last The success of the LNG industry is based on the shipping communityâ&#x20AC;&#x2122;s total commitment to safety. The challenge for the LNG shipping industry is to ensure that a safety-first approach to ship design, construction, operation and maintenance is transferred to a new generation of ships, while facilitating the increased flexibility required by the growing, changing nature of the LNG trade. Flexibility is built into the cargo handling system to optimise terminal compatibility and the potential for universal trade, and propulsion systems are constantly improved to reduce transport costs. Kongsbergâ&#x20AC;&#x2122;s integrated system solutions provide the safety and flexibility needed to meet present and future requirements and standards. Challenges facing the tanker industry Safe, economic transport of oil and oil-based products, ensuring cleaner seas and lower emissions of all types, represents pioneering work initiated by the tanker industry in close co-operation with the maritime community as a whole. Much has been achieved and the tanker industry has made major advances in addressing the principle marine environment challenges. There is however, still work to be done and the industry remains committed to developing effective, practical solutions for the tanker industry to minimise environmental impact.

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Safe, economic transport of oil-based products Kongsberg cargo handling system has been developed to ensure safe, efficient operation. The cargo handling system takes full advantage of the quality and accuracy of its radar-based level gauging system and sensors for cargo, ballast and service tank monitoring. All information required for the loading and unloading processes are available to the operator online, ensuring safe, efficient operations. The complete loading and unloading process can be planned off-line well in advance, minimising turnaround time in port. The cargo handling system can easily be integrated into our engine room alarm, monitoring and control system, enabling full vessel control from all operator stations. Offshore Kongsberg provides fully integrated navigation, positioning and automation systems to the offshore industry and offers the most accurate, reliable and efficient solutions available today. Whether the requirement is for complete systems or individual products, from the swift delivery of support for integrated navigation, positioning and automation systems to the sophisticated technology and skilled engineering that makes them possible, Kongsberg has the right solution.

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Wide Screen ECDIS & Radar Displays Introducing Marine Displays in 26”WS and 27”WS with LED backlight, ISIC provides maximum flexibility for ECDIS and Radar category 1 applications. With the first genuine 27” (16:9) monitor, certified for ECDIS, ISIC enables easy implementation of uniform bridge design, utilizing same aspect ratio across the bridge.

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TRUSTED HARDWARE SYSTEMS

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Offshore support vessels Kongsberg provides systems for all support vessels, whether carrying out supply, anchor-handling, ROV/ROT or diving support operations. Their products fulfil the requirements for offshore vessel operations, from basic joystick systems to the most advanced redundant dynamic positioning systems. The Kongsberg navigation bridge integrates all bridge equipment, the dynamic positioning system, and propulsion and thruster controls, while the aft work bridge is tailored for the particular marine operations that the vessel is designed for. The bridges provide an optimal operating environment, which strengthens safe, efficient operation and reduces the risk of human error. Offshore loading â&#x20AC;&#x201C; reduced fuel consumption Integrated bridge systems facilitate safe navigation. The propulsion plant is effectively controlled by Kongsbergâ&#x20AC;&#x2122;s integrated automation system and its radar based level gauging system assists in safe, precise cargo handling. However, its Class II dynamic positioning system, especially adapted for offshore loading takes station keeping a step further. The Weather Vane function keeps the bow up against the weather. This reduces the thrusters/propeller force required to retain the vesselâ&#x20AC;&#x2122;s position, saving fuel and wear and tear on equipment.

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Optimal deep water drilling The Riser Management System (RMS) assists in all phases of the drilling operation. From the planning of riser make up through drilling in changing environmental conditions, the RMS ensures safe and efficient operation through extensive monitoring and supervisory features. Optimal vessel positioning during drilling operation is enabled by taking into account riser angles, tension and the specific riser characteristics. To ensure a well planned riser deployment, a powerful and easy to use riser simulator is available for validation of the planned operation. Pipe and cable laying, trenching and crane operations are just a few assignments that Kongsbergâ&#x20AC;&#x2122;s dynamic positioning system supports with dedicated functionalities tailored to ease and optimise specific operations. Offshore â&#x20AC;&#x201C; oil and gas production Kongsberg supplies offshore processing facilities with high-quality, efficient and reliable process control systems for oil and gas production. Standard hardware modules are distributed within a network, close to the process, where the embedded control applications provide local processing. The system strategy adds further system performance, by providing real-time response and actions as required by the process. The standard network solution that brings all functions and information together allows for easy integration with other systems. Information is presented on our multipurpose operator stations, with an easy to use and intuitive user interface. By integrating process control systems and process simulation with vessel systems, Kongsberg provides a fully integrated solution for offshore floating production units.

Testing, calibrating, advising

Pipelines... inline... on time! In a market where asset assurance is a fundamental principle, Exova has a proud track record in providing testing services at the forefront of global oil and gas exploration, production and distribution.

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Building The Future At Technip, we are building the future through todayâ&#x20AC;&#x2122;s most ambitious energy infrastructure projects. We are also creating the conditions that will generate tomorrowâ&#x20AC;&#x2122;s game-changing innovations by developing our people. Entrepreneurial attitude, investment and anticipation are at the very heart of how we are taking it further.

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Surface positioning and attitude determination High performance position reference systems are a major contributor to safe, accurate positioning and navigation regardless of operational area. Kongsberg supplies satellite based systems utilizing ground infrastructure that include a complete range for dynamic positioning, hydrographic surveys, and seabed mapping with accuracy, reliability and integrity as required by the operational scenarios. Advanced motion sensor technology contributes to enhanced security offshore as well as giving optimal correction input for seabed mapping and hydrographic survey applications. Green and fuel tight DP GreenDP® is designed to further reduce fuel consumption and wear and tear on mechanical parts of the power and thrusters system. This sophisticated system employs a control strategy that uses the smallest possible thrust vector, and thus power, to keep the vessel inside user defined boundaries and the working and operational area, as opposed to “bulls-eye” station keeping. Process simulation services The dynamic simulation tool, ASSETT®, is used for process design verification, process control system verification, training and operator support and optimization. ASSETT® is a ‘Life cycle simulator’ that covers the development and use of the dynamic process simulation model throughout the entire period of construction, commissioning, start-up and operation of a plant. To maximize the benefits the simulator development is integrated into the engineering project. The dynamic process simulator is made available and has sufficient functionality to be of benefit during various phases of the project. Having created a high fidelity simulator, it is then readily available for training uses.

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Subsea Acoustic sound transmission represents the basic techniques for underwater navigation, telemetry, echosounder and sonar technology. Common for all is the use of underwater pressure wave signals that propagate with a speed of 1500m/s through the water. When the pressure wave hits the sea bottom or another object, a reflected signal is transmitted back and detected. The reflected signal contains information characterising the reflected object. The sea is far from an ideal transmission medium, with acoustic noise and multipath interference as some of the major concerns. With more than fifty years in the business, Kongsberg has learned to master sound in water. To collect quality information about the seafloor, within the water columns as well as marine life, oceanographic research vessels are dependent upon a comprehensive suite of sensors. With Kongsberg sensors systems, mutual interference problems are avoided and quality information guaranteed. Data and images are all distributed and available over the vessel data network. Complete instrumentation and data processing systems are available, providing flexibility, productivity and data security. Marine Simulation For years Kongsberg has been a market leading supplier of professional simulators to maritime colleges and training institutions all over the world. Every day these simulators are at the forefront of technology based training, with increasing emphasis on true-to-life software solutions, visual presentations and exercises to meet demanding teaching objectives. Kongsbergâ&#x20AC;&#x2122;s simulator software is fully scaleable and can be supplied as full mission or part task trainers for desktop applications and web-enabled simulators. A comprehensive software library of vessel models, propulsion plants, cargo systems, navigation instruments, and ports and fairways enables them to configure solutions to meet a variety of teaching objectives designated by our many customers, and validated by experienced professionals for realism and suitability to provide realistic and positive training.

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SIMRAD Simrad, a Kongsberg company is a major manufacturer of hydroacoustic equipment for the fishery and fishery research markets, offering sales, distribution and service worldwide. Through technology, experience and through understanding the fishing industry, Simrad is an ideal choice for hydroacoustic equipment on fishing boats and research vessels. Simrad supplies complete solutions for finding the fish, evaluation of size and species and monitoring trawl and purse seine parameters. The majority of the worldâ&#x20AC;&#x2122;s latest research vessels are all equipped with hydroacoustic technology from Simrad. They carry out their work using multiple echo sounder frequencies, sonars and catch monitoring instruments for improved stock assessment, species discrimination and species identification.

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Kongsberg Maritime is a wholly owned subsidiary of Kongsberg Gruppen (KONGSBERG), an international technology corporation that delivers advanced and reliable solutions that improve safety, security and performance in complex operations and during extreme conditions. In 2014 KONGSBERG is celebrating its 200year anniversary.

Environmentally Acceptable Lubricants (EAL) New rules might affect Your oil system! Be prepared for the new environmental regulations from the US Environmental Protection Agency (EPA). In near future you might have to change from mineral oils to biodegradable oils. With the CJC™ Oil Filter / Desorber Combi Unit it is possible to remove water from emulsified biodegradable oils in thrusters, stern tubes, rudders, stabiliser fins, controllable pitch propellers, etc.

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KIRK & HOLM

ONE-STOP-SHOP FOR THE OIL AND GAS INDUSTRY Four decades of providing offshore services and solutions worldwide have conveyed lots of experience, expertise and know-how to our staff.

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Today this has made us one of the world’s leading providers of quality solutions to the energy sector both onshore and offshore.

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DANBOR A/S · KANALEN 1 · DK-6700 ESBJERG · PHONE +45 7911 1900 · WWW.DANBOR.COM Part of NorSea Group

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The power of possible Statoilâ&#x20AC;&#x2122;s second quarter 2014 net operating income was NOK 32.0 billion, a decrease of NOK 2.3 billion compared to the second quarter of 2013. Adjusted earnings were NOK 32.3 billion. â&#x20AC;&#x153;Statoil delivered solid operational performance in the quarter, with continued high production regularity on the Norwegian continental shelf and project execution according to plan. We have deferred gas production to enhance value, but remain on track for delivering on our production guiding for 2014.

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Our quarterly earnings were impacted by divestments, seasonal effects and lower gas prices. For the first half of the year, earnings were around the same level as in the same period last year,” says Helge Lund, Statoil’s president and CEO. Statoil’s net income for the second quarter was NOK 12.0 billion, an increase from NOK 4.3 billion in the same period of 2013. Earnings per share were NOK 3.75, an increase from NOK 1.38. Adjusted earnings were NOK 32.3 billion, a 15% decrease compared to the second quarter last year. The net adjustments of NOK 0.3 billion are primarily related to gains and impairments. In the second quarter, the company recorded a gain of NOK 3.6 billion from the farm-down in Shah Deniz and the South Caucasus Pipeline. The gain was offset by impairments of NOK 4.3 billion in the US onshore business, mainly related to sustained local price differentials. Adjusted earnings after tax were NOK 9.9 billion, compared to NOK 11.3 billion in the same period last year.

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“Our cash flow from operations before tax is NOK 118 billion so far this year, and we have a strong balance sheet. We will pay a dividend of NOK 1.80 per share for the quarter, in line with our commitment to capital distribution to our shareholders,” says Lund. Net debt to capital employed at the end of the quarter was 16%. Organic capital expenditure is USD 10 billion year-to-date, and the guidance of USD 20 billion for 2014-2016 remains unchanged. Statoil’s adjusted earnings from upstream activities in Norway decreased from NOK 31.5 billion to NOK 24.1 billion. Earnings from upstream activities outside Norway increased to NOK 6.3 billion from NOK 5.9 billion, while earnings from the midstream increased to NOK 2.4 billion from NOK 0.8 billion. In the quarter, Statoil made the high-impact Piri discovery in Tanzania. The discovery brings the total of gas in-place in Block 2 up to approximately 20 tcf, adding volumes for a future large-scale gas infrastructure development. Exploration expenses were NOK 2.7 billion, down NOK 1.4 billion compared to same quarter last year. The decreased expenses were mainly due to increased capitalisation as a result of successful wells. “We continue progressing our programmes to reduce cost and improve capital efficiency. In the quarter, we have announced a potential to reduce between 1100 and 1400 positions. Reductions of around 1000 positions in our staffs and support services are already implemented. We have also established six specific high-impact projects addressing technical efficiency across the company, and we are now executing the first wave. We are on track, and will provide an updated status when we report our results for the full year,” says Lund. Statoil delivered production of 1,799 mboe per day in the second quarter, down 9% compared to second quarter in 2013. Starting and ramping up of new fields such as Skarv in Norway, Marcellus and Eagle Ford in the United States together with PSVM and CLOV in Angola contributed positively to the production. This increase was partly offset by divestments and redetermination, expected natural decline, seasonal effects and optimisation of gas production. Statoil continued its strong progress on project development and execution, including the award of a letter of intent for two steel jackets to the Johan Sverdrup field. This represents a new step forward in planning of the first phase of this important development on the Norwegian continental shelf.

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The serious incident frequency (SIF) improved from 0.9 in the second quarter of 2013 to 0.7 in the second quarter of 2014. Statoil is an international energy company with operations in 33 countries. Building on 40 years of experience from oil and gas production on the Norwegian continental shelf, Statoil is committed to accommodating the world’s energy needs in a responsible manner, applying technology and creating innovative business solutions. The company is headquartered in Stavanger, Norway and has approximately 23,000 employees worldwide. It operates on the belief that competitive returns for its shareholders are best achieved through a values-based performance culture, stringent ethical requirements and a code of conduct, which promotes personal integrity. Statoil aims to meet the demand for energy, which is necessary for further economic and social development, while showing consideration for the environment and making an active effort to fight global climate change.   Safe and efficient operations are its first priority. Statoil has won great renown for its technical safety monitoring system and safe behaviour programme. It focuses on contributing to sustainable development via its core activities in the countries in which it operates. Statoil has grown alongside the emergence of the Norwegian oil and gas industry, dating back to the late 1960s. Today, the company is one of the world’s largest suppliers of oil and gas. In 1972, the Norwegian State Oil Company, Statoil, was formed, and two years later the Statfjord field was discovered in the North Sea. In 1979, the Statfjord field commenced production, and in 1981 Statoil was the first Norwegian company to be given operator responsibility for a field, at Gullfaks in the North Sea. Statoil merged with Norsk Hydro’s oil and gas division on 1 October 2007. The new company was given the temporary name of StatoilHydro, and the new company reached a size and strength for considerable international expansion. The company changed its name back to Statoil on 1 November 2009. Norsk Hydro’s oil history stretches back to the late 1960’s, when the company was a license holder in the giant Ekofisk discovery in the North Sea in 1969. Statoil has been one of the most important players in the Norwegian oil industry, and has contributed strongly to make Norway into a modern industrial nation. Today, Norway is one of the world’s most productive petroleum provinces and a test lab for technology development. Statoil is the leading operator on the Norwegian continental shelf, and a company in an expansive phase internationally. As the fields on the Norwegian continental shelf become increasingly mature, Statoil is actively seeking international opportunities to apply its expertise in offshore and deep water development projects. Partner-operated fields represent a significant proportion of Statoil’s oil and gas portfolio. The portfolio ranges from development projects to mature fields. The complexity of these requires detailed knowledge of the areas involved.

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FMC Technologies SA Route des Clérimois - CS10705 89107 Sens Cedex France Tel. : +33 3 86 95 87 00 www.fmctechnologies.com

Besides being a leading operator of innovative floating production platforms and production ships, Statoil has an enviable record in producing hydrocarbons via subsea (seabed) installations. Its goal is to maximize the production on the Norwegian continental shelf and lay the ground for further growth.   To achieve this, further technology development is being pursued along the lines of compact and environment-friendly solutions, solutions that improve recovery from the reservoirs, technology that permits long tie-backs to land and equipment for ultradeep water. Once the equipment has been developed and installed, efficient intervention systems are essential for carrying out modifications and repairs – both in the well and on the seabed. Dedicated high-capacity vessels for seabed intervention, modification and repair (IMR), light well intervention (LWI), and through-tubing rotary drilling (TTRD) have been developed to achieve fast response times.  These in turn enable high levels of productivity and reservoir recovery.

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Statoil is taking subsea longer, deeper and colder. Through innovative thinking and collaboration with partners and suppliers, Statoil aims to develop the elements required for a subsea factory by 2020. A subsea factory is a process plant on the seabed making it possible to utilize remote-controlled transport of hydrocarbons at any offshore facility. The future resources are further from land, at greater depths and in colder and harsher environments. The subsea factory will be vital to realise business opportunities for Statoil in these areas and help to realise its production goal of 2.5 million barrels of oil equivalent (boe) per day by 2020. Statoil believes that compact separation facilities on the seabed will be a key to success in Arctic areas or deepwater areas like the Gulf of Mexico and Brazil. Its offshore portfolio is well suited to the application of subsea production and processing. Statoil operates 500 subsea wells and has a 25-year track record of subsea technology development, implementation and operation.   It has already taken the first technological steps, making the world’s first complete subsea solution for separation and injection of water and sand from the Tordis wellstream, and has developed the first subsea facility for injection of raw seawater on Tyrihans. Projects such as the oil-dominated multi-phase transport on Tyrihans and Snøhvit’s gas condensate transport are at the forefront in the development of multi-phase transport over long distances. The next step is to realise subsea gas compression in 2015.

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Shale resources have begun to transform the global energy outlook. Due to reserve additions from shales, global natural gas reserves are estimated by the International Energy Agency to last around 250 years at present consumption levels. According to the International Energy Agency (IEA) World Energy Outlook 2011, unconventional gas (shale gas, tight gas and coal bed methane) now makes up 60% of marketed production in the US and production estimates of tight oil in the US alone could exceed 1.4 million barrels per day by 2020. Global natural gas reserves are now estimated by the IEA to last 250 years at present consumption levels due to reserve additions from shale gas. For Statoil, shale and tight rock reservoirs are a key growth area that increases its long term reserve base. Statoilâ&#x20AC;&#x2122;s heritage as a pioneering company and its technology competence, gives a strong foundation for our strategic ambitions in shale. The development of shale and tight rock resources enables both local and global economic development, creating jobs and wealth at the local and national level, whilst also meeting growing world energy needs.

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Statoilâ&#x20AC;&#x2122;s shale and tight gas and oil business began in the US through active partnerships in the Marcellus play along the eastern seaboard, the Eagle Ford play in south Texas, and our own operatorship of tight oil activities in North Dakota and Montana in the Bakken play. Shale and tight rock opportunities are in the early stages of development in many other parts of the world. What of the alternatives? Statoil is leading the way in harnessing new energy sources, including carbon capture and storage, and wind energy. The use of fossil fuels results in emissions of the greenhouse gas CO2. Carbon capture and storage (CCS) is an important contribution toward reducing CO2 emissions, and Statoil is actively pursuing CCS in many areas. It has stored CO2 on Sleipner Vest since 1996, and we continue to be a champion for the development of CCS. New renewable energy is one of the most exciting growth areas in the energy market. Statoil is focusing on establishing a position in markets where the company has natural advantages, particularly within offshore renewable energy.

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VSMPO Titan Ukraine

“geared up for surging demand expected in titanium tube market”

VSMPO Titan Ukraine Ltd. and VSMPO Titan Scandinavia AB are members of the titanium industry’s largest fully integrated producer, VSMPO-AVISMA Corporation. With production of seamless titanium tubes since 1964 in Nikopol, Ukraine, VSMPO Titan Ukraine Ltd. is a unique special-purpose tube works focused on manufacturing of both seamless cold-worked and welded tubes from titanium and its alloys. VSMPO Titan Scandinavia AB manages the Ukraine operation and sales in Scandinavia from the business office in Örnsköldsvik, Sweden. In November 2012 VSMPO-AVISMA Corporation decided to create a high technology site for manufacturing welded tubes of titanium alloys at VSMPO Titan Ukraine Ltd. and in December 2012 two automated tube welding lines, were purchased for fabricating welded titanium tubes with outside diameter from 12.0 to 60.3 mm with a wide range of wall thickness. To support the production of hydraulic tubes from titanium alloys for aerospace application, long-term investments will be made in 2016 by purchase of new pilger mills.

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VSMPO Titan Ukraine Ltd. complies with world standards for production and is approved with a variety of certificates, such as the TUV Nord certificate for compliance of quality management system, with requirements for international standard ISO 9001. It is also SAE AS 9100, ISO 14001, EN/ISO 17025, PRI Nadcap (MTL, CP, NDT, HT and Fluid Distributional Systems) approved. After participating in Statoilâ&#x20AC;&#x2122;s qualification program in 2011, the enterprise was included into the TR-2000 list of approved suppliers according to NORSOK M-650 Rev. 4, qualification of special material manufacturers. Both aerospace and NORSOK vendor approvals conduct more detailed, technically superior audits which improves supplier quality throughout industry through stringent requirements. It is one of the way in which the petroleum and aerospace industries identifies those who excel at manufacturing quality products. These approvals establish a set of qualification requirements to verify that the manufacturer has sufficient competence, experience, necessary facilities and equipment to manufacture these high-quality products and to provide a full range of programs and services designed to improve manufacturing process, product quality and promoting collaboration between global stakeholders in the petroleum and aerospace industries. The technical case for titanium application to seawater service was well established in the early 1970â&#x20AC;&#x2122;s and performance of titanium over the last 40 years has validated the technical case. With expanding global production the application base for titanium was able to expand and this expansion allowed the stocking of service centers worldwide to support existing and developing applications. Resistance to the various forms of corrosion in seawater compare to Al, Cu, Ni and stainless steel alloys show that only titanium is resistant to all forms of corrosion in seawater to temperature exceeding 70 0C.

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The markets for traditional corrosion resistant materials like copper, copper-nickel are facing some important supply side constraints that could potentially lead to price rises, improving the economics of substitute materials. The price differential between copper and titanium can be a good indicator of the business case for using titanium in industrial heat exchange applications since copper-nickel and titanium tubes are to a certain degree interchangeable. Production of copper and nickel is relying on continually decreasing ore grades as high grade readily accessible resources have been mined. With energy prices continuing to rise for many of the same reasons, the expectation is that copper and nickel prices will continue steady escalation. Regulatory restrictions on exports of non-processed nickel ore and increasing production and mining costs for copper and nickel, along with global demand forecasts for electricity and clean water, will result in a cost advantage for titanium products. As titanium has twice the strength of copper-nickel alloys and is nominally Â˝ the density there is significant weight and space savings to be realized when designs are optimized for titanium. Titanium application to industrial processes can grow by new application development or substitution for historical materials of construction. There is a large potential for substitution as strong economic activity has impacted copper and nickel prices dramatically in the recent history, recovering global economic growth can be expected to repeat this trend going forward. The growing stress on the supply side of these commodity metals is impacting on the economics of material selection and titanium will be shown to be an attractive alternative for many applications within these industrial processes. VSMPO Titan Ukraine Ltd. supplied 300MT of Grade 2 seamless titanium tube for the Gasco 4th NGL project in UAE, 60MT â&#x20AC;&#x201C; for KNPC 4th Gas Train project in Kuwait and have been included into such manufacturer lists as Saipem, Shell, Exxon, KNPC, GASCO, Statoil, Dow and Sabic.

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VSMPO-TITAN UKRAINE LTD. 56, Trubnikov Ave. 53201, Nikopol, Ukraine tel: +380 566 638810 fax: +380 566 638800 e-mail: info@tw-vsmpoavisma.com.ua web: www.tw-vsmpoavisma.com web: www.vsmpo.ru

VSMPO Titan Scandinavia AB Sjรถgatan 1A SE-891 60, ร rnskรถldsvik, Sweden tel: +46 660 15473 fax: +46 660 15474 e-mail: kosta.antonov@tw-vsmpoavisma. com natalia.antonova@tw-vsmpoavisma.com web: www.tw-vsmpoavisma.com web: www.vsmpo.ru

Meet · Deliver · Succeed

VROON provides a diverse range of services and solutions for key offshore-support needs, including platform supply, emergency response and rescue, anchor handling and subsea support. Our versatile fleet of more than 100 vessels follows a rigorous maintenance programme, which together with ongoing orders for new builds, ensures our continued commitment to providing services that are safe, reliable and cost effective. We have the fleet to meet your needs, the people to deliver and the determination to succeed. For more information visit www.vroonoffshore.com

ABERDEEN • DEN HELDER • GENOVA • SINGAPORE

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IKM Mud Recovery without Riser (MRR)

Our focus is growth!

First well successfully drilled Maersk is the first company to use the new Mud Recovery technology from IKM. The well was a development well in the Gryphon Field on the British sector of the North Sea. The water depth at well location was 112 meters and it was drilled using the semi submersible drilling rig Sedco 704.

By utilizing the MRR System from IKM, Maersk Oil UK have saved money and increased safety. The system worked without down time and to everybody’s satisfaction. I would not hesitate to recommend this system for other operators. Campbell Syme Drilling Superintendent Maersk Oil North Sea UK Limited

The challenge was to drill a deviated 17 ½” section riserless in an area with known hole instability problems. The solution was the Mud Recovery without Riser (MRR) System from IKM. The MRR system gave Maersk the benefit of a closed mud system with full mud return without having to run the BOP and the marine riser for drilling, casing running and cementing. The MRR is a dual gradient top hole drilling system that utilises a subsea pump skid to return drilling fluid and drill cuttings during riserless drilling. The section was drilled to TD without any HSE incidents or MRR related non productive time.

Deployment of Subsea Pump Skid with Mud Return Line

Well Head Interface Module (WHIM) on HPWH housing

Running 13 3/8” casing

IKM Cleandrill AS / IKM Testing AS T: +47 51 64 90 00 E: IKMTesting@IKM.no

www.IKM.com

Marine ingenuity

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Offshore Oil & Gas In just two words, marine ingenuity, we express that we are passionate dredging and marine contractors with a worldwide innovative approach to meet your challenges. Our people - who manage a versatile fleet - specialise in dredging, marine engineering and offshore projects (oil, gas and wind).

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