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Narec

January 01, 1970

Narec, since 2014 known as the National Renewable Energy Centre, is a part of the Offshore Renewable Energy (ORE) Catapult, a British technology innovation and research centre for offshore wind power, wave energy, tidal energy and low carbon technologies. ORE Catapult's head office is in Glasgow, Scotland. The centre operates multi-purpose offshore renewable energy test and demonstration facilities.[1] It is similar to other centres, such as NREL in the US[2] and National Centre for Renewable Energies [es] (CENER) in Spain. The National Renewable Energy Centre is based in Blyth, Northumberland.

National Renewable Energy Centre
Company typeNot for profit company
IndustryRenewable energy
Energy efficiency
Founded2002
FounderOne NorthEast
Headquarters
Blyth, Northumberland
,
England
Key people
Andrew Jamieson (CEO)
ServicesTesting
Certification
Demonstration
Websiteore.catapult.org.uk

History edit

Originally known as NaREC (New and Renewable Energy Centre), the centre was created in 2002 by One NorthEast, the North East regional development agency, as part of the Strategy for Success programme.[3] In 2010 the organisation changed its name to Narec (National Renewable Energy Centre).[4] In April 2014, the organisation merged with the Offshore Renewable Energy (ORE) Catapult to focus on the development and cost reduction of offshore wind, wave and tidal energy across the UK.[5][6]

The organisation was originally involved in a wide range of technologies, including:

  • Wind (onshore and offshore)
  • Transmission and distribution
  • Photovoltaics
  • Oil and gas
  • Marine renewables
  • Fuel cells
  • Microrenewables
  • Biomass[7]

In 2010, due to UK government cutbacks, Narec closed, sold off or separated parts of the business. Spin-off companies include:

Decerna – Working on energy efficiency, solar farm design, preparation of MW-scale battery sites, grid connection, and life-cycle assessment.[8] The company was renamed from Narec Distributed Energy Limited in 2022.[9][10]

Solar Capture Technologies – Specialises on bespoke and novel solar photovoltaic systems, including off-grid systems.[11] Renamed from Narec Solar in 2013.[12]

NCL Technology Ventures – A specialist healthcare investor,[13] originally created by Narec and Ashberg Limited.[14] Renamed from Narec Capital in 2013.[15]

Renewable Risk Advisers Limited – renamed from Narec Capital Risk Solutions Limited in 2012.[16]

Following its merger with ORE Catapult, the National Renewable Energy Centre now focuses on helping to de-risk and accelerate the development and commercialisation of the offshore renewable energy industry in the UK.

Operations edit

The National Renewable Energy Centre is involved in:

Wind turbine rotor blades edit

Product certification, verification and investigations for the next generation offshore wind turbines.[17][18][19][20]

Power trains and components edit

3MW and 15MW facilities that can perform independent performance and reliability assessments of full systems and components.[21][22]

Electrical networks edit

UKAS accredited laboratories with specialist test and measurement facilities to help develop technologies needed for developing power systems and exploring life extension opportunities for ageing assets.[23]

Subsea trials and demonstrations edit

Controlled onshore salt water location for all stages of technology development.[24]

Resource measurement and assessment edit

Open access facility for testing, calibrating and verifying remote sensor technologies[25]

Closed facilities edit

Clothier High Voltage Laboratory edit

The Clothier Electrical Testing Laboratory was opened in 1970 by A. Reyrolle & Company. Narec took over the facility in 2004, to use it to test the robustness of electrical infrastructure offshore locations to onshore sites.[26]

Although one of the few high voltage testing facilities in the world,[citation needed] the facility was closed by Narec in 2011 due to a lack of government funding.[27] Many parts of the lab were relocated to Narec's main campus in Blyth. The ruins of the original lab are now the property of Siemens.[28]

Current facilities edit

Charles Parsons Technology Centre edit

Built in 2004, this £5m facility contains a low voltage electrical laboratory for the testing of connecting renewable energy systems to the transmission and distribution grid.[29] Some of the equipment and staff from the closed Narec Clothier Electrical Testing Laboratory were moved to this facility.[30]

Training tower edit

This is a 27m high tower, for training of offshore wind technicians.[31]

Dry docks edit

Tests marine devices with three modified dry docks.[32]

Power train test facilities – 3MW and 15MW edit

Facilities that can perform independent performance and reliability assessments of full systems and components.[22][33]

Blade test 1 & 2 edit

The blade testing facilities at National Renewable Energy Centre are designed to test wind turbine blades up to 100m in length. Blades are tested using a Compact Resonant Mass (CRM) system. ORE Catapult is working on a technique of blade testing known as "Dual Axis".[34][35]

European funded research edit

ORE Catapult is involved in a number of European funded research projects including Tidal EC, Optimus and LIFES50+.[36]

Conferences and papers edit

Narec staff have written papers which have appeared in journals and international energy conferences. These are mainly in the subjects of photovoltaics, wind, marine, and electrical infrastructure. A short list of some of these is given below:

  • Snapper, An efficient and compact direct electric power take-off device for wave energy converters.[37]
  • Availability and Estimation of Marine Renewable Energy Resources[38]
  • Marine Renewables: A Development Route Map for the UK[39]
  • Bivariate empirical mode decomposition and its contribution to wind turbine condition monitoring[40]
  • Experimental tests of an air-cored PM tubular generator for direct drive wave energy converters[41]
  • Fatigue testing of wind turbine blades with computational verification.[42]
  • Ensuring Reliability for Offshore Wind – Large Testing Facilities.[43]
  • Accelerating Technology Development for Round 3 Offshore Deployment.[44]
  • Electrical Network Testing & Simulation: An effective method of testing the fault ride through capabilities of Small Scale Distributed Generation[45]
  • Ensuring Reliability for Marine Renewable Drive Train Systems – Nautilus Testing Facilities[46]
  • LGBC Silicon Solar Cell with modified bus bar suitable for high volume wire bonding[47]
  • Process and device modelling for enhancement of silicon solar cell efficiency[48]
  • An intelligent approach to the condition monitoring of large scale wind turbines[49]
  • Lightning Arresters and Substation Protection[50]
  • Study on laser parameters for silicon solar cells with LCP selective emitters[51]
  • Low Cost, 100X point focus silicon concentrator cells made by the LGBC process[52]
  • Laser Grooved Buried Contact Concentrator Solar Cells[53]
  • Studying the Groove Profiles Produced for Fine Line Screen Printed Front Contacts in Laser Grooved Buried Contact Solar Cells.[54]
  • Investigation of cross wafer uniformity of production line produced LGBC concentrator solar cells[55]
  • Process Development of Coloured LGBC Solar Cells for BIPV Applications[53]
  • Process optimisation for coloured laser grooved buried contact solar cells[56]
  • Colour and Shape in Laser Grooved Buried Contact Solar Cells for Applications in the Built Environment[57]
  • Fine-Line Screen Printing in Large Area Laser Grooved, Buried Contact Silicon Solar Cells[58]
  • Progress of the LAB2LINE Laser Grooved Buried Contact Screen Printed Solar Cells Hybrid p-type Monocrystalline Process[59]
  • Development of Laser Fired Contact (LFC) Rear Passivated Laser Groove Buried Contact (LGBC) Solar Cells Using Thin Wafers[60]
  • The LAB2LINE laser grooved buried contact screen printed solar cells hybrid p-type monocrystaline process[61]
  • Integrated process and device 'TCAD' for enhancement of C-Si solar cell efficiency[62]
  • Screen printing in laser grooved buried contact solar cells: The LAB2LINE hybrid processes[63]
  • Surface passivation by silicon nitride in Laser Grooved Buried Contact (LGBC) silicon solar cells[64]
  • Optimisation of the front contact for low to medium concentrations in LGBC silicon solar cells[65]
  • Laser Grooved Buried Contact Solar Cells for Concentration Factors up to 100X[66]
  • Device Design and Process Optimisation for LGBC Solar Cells for Use Between 50X and 100X Concentration[67]
  • Design and Optimisation of Laser Grooved Buried Contact Solar Cells for Use At Concentration Factors Up To 100X[68]
  • Development of Laser Grooved Buried Contact Solar Cells for Use at Concentration Factors up to 100X[69]
  • Front contact modelling of monocrystaline silicon laser grooved buried contact solar cells[70]
  • Laser Grooved Buried Contact Concentrator Cells[71]
  • PC1D modelling of the efficiency of laser grooved buried contact solar cells designed for use at concentration factors up to 100X[72]
  • Front Dicing Technique for Pre-isolation of Concentrator Silicon Solar Cells[73]
  • Environmental sustainability of concentrator PV systems: Preliminary LCA results of the APOLLON project[74]
  • Process development of shape and colour in LGBC solar cells for BIPV applications[75]
  • A summary of the Havemor project – Process development of shaped and coloured solar cells for BIPV applications[76]
  • Process and device modelling for enhancement of silicon solar cell efficiency
  • Technological and Financial Aspects of Laser Grooved Buried Contact Silicon Solar Cell Based Concentrator Systems[77]
  • First results on the APOLLON project multi-approach for high efficiency integrated and intelligent concentrating PV modules (systems)[78]

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External links edit

  • ORE Catapult

January 01, 1970
narec, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, july, 2011, learn, w. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Narec news newspapers books scholar JSTOR July 2011 Learn how and when to remove this message Narec since 2014 known as the National Renewable Energy Centre is a part of the Offshore Renewable Energy ORE Catapult a British technology innovation and research centre for offshore wind power wave energy tidal energy and low carbon technologies ORE Catapult s head office is in Glasgow Scotland The centre operates multi purpose offshore renewable energy test and demonstration facilities 1 It is similar to other centres such as NREL in the US 2 and National Centre for Renewable Energies es CENER in Spain The National Renewable Energy Centre is based in Blyth Northumberland National Renewable Energy CentreCompany typeNot for profit companyIndustryRenewable energy Energy efficiencyFounded2002FounderOne NorthEastHeadquartersBlyth Northumberland EnglandKey peopleAndrew Jamieson CEO ServicesTesting Certification DemonstrationWebsiteore wbr catapult wbr org wbr uk Contents 1 History 2 Operations 2 1 Wind turbine rotor blades 2 2 Power trains and components 2 3 Electrical networks 2 4 Subsea trials and demonstrations 2 5 Resource measurement and assessment 3 Closed facilities 3 1 Clothier High Voltage Laboratory 4 Current facilities 4 1 Charles Parsons Technology Centre 4 2 Training tower 4 3 Dry docks 4 4 Power train test facilities 3MW and 15MW 4 5 Blade test 1 amp 2 5 European funded research 6 Conferences and papers 7 References 8 External linksHistory editOriginally known as NaREC New and Renewable Energy Centre the centre was created in 2002 by One NorthEast the North East regional development agency as part of the Strategy for Success programme 3 In 2010 the organisation changed its name to Narec National Renewable Energy Centre 4 In April 2014 the organisation merged with the Offshore Renewable Energy ORE Catapult to focus on the development and cost reduction of offshore wind wave and tidal energy across the UK 5 6 The organisation was originally involved in a wide range of technologies including Wind onshore and offshore Transmission and distribution Photovoltaics Oil and gas Marine renewables Fuel cells Microrenewables Biomass 7 In 2010 due to UK government cutbacks Narec closed sold off or separated parts of the business Spin off companies include Decerna Working on energy efficiency solar farm design preparation of MW scale battery sites grid connection and life cycle assessment 8 The company was renamed from Narec Distributed Energy Limited in 2022 9 10 Solar Capture Technologies Specialises on bespoke and novel solar photovoltaic systems including off grid systems 11 Renamed from Narec Solar in 2013 12 NCL Technology Ventures A specialist healthcare investor 13 originally created by Narec and Ashberg Limited 14 Renamed from Narec Capital in 2013 15 Renewable Risk Advisers Limited renamed from Narec Capital Risk Solutions Limited in 2012 16 Following its merger with ORE Catapult the National Renewable Energy Centre now focuses on helping to de risk and accelerate the development and commercialisation of the offshore renewable energy industry in the UK Operations editThe National Renewable Energy Centre is involved in Wind turbine rotor blades edit Product certification verification and investigations for the next generation offshore wind turbines 17 18 19 20 Power trains and components edit 3MW and 15MW facilities that can perform independent performance and reliability assessments of full systems and components 21 22 Electrical networks edit UKAS accredited laboratories with specialist test and measurement facilities to help develop technologies needed for developing power systems and exploring life extension opportunities for ageing assets 23 Subsea trials and demonstrations edit Controlled onshore salt water location for all stages of technology development 24 Resource measurement and assessment edit Open access facility for testing calibrating and verifying remote sensor technologies 25 Closed facilities editClothier High Voltage Laboratory edit The Clothier Electrical Testing Laboratory was opened in 1970 by A Reyrolle amp Company Narec took over the facility in 2004 to use it to test the robustness of electrical infrastructure offshore locations to onshore sites 26 Although one of the few high voltage testing facilities in the world citation needed the facility was closed by Narec in 2011 due to a lack of government funding 27 Many parts of the lab were relocated to Narec s main campus in Blyth The ruins of the original lab are now the property of Siemens 28 Current facilities editCharles Parsons Technology Centre edit Built in 2004 this 5m facility contains a low voltage electrical laboratory for the testing of connecting renewable energy systems to the transmission and distribution grid 29 Some of the equipment and staff from the closed Narec Clothier Electrical Testing Laboratory were moved to this facility 30 Training tower edit This is a 27m high tower for training of offshore wind technicians 31 Dry docks edit Tests marine devices with three modified dry docks 32 Power train test facilities 3MW and 15MW edit Facilities that can perform independent performance and reliability assessments of full systems and components 22 33 Blade test 1 amp 2 edit The blade testing facilities at National Renewable Energy Centre are designed to test wind turbine blades up to 100m in length Blades are tested using a Compact Resonant Mass CRM system ORE Catapult is working on a technique of blade testing known as Dual Axis 34 35 European funded research editORE Catapult is involved in a number of European funded research projects including Tidal EC Optimus and LIFES50 36 Conferences and papers editNarec staff have written papers which have appeared in journals and international energy conferences These are mainly in the subjects of photovoltaics wind marine and electrical infrastructure A short list of some of these is given below Snapper An efficient and compact direct electric power take off device for wave energy converters 37 Availability and Estimation of Marine Renewable Energy Resources 38 Marine Renewables A Development Route Map for the UK 39 Bivariate empirical mode decomposition and its contribution to wind turbine condition monitoring 40 Experimental tests of an air cored PM tubular generator for direct drive wave energy converters 41 Fatigue testing of wind turbine blades with computational verification 42 Ensuring Reliability for Offshore Wind Large Testing Facilities 43 Accelerating Technology Development for Round 3 Offshore Deployment 44 Electrical Network Testing amp Simulation An effective method of testing the fault ride through capabilities of Small Scale Distributed Generation 45 Ensuring Reliability for Marine Renewable Drive Train Systems Nautilus Testing Facilities 46 LGBC Silicon Solar Cell with modified bus bar suitable for high volume wire bonding 47 Process and device modelling for enhancement of silicon solar cell efficiency 48 An intelligent approach to the condition monitoring of large scale wind turbines 49 Lightning Arresters and Substation Protection 50 Study on laser parameters for silicon solar cells with LCP selective emitters 51 Low Cost 100X point focus silicon concentrator cells made by the LGBC process 52 Laser Grooved Buried Contact Concentrator Solar Cells 53 Studying the Groove Profiles Produced for Fine Line Screen Printed Front Contacts in Laser Grooved Buried Contact Solar Cells 54 Investigation of cross wafer uniformity of production line produced LGBC concentrator solar cells 55 Process Development of Coloured LGBC Solar Cells for BIPV Applications 53 Process optimisation for coloured laser grooved buried contact solar cells 56 Colour and Shape in Laser Grooved Buried Contact Solar Cells for Applications in the Built Environment 57 Fine Line Screen Printing in Large Area Laser Grooved Buried Contact Silicon Solar Cells 58 Progress of the LAB2LINE Laser Grooved Buried Contact Screen Printed Solar Cells Hybrid p type Monocrystalline Process 59 Development of Laser Fired Contact LFC Rear Passivated Laser Groove Buried Contact LGBC Solar Cells Using Thin Wafers 60 The LAB2LINE laser grooved buried contact screen printed solar cells hybrid p type monocrystaline process 61 Integrated process and device TCAD for enhancement of C Si solar cell efficiency 62 Screen printing in laser grooved buried contact solar cells The LAB2LINE hybrid processes 63 Surface passivation by silicon nitride in Laser Grooved Buried Contact LGBC silicon solar cells 64 Optimisation of the front contact for low to medium concentrations in LGBC silicon solar cells 65 Laser Grooved Buried Contact Solar Cells for Concentration Factors up to 100X 66 Device Design and Process Optimisation for LGBC Solar Cells for Use Between 50X and 100X Concentration 67 Design and Optimisation of Laser Grooved Buried Contact Solar Cells for Use At Concentration Factors Up To 100X 68 Development of Laser Grooved Buried Contact Solar Cells for Use at Concentration Factors up to 100X 69 Front contact modelling of monocrystaline silicon laser grooved buried contact solar cells 70 Laser Grooved Buried Contact Concentrator Cells 71 PC1D modelling of the efficiency of laser grooved buried contact solar cells designed for use at concentration factors up to 100X 72 Front Dicing Technique for Pre isolation of Concentrator Silicon Solar Cells 73 Environmental sustainability of concentrator PV systems Preliminary LCA results of the APOLLON project 74 Process development of shape and colour in LGBC solar cells for BIPV applications 75 A summary of the Havemor project Process development of shaped and coloured solar cells for BIPV applications 76 Process and device modelling for enhancement of silicon solar cell efficiency Technological and Financial Aspects of Laser Grooved Buried Contact Silicon Solar Cell Based Concentrator Systems 77 First results on the APOLLON project multi approach for high efficiency integrated and intelligent concentrating PV modules systems 78 References edit Test amp Demonstration assets Catapult ore catapult org uk Retrieved 8 December 2015 At the Heart of Innovation Archived from the original on 16 February 2008 Strategy For Success Personal Growth Development Inspiration at Strategyforsuccess info Archived from the original on 21 July 2011 OFFSHORE RENEWABLE ENERGY CATAPULT CompaniesInTheUK ORE Catapult and Narec merge reNEWS Renewable Energy News Retrieved 8 December 2015 Narec to merge with Glasgow s Offshore Renewable Energy Catapult journallive Retrieved 8 December 2015 Welcome to NaREC narec co uk Archived from the original on 16 February 2008 About us Decerna 2 September 2022 Retrieved 2 March 2023 Decerna Limited Companies House Retrieved 2 March 2023 Narec Distributed Energy Archived from the original on 15 July 2012 via Internet Archive Solar Capture Technologies Retrieved 2 March 2023 Solar Capture Technologies Limited Companies House Retrieved 2 March 2023 NCL Technology Ventures journallive Administrator 4 July 2011 Narec Capital looking to raise 300m of funding journallive NCL Technology Ventures Companies House Retrieved 16 September 2023 Renewable Risk Advisers Limited Companies House Retrieved 2 March 2023 North American Windpower ETI Invests In Narec Offshore Wind Test Facility nawindpower com 7 July 2011 OneNortheast com Narec reveals plans for giant turbine blade testing facility businessgreen com 14 December 2009 NAREC wig co uk permanent dead link Construction begins on the world s largest wind turbine drive train test facility ETI Retrieved 8 December 2015 a b Samsung to test 7MW offshore turbine at UK s new Narec facility Renewable Energy Focus www renewableenergyfocus com Retrieved 8 December 2015 Catapult lab 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ISBN 978 1 4244 2949 3 S2CID 24693430 External links editORE Catapult Retrieved from https en wikipedia org w index php title Narec amp oldid 1209171012, wikipedia, wiki, book, books, library,

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