DOCSLIB.ORG

NSW ® Submarine Power Cables for the Future, Delivered Today NORDDEUTSCHE SEEKABELWERKE GMBH (NSW)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
NSW ® Submarine Power Cables for the Future, Delivered Today NORDDEUTSCHE SEEKABELWERKE GMBH (NSW) NSW ® Submarine Power Cables for the future, delivered today NORDDEUTSCHE SEEKABELWERKE GMBH (NSW) The submarine competence center within the General Cable Group After NSW was founded in 1899 1899. NSW was already laying its as fiber-optic accessories, e. g. by Felten & Guilleaume and the first submarine telecommunica- hang-off heads, cable protection Deutsch-Atlantische Telegraphen- tion cable in 1904, approximately systems, power connectors, cable gesellschaft, Siemens became 7,993 kilometers in length. joints, topside cables, fibre-optic one of its major shareholders in splice equipments and any other 1931, and acquired the remaining A century of experience in required cable accessories and stock in 1995. In 2000, NSW armored and non-armored supplies. became a subsidiary of Corning submarine cables for carrying Cable Systems. Since 2007, NSW power, signals, communications Taking customer requirements has been a 100-percent member and fiber-optic applications into account, we offer high quality of the General Cable Corporation has formed the foundation for tailor-made solutions or standard (NYSE:BGC) and has become the a forward-looking organization products from world-leading competence center for submarine committed to innovation and manufacturers. cables for the General Cable Group. unrivalled customer service. The installation, termination and NSW benefits not only from General NSW’s research-and-development testing of the cables and their Cable’s profound expertise but and product-management teams related accessories will be per- also from its global reach in the work in close cooperation with formed by our own highly qualified wire and cable industry. Quality, General Cable’s experts for power team of jointers or by well-known state-of-the-art technology and transmission as well as leading specialised companies under customer focus are General engineering companies to create supervision of NSW. Cable’s top priorities. state-of-the-art solutions for many of the world’s leading power utili- Experience, Innovation ties and the oil and gas industry. and Service Norddeutsche Seekabelwerke Full Service Provider GmbH (NSW) has been manufac- NSW offers the full range of turing underwater cables since mechanical, electrical as well SUBMARINE POWER CABLES FOR RENEWABLE ENERGIES Power transmission and distri- NSW ® Submarine Power Cables cases. As recognized experts in bution are becoming more and are supplied in all the required submarine power cables for the more important to the sustain- lengths. Based on our outstanding offshore oil and gas industry, NSW able energy concept; alternatives history as well as on a wide range can offer these solutions by meet- to fossil fuels are a necessity for of recent projects we are most ex- ing the most stringent of industrial avoiding the disadvantages of CO² perienced with all types of turbine requirements. We offer custom- emissions. Windfarms, tidal power and platform connections. ised, flexible cable solutions, while plants and wave-energy converter at the same time being able to farms (WEC) are possible answers Successful and in-time completion access our far-ranging technical to this question, which we support of projects in the North and Baltic knowledge of cable designs. proactively with innovative cable Seas have made NSW a valuable NSW ® Submarine Power Cables concepts. partner for national and inter- are reliable and cost-effective national power utilities, and for even under extreme conditions. Offshore Wind Farms windfarm developers. NSW demonstrate extensive ex- Island Connections perience in delivering and laying Offshore Oil and Gas Industry NSW ® Submarine Power Cables cables for the growing offshore Fundamental changes in the connect islands to onshore power wind industry. Together with our exploitation infrastructure in the grids. Helgoland’s link to the customers, we supply individu- global oil and gas industry do German power grid with a 53 km ally tailored solutions for power require state-of-the-art transmis- MV / AC cable is one of our finest transmission, both for in-field sion and distribution solutions, reference projects. Since 2009, cabling of the wind turbines, and based on highly reliable cable this North Sea island, well- also for connecting windfarms to designs. As a consequence, tailor- known both for its tourism and transformer substations. made solutions are needed in most for its large nature reserve, has no longer needed any diesel gen- erators for producing electricity. The team from NSW has proved that cables can be properly laid even in biosphere reservations in full compliance with the needs of both technology and the natural environment. DESIGN OF SUBMARINE POWER CABLES NSW ® Submarine Power Cables are used 1 for various medium and high voltage appli- 2 cations, e. g. in offshore wind farms, the oil & gas industry, island connections, static 3 tidal and wave power applications as well 4 as lake and river crossings. 5 National and international standards, e. g. IEC, VDE and CIGRE Electra recommenda- tions are respected in NSW’s cable design, manufacturing and testing. 6 NSW offers several cable design options according to individual customer require- ments and environmental conditions, e. g. 7 concentric or segmented conductors, XLPE or EPR insulations, tape or wire screens and radial metallic water barri- ers. The components can also be adapted to peripheral equipment like DTS systems 8 for real-time temperature monitoring. Tailor-made solutions for specific ap- plications are available. Even complex 9 composite cables with different power and communication elements can be designed and manufactured. HV DC cables as well as inter-array cables operating at increased voltage levels are within the 10 product range of NSW. 11 High-Voltage AC 12 Submarine Cables up to 270 kV Example: 3 × 1200 mm² Cu 87 / 150 kV 1 1200 mm² Milliken conductor, water blocked 2 Inner semi-conductive layer 3 XLPE insulation 4 Outer semi-conductive layer 5 Swelling tape 6 Lead sheath 7 Outer sheath semi-conductive PE 8 F i l l e r 9 Fibre-optic element 10 Bedding layer 11 Galvanized steel wires filled with bitumen compound 12 PP yarn cladding 1 2 3 4 Medium Voltage and Array AC Submarine Cables up to 66 kV 5 Example: 3 × 120 mm² Cu 18 / 30 kV 6 7 1 120 mm² round conductor, water blocked 8 2 Inner semi-conductive layer 9 3 XLPE insulation 10 4 Outer semi-conductive layer 11 5 Swelling tape 12 6 Copper counter helix 13 7 Copper wire screen 14 8 Swelling tape 15 9 Aluminium tape 10 Outer sheath 11 Filler 12 Fibre-optic element 13 Bedding layer 14 Galvanized steel wires filled with bitumen compound 15 PP yarn cladding 1 2 3 4 High-Voltage 5 DC Submarine Cables up to 320 kV Example: 1 × 630 mm² Cu ± 250 kV 6 1 630 mm² round conductor, water blocked 2 Inner semi-conductive layer 3 XLPE insulation 7 4 Outer semi-conductive layer 5 Swelling tape 8 6 Lead sheath 7 Outer sheath PE 9 8 Bedding layer 9 Galvanized steel wires filled with bitumen compound 10 PP yarn cladding 10 All illustrations are examples for NSW ® Submarine Power Cable designs. Please contact NSW for further information. Illustrations are on a scale of 1 : 2.26 INSTALLATION OF SUBMARINE POWER CABLES For over one century, NSW has complete cable design, engineering the River Weser. Minimum water been acquiring unsurpassed and installation capabilities, to depth is maintained at 10 m, thus experience and a proven track meet even the most challenging providing access to all sizes of record in submarine cable instal- requirements of interconnection, cable vessels. The cable load-out lation. Since 2009, NSW has been export and infield sea cable proj- system reaching from the factory using this experience also for the ects. Customers benefit from our to the pier is designed to enable installation of submarine power long-term project management ex- continuous lengths of submarine cables, as turn-key solutions with perience in submarine cable instal- cables to be transferred from the own installation spreads, or with lation for the telecommunication storage areas to the vessel in a chartered Installation & Trenching market as well as from a proven two-line parallel loading activity. Support Vessels. track record in turnkey solutions for the offshore wind industry. Cable Installation Project Management NSW provides specific solutions and Engineering Cable Loading for a wide variety of cable installa- NSW’s experienced marine engi- at NSW Facilities tion applications as defined by neering team, in close cooperation NSW’s Nordenham facility incor- water depth, seabed conditions with our project implementation porates its own deep water pier, and deployed offshore structures. department, offers full-coverage which is located near the mouth of Key personnel to supervise loading, laying and installation cable engines, cranes and sophis- Quality Management at NSW procedures are readily available ticated submarine sensors associ- Out of conviction, NSW has implemented within our regular staff. ated with cable installation. quality standards in its company processes and expanded them to an integrated NSW is an EC member of the In- The barge’s flexible cable system management system according to ISO ternational Cable Protection has a capacity of up to 3,500 tons 9001 and ISO 14001. As work safety is an Committee (ICPC) and all opera- of cable. For cable lay and burial essential part of NSW’s philosophy, we tions, whether cable installation, a vertical injector is utilized, are also certified according to BS OHSAS survey, pre-lay grapnel run / route enabling burial depths up to 7.5 m 18001. Consequently, the synergies cre- clearance or post-lay burial are in one simultaneous operation ated by a holistic system can be employed performed in accordance with the up to water depths of 35 m. The in the interests of our customers. applicable ICPC recommendations NOSTAG 10 is beachable, and Independent companies use regularly and local legislative requirements.
Load more

Recommended publications
  • Offshore Wind Submarine Cable Spacing Guidance
    Offshore Wind Submarine Cable Spacing Guidance Contract # E14PC00005 United States Department of Interior Bureau of Safety and Environmental Enforcement December 2014, For Public Use Offshore Wind Submarine Cable Spacing Guidance Contract # E14PC00005 United States Department of Interior Bureau of Safety and Environmental Enforcement December 2014, For Public Use The authors gratefully acknowledge permission of the Crown Estate to base parts of this report on their study “Principles of Cable Routing and Spacing (2012)”, Reference ID 8 in this report Document Control Responsible for Job Title Name Date Signature Chris Sturgeon Cables specialist Jim Hodder Cables specialist Colin Poat Cables specialist Content 2014-12-15 Cables specialist Steven Drew Principal Environmental Consultant Rachel McCall EHS Senior Consultant Tanjia Maynard Checked EHS Senior Consultant Tanjia Maynard 2014-12-15 Approval Principal Engineer Jim Doane 2014-12-15 Copyright: PMSS © Document Reference: 734300670/140708 Signatures in this approval box have checked this document in line with the requirements of QP16 This report has been prepared by TÜV SÜD PMSS and Red Penguin Associates with all reasonable skill and care, within the terms of the contract with the Client. The report contains information from sources and data which we believe to be reliable but we have not confirmed that reliability and make no representation as to their accuracy or completeness. The draft report is confidential to the Client and TÜV SÜD PMSS accepts no responsibility to any third party to whom information in this report may be disclosed. No part of this document may be reproduced without the prior written approval of TÜV SÜD PMSS © TÜV SÜD PMSS 2014 Offshore Wind Submarine Cable Spacing Guidance 1 Bureau of Safety and Environmental Enforcement Table of Contents Abbreviations 2 1.
    [Show full text]
  • Development of Submarine MV AC Power Cable With
    B5.2 9th International Conference on Insulated Power Cables B5.2 Development of submarine MV-AC power cable with aluminum conductor Sven MUELLER-SCHUETZE, Heiner OTTERSBERG, Carsten SUHR, Ingo KRUSCHE, Norddeutsche Seekabelwerke GmbH/General Cable, Nordenham, Germany, [email protected], [email protected], [email protected], [email protected] Daniel ISUS FEU, General Cable, Manlleu, Spain, [email protected] ABSTRACT cables due to its very good conductivity. However, the high demand of copper material results in a very high A single armored MV-AC submarine power cable with an market value. This was set to above 6000 $/ton at the aluminum conductor was developed for offshore beginning of April 2015. renewable energy, interconnections between offshore platforms, islands and shore. For the cable design Aluminum has lower conductivity compared to copper process an intended installation in water depths up to 300 resulting in the need to select larger conductor cross m and the application of additional cable protection sections. Despite the larger conductor cross section, cost methods such as rock dumping for on-bottom stabilization reduction is achieved due to the lower material price of were considered. aluminum compared to copper. At the beginning of April 2015 the market value for aluminum was oscillating A type test has been successfully performed on 3x 800 around 1770 $/ton. Due to that market value difference mm² 19/33 (36) kV XLPE submarine power cable with an aluminum is a cost-effective replacement for copper as aluminum conductor. The qualification program was conductor material. During the selection conductor performed under consideration of the CIGRE Electra 171, material, both the electrical and mechanical material CIGRE TB 490, IEC 60502-2 and CENELEC HD620-10C properties were reviewed for all aluminum alloy standards.
    [Show full text]
  • Offshore Wind Submarine Cabling Overview Fisheries Technical Working Group
    OFFSHOREoverview WIND SUBMARINE CABLING Fisheries Technical Working Group Final Report | Report Number 21-14 | April 2021 NYSERDA’s Promise to New Yorkers: NYSERDA provides resources, expertise, and objective information so New Yorkers can make confident, informed energy decisions. Our Vision: New York is a global climate leader building a healthier future with thriving communities; homes and businesses powered by clean energy; and economic opportunities accessible to all New Yorkers. Our Mission: Advance clean energy innovation and investments to combat climate change, improving the health, resiliency, and prosperity of New Yorkers and delivering benefits equitably to all. Courtesy, Equinor, Dudgeon Offshore Wind Farm Offshore Wind Submarine Cabling Overview Fisheries Technical Working Group Final Report Prepared for: New York State Energy Research and Development Authority Albany, NY Morgan Brunbauer Offshore Wind Marine Fisheries Manager Prepared by: Tetra Tech, Inc. Boston, MA Brian Dresser Director of Fisheries Programs NYSERDA Report 21-14 NYSERDA Contract 111608A April 2021 Notice This report was prepared by Tetra Tech, Inc. in the course of performing work contracted for and sponsored by the New York State Energy Research and Development Authority (hereafter “NYSERDA”). The opinions expressed in this report do not necessarily reflect those of NYSERDA or the State of New York, and reference to any specific product, service, process, or method does not constitute an implied or expressed recommendation or endorsement of it. Further, NYSERDA, the State of New York, and the contractor make no warranties or representations, expressed or implied, as to the fitness for particular purpose or merchantability of any product, apparatus, or service, or the usefulness, completeness, or accuracy of any processes, methods, or other information contained, described, disclosed, or referred to in this report.
    [Show full text]
  • Submarine Cables, There's Power Under Water!
    Submarine cables, there's power under water! Marco Marelli, SC B1 Chair (IT) [email protected] Submarine power cables are now among the most important key enablers for the energy transition. Power generation from Renewable Energy Sources (RES) and interconnection among networks are, in fact ,the two main areas where energy links across water is developing massively and – as such – are driving the recent technological evolution. Figure 1 – Laying activities for Submarine cables (source TB 610) In recent years the number and size of installed offshore wind farms have increased rapidly and more and larger farms are being planned. Other types of offshore generation are expected to come in the near future, such as tidal and wave energy generation. Submarine cables are and will be an essential part of this development where they are used as array cables between the generators, as export cables to connect the offshore generation farms with the onshore transmission grid, and even as part of interconnections between different synchronous systems, countries, or price areas . Another important factor for the energy transition is the implementation of a large electrical grid. The number of HVDC interconnectors in the construction stage is larger than ever before. Also, there are many projects in progress at various preliminary stages (planning, studies, …), and they are typically very long and with higher power ratings, thus pushing voltages to new levels with new cable technologies. Typical drivers are the “political” change toward green energy production as well as the differential cost of energy between countries/areas that make viable and desirable the interchange of energy in parallel or in substitution of new generation plants.
    [Show full text]
  • The Norned Hvdc Link – Cable Design and Performance
    ReturnClose and to SessionReturn THE NORNED HVDC LINK – CABLE DESIGN AND PERFORMANCE Thomas WORZYK, ABB Power Systems, Sweden, [email protected] Mats SJÖBERG, ABB Power Systems, Sweden, [email protected] Jan-Erik SKOG, Statnett, Norway, [email protected] Kees KOREMAN, TenneT, The Netherlands, [email protected] ABSTRACT The NorNed link is the longest submarine power cable +450 kV system ever with a distance of 580 km. The bipolar HVDC DC-cable system with ± 450 kV dc represents the state-of-the-art of “classic” HVDC technology while modern production and installation technology helped to push forward the limit of Eemshaven -450 kV Feda HVDC power transmission. This paper describes some of the characteristics of the power cables in the NorNed link. Figure 1. NorNed main circuit configuration KEYWORDS NorNed, HVDC, mass-impregnated cable, submarine cable. CABLE ROUTE INTRODUCTION The challenging cable route includes the following components: The cables for NorNed were supplied by two manufacturers. o Trenched land cable in the Netherlands Technical data given in this paper relate to the cables o Submarine cable in the tidal flats off the Netherlands, supplied from one manufacturer for approx. 70% of the with strict environmental installation requirements, and cable route. risks of moving sands changing the thermal cable ambient o Long portions of flat sea bottom with boulder fields with NORNED HVDC CABLE LINK water depth <100 m The NorNed link connects the Dutch to the Norwegian o The Norwegian trench with up to 400 m of water national power grid. Since these grids belong to different o Steep tunnels in Norway power frequency control areas in Europe (UCPTE and Nordel, resp.) they are asynchronous.
    [Show full text]
  • Submarine Power Cables Submarine Power Cables
    Submarine Power Cables Submarine Power Cables Since decades Nexans‘ plant in Han- The properties of cross-linked poly- a lead sheath. Their construction is nover is specialised in the design, ethylene (XLPE) and ethylene propylene therefore of lighter weight permitting production and installation of low and rubber (EPR) insulated cables longer continuous delivery lengths and medium voltage submarine power cab- Cross linked polyethylene and EPR have easier handling during transportation les required for river or lake crossings, proven as excellent cable insulating com- and laying. The bending radius is power supply to islands and platforms pounds for submarine power cables. small. The solid dielectric and the hea- for offshore oil and gas production and The main reasons are the outstanding vy steelwire armouring are superior to offshore wind mill parks. electrical and mechanical properties of the paper insulated and lead sheathed Numerous successfully completed these materials. Compared to oil filled cables and are much less sensitive to projects with our cables in Europe and paper insulated submarine cables, severe stresses to which submarine cab- overseas have proven the capability of XLPE and EPR insulated cables offer the les are subjected during transportation, Nexans ‘s highly skilled technical staff following advantages: laying and operation. to cope with submarine cable design, • XLPE and EPR are solid dielectrics. They • The main electrical and mechanical production, transportation and laying are maintenance free, no supervision characteristics of XLPE and EPR insula- problems. and control of the oil level in the cable ted medium voltage cables compared The experience gained by Nexans in systems is necessary.
    [Show full text]
  • [email protected] Norned – World's Longest Power Cable J.E
    21, rue d’Artois, F-75008 PARIS B1_106_2010 CIGRE 2010 http : //www.cigre.org NorNed – World’s longest power cable J.E. SKOG H. van ASTEN T. WORZYK T. ANDERSRØD Statnett TenneT ABB Nexans Norway The Netherlands Sweden Norway SUMMARY The NorNed cable was commissioned on 6 May 2008 after three years of intensive engineering and construction. It was important for this efficient implementation that a core project team had been maintained over a relatively long period, preparing all licences, all major supply contracts, etc. The paper will describe the way of detailed engineering, manufacturing and installing altogether 1160 km of high voltage cable, some of it in form of a two core cable and a major part as ordinary single- core cable. The strict magnetic compass deviation requirements as well as environmental concerns related to the magnetic field set up by a single cable led to the special two-core mass-impregnated cable used in the NorNed project. In the northerly deeper part of the cable route ordinary single-core cable was applied. The North Sea is a rough working place and the work scope offshore was far beyond all other known submarine power cable projects. How NorNed managed the resulting challenges is being described. The extensive offshore jointing activities have resulted in experiences which are important for future projects of a similar kind. After having been laid, the cables were protected by water jet trenching over close to 97% of the cable route. The rest, including the crossings, has been given protection by rock dumping. Following successful after installation test NorNed experienced two offshore cable failures and had to mobilise extra vessel spreads in order to get the situation restored.
    [Show full text]
  • Feasibility Analysis of Turkey-North Cyprus Submarine
    FEASIBILITY ANALYSIS OF TURKEY-NORTH CYPRUS SUBMARINE ELECTRIC INTERCONNECTOR CABLE INCLUDING EXTERNALITIES A THESIS SUBMITTED TO THE BOARD OF GRADUATE PROGRAMS OF MIDDLE EAST TECHNICAL UNIVERSITY, NORTHERN CYPRUS CAMPUS BY AHMAD RASHEED IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE IN SUSTAINABLE ENVIRONMENT AND ENERGY SYSTEMS AUGUST 2019 Approval of the Board of Graduate Programs _______________________ Prof. Dr. Gürkan Karakaş Chair person I certify that this thesis satisfies all the requirements as a thesis for the degree of Master of Science. ______________________ Asst. Prof. Dr. Ceren İnce Program Coordinator This is to certify that we have read this thesis and that in our opinion it is fully adequate, in scope and quality, as a thesis for the degree of Master of Science. _______________________ Assoc. Prof. Dr. Murat Fahrioğlu Supervisor Examining Committee Members Assoc. Prof. Dr. Murat Fahrioğlu EEE Program METU NCC __________________ Asst. Prof. Dr. Hayriye Kahveci PSIR Program METU NCC __________________ Assoc. Prof. Dr. Hasan Güngör Dept. of Eco. EMU __________________ DECLARATION I hereby declare that all the information in this document has been obtained and presented in accordance with academic rules and ethical conduct. I also declare that, as required by these rules and conduct, I have fully cited and referenced all material and results that are not original to this work. Name, Surname: Signature : i ABSTRACT FEASIBILITY ANALYSIS OF TURKEY-NORTH CYPRUS SUBMARINE ELECTRIC INTERCONNECTOR CABLE INCLUDING EXTERNALITIES Rasheed, Ahmad M.Sc. Sustainable Environment and Energy Systems Supervisor: Assoc. Prof. Dr. Murat Fahrioğlu August 2019, 78 pages Heavy dependency of electrical industry on fossil fuels have led to overexploitation of natural resources, which causes emission of greenhouse gases and climatic change.
    [Show full text]
  • <I>Teredo</I> Worm and Subsea Umbilicals
    doi:10.3723/ut.33.239 Underwater Technology, Vol. 33, No. 4, pp. 239–243, 2016 www.sut.org The Teredo worm and subsea umbilicals: risks and recommendations Larry Parkes* and Alan Keeble Technical Briefing Technical Received 19 March 2015; Accepted 23 March 2016 Abstract Xylophagainae family are widely dispersed, being The Teredo worm is a bivalve mollusc that is well known for present in every saline ocean basin so far studied. its destructive activity caused by boring into woods under (The Xylophagainae form the deep-sea and high- water. It can also damage subsea cables and many cable latitude ecological replacements of teredinids designs incorporate anti-Teredo protection. The Teredo worm (Voight, 2007).) Currently, the only seas thought is an alien species to many marine environments, but its dis- to be free of wood-borers are the Baltic and Black tribution is increasing. It is, therefore, possible that subsea Seas, where well-preserved shipwrecks have been umbilical failures, specifically in relation to power and/or com- found (Glover et al., 2013). However, it is probable munication transmission in the oil and gas industry, that have that their distribution is increasing; both families previously been fully or partially attributed to Teredo activity, are highly successful alien species with life histo- may increase in the future. This paper reviews some methods ries and responses to waterborne cues that support of detecting impending Teredo-related umbilical failure and movements into new areas (Borges et al., 2014; makes recommendations for future subsea umbilical design. Toth et al., 2015). Protection from the effects of Teredo attacks has Keywords: Teredo worm, subsea umbilicals, design recom- mendations historically involved copper, initially as sheathing over the wooden hulls of ships, where its physical barrier to biomechanical activity was also associated 1.
    [Show full text]
  • Submarine Power Cables and the Marine Environment
    LLM in Natural Resources Law and International Environmental Law Submarine Power Cables and the Marine Environment Legal obligations of the Coastal States in the North-East Atlantic Stefán Erlendsson Dr. Aðalheiður Jóhannsdóttir Faculty of Law School of Social Sciences May 2016 Abstract Submarine Cables have been laid on the seabed since the nineteenth century and have special status according to international law, which provides for the right of all states to lay cables and pipelines on the seabed. Only recently, due to increased number of cables and the cumulative impact adding to other offshore activities, awareness is raised in relation to the impact on the marine environment, which to some extent is not fully understood by scientists. Interconnection of electricity markets and the increase in use of renewable energy sources, such as wind and currents, with offshore power generation, is promoting submarine power cables as important energy infrastructure, in addition to the better known role of carrying telecommunications. This thesis describes the international obligations of the coastal states, in relation to submarine power cable projects, and operation of those in marine areas where coastal states exercise jurisdiction. The main focus is on the protection of the marine environment, while taking into account the importance and special status of such cables. The potential impact is considered and to what extent there may be obligations assess, prevent, manage or mitigate such impact. These obligations are found in the general principles of international law, and in international agreements. Further, the obligations as stipulated in EU law are highlighted, and special attention paid to the approach of the two EFTA states, Iceland and Norway, parties to the EEA Agreement.
    [Show full text]
  • The North Sea Grid
    Energy Proceedings of the Institution of Civil Engineers http://dx.doi.org/10.1680/ener.14.00027 Briefing: The North Sea grid Paper 1400027 Adeuyi and Wu Received 14/09/2014 Accepted 09/03/2015 Keywords: electrical engineering & distribution/offshore engineering/renewable energy Published with permission by the ICE under the CC-BY license. (http://creativecommons.org/licenses/by/4.0/) Briefing: The North Sea grid &1 Oluwole Daniel Adeuyi BSc, MSc, MIET &2 Jianzhong Wu BSc, MSc, PhD, MIEEE, MIET Research Assistant, Institute of Energy, Cardiff University, Reader, Institute of Energy, Cardiff University, Cardiff School of Cardiff School of Engineering, Cardiff, UK Engineering, Cardiff, UK 1 2 It is estimated that ~33 GW of offshore wind capacity will be installed in the North Sea by 2020, and this is expected to increase to 83 GW by 2030. The North Sea grid is a concept that is intended to transfer the electricity generated from offshore wind farms installed in the North Sea to land, interconnect the grids of adjacent countries and facilitate the creation of a European internal electricity market. This briefing note explains the North Sea grid concept and the basic principles of high-voltage direct current submarine power transmission. 1. Introduction losses. In addition, HVDC can interconnect power systems The North Sea grid is a concept that is intended to transfer operating at different frequencies and phase angles. At trans- power generated from offshore wind farms installed in the mission distances beyond 70–80 km and at a voltage of 150kV North Sea to land, interconnect the grids of adjacent and above, HVAC is not practical due to the capacitance and countries and facilitate the creation of a European internal hence charging current of the submarine cable.
    [Show full text]
  • Submarine Cable
    SUBMARINE CABLE Focuses on Precision Manufacturing ZTT GROUP Jiangsu Zhongtian Technology Co., Ltd (ZTT), is a global listed in China”, it was offered a listing on the Shanghai cable and wire manufacturing entity established since Stock Exchange on Oct 24, 2002. (stock code: 600522) 1992. From the start, ZTT entered the cable and wire Progressive accumulation on production experience and industry with a core product of fiber optic cable and has constant upgrading in quality management system has since been famed as the “pioneer” in this industry. ZTT led to rapid growth and plant expansion. ZTT now has 3 has always focus on high-value cable production. With complete production chain of cable and wire. its fame as “the first special optical fiber cable company 01 ZTT sees its business as providing and conforming to industry standard of requirements for the many products it produces. To further enhance each cable product superiority, ZTT also produces accessories for cable installation, protection and termination. Two (2) strategic subsidiary companies were formed to focus on fitting designing, developing and manufacturing including an onsite service team. ZTT has been labelled the “Cable factory with most active R&D” in China; Seven (7) numbers in total: Strategic Development Research Center, Optic Equipment Research Center, Submarine Cable Research Center, Material Research Center, Up-rating Conductor Research Center, Fiber Optics Research Center and New Energy Research Center. These centers has been the continuing source of ZTT’s sustainable growth for innovation development and has now been considered an integral arm of the ZTT Group. Compelling industrial growth and speed of commercial and construction requirements has caused ZTT to spread its wings to 42 oversea offices and 2 manufacturing entity.
    [Show full text]