Renewable Energy Target And Strategy In Denmark
Downloaded from orbit.dtu.dk on: May 13, 2021Renewable energy target and strategy in DenmarkHasager, Charlotte BayPublication date:2015Document VersionPeer reviewed versionLink back to DTU OrbitCitation (APA):Hasager, C. B. (Author). (2015). Renewable energy target and strategy in Denmark. Sound/Visual production(digital)General rightsCopyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyrightowners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. Users may download and print one copy of any publication from the public portal for the purpose of private study or research. You may not further distribute the material or use it for any profit-making activity or commercial gain You may freely distribute the URL identifying the publication in the public portalIf you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediatelyand investigate your claim.
International Workshop on Renewable Energy Resource Mapping10 November 2015Organized by KIER and KNUDaegu, KoreaRenewable energy target and strategy in DenmarkCharlotte Bay HasagerSenior Scientist
Content 2DTU Wind Energy DepartmentWind AtlasesRenewable energy target and strategy in DenmarkThe European contextDTU Wind Energy, Technical University of Denmark
5.4 mio peopleLatitude 56 NWindy climateDTU Wind Energy, Technical University of Denmark
DTU Wind EnergyExperimental siteWind measurements since 1958DTU Wind Energy, Technical University of DenmarkBlade testing fascilityDrivetrain testing fascili
DTU Wind EnergyMeteorologyWind Energy Systems 250 staff membersIncluding 150 academic staffmembers and 50 PhD studentsTest and MeasurementsWind Turbineshttp://www.vindenergi.dtu.dkFluid Mechanics5Aeroelastic designDTU Wind Energy, Technical University of DenmarkComposite and MaterialsMechanicsMaterials Science andCharacterisation
DTU Wind EnergyMeteorology6DTU Wind Energy, Technical University of Denmark
European Wind Atlas 19897DTU Wind Energy, Technical University of Denmark
Wind resource map of Denmark 19998DTU Wind Energy, Technical University of Denmark
Global wind atlas 2015 Released at IRENA global atlas web-site October 2015 Freely available wind energy statistics9DTU Wind Energy, Technical University of Denmark
New European Wind Atlas (2015-2020) NEWA will provide a unified high resolution and freely available dataset of wind energy resource in Europe with a resolution 20-30 metersin at least 10 wind turbine relevant heights.NEWA consists of 30 partners from 8 different European countriesDTU is coordinator10DTU Wind Energy, Technical University of DenmarkPresentation name
DTU Wind EnergyTest and Measurements11DTU Wind Energy, Technical University of Denmark
Wind Energy – Test and measurementsHøvsøre established in 2002Østerild established in 201212DTU Wind Energy, Technical University of Denmark
DTU Wind Energy testing of large wind turbines20158 MWDTU Wind Energy, Technical University of Denmark
International wind turbine standards - IECa) Safety & functional requirementsb) Test methodsc) Certification proceduresd) Interfaces & Componentd)a)b)c)DTU Wind Energy, Technical University of DenmarkIEC TC88: IEC 61400 series:IEC 61400-1 Design requirementsIEC 61400-2 Small wind turbinesIEC 61400-3 Design requirements foroffshore wind turbinesIEC 61400-4 Gears for wind turbinesIEC 61400-(5) Wind Turbine Rotor BladesIEC 61400-11, Acoustic noise measurementtechniquesIEC 61400-12-1 Power performancemeasurementsIEC 61400-13 Measurement of mechanicalloadsIEC 61400-14 Declaration of sound powerlevel and tonalityIEC 61400-21 Measurement of powerquality characteristicsIEC 61400-22 Conformity Testing andCertification of wind turbinesIEC 61400-23 TR Full scale structural bladetestingIEC 61400-24 TR Lightning protectionIEC 61400-25-(1-6) CommunicationIEC 61400-26 TS AvailabilityIEC 61400-27 Electrical simulation modelsfor wind power generation
15DTU Wind Energy, Technical University of Denmark
Wind power share of electricity consumptionDenmarkDenmark set a new world record by reaching a wind powershare of 39% in the domestic power supply.EUThe wind power capacity installed by the end of 2014 would, ina normal wind year, produce 284 TWh of electricity, enough tocover 10% of the EU's electricity consumption.WorldThe wind power installed worldwide can now contribute close to5% of the global electricity demand.16DTU Wind Energy, Technical University of Denmark
Denmark exports wind energy on windy daysOn an unusually windy day (9 July 2015), Denmark found itselfproducing 116% of its national electricity needs from windturbines.Later at night at 3 am, when electricity demand dropped, thatfigure had risen to 140%.Interconnectors allowed 80% of the power surplus to be sharedequally between Germany and Norway, which can store it inhydropower systems for use later. Sweden took the remainingfifth of excess power.17DTU Wind Energy, Technical University of Denmark
9 July 2015 at 10.44 pmJutland - NorwayExports 391MWJutland - SwedenExports 372MW4.850 MWZealand - SwedenImports 169MWBornholm - SwedenImports 12MWSource: Energinet.dk18Jutland - GermanyDTU Wind Energy, Technical University of DenmarkImports138MWZealand - GermanyExports 587MWPresentation name21 Jan 2012
Electricity in Denmark every minutehttp://energinet.dk/19DTU Wind Energy, Technical University of Denmark
Denmark is first mover in wind energyDenmark was the first country to install wind turbines more than 30 yearsago and has been first mover in the wind industry for decades.By 2020, wind power will account for 50% of the electricity supply, accordingto recent government targets.Denmark is a global hub for wind power innovation and development.The Danish wind industry encompass more than 350 companies and employs25.000 people.20DTU Wind Energy, Technical University of Denmark
Denmark wind energy industry Vestas has installed more than 55.000 turbines and achieved 70 GW ofinstalled capacity in 74 countries. Vestas wind turbines cumulatively can produce enough power to coverthe annual electricity consumption of about 75 million Europeanresidential electricity consumers. It is estimated that 90 per cent of the world's offshore wind turbinesare either Danish produced or have Danish developed foundations andcomponents. (dominated by Siemens Wind Power wind turbines)21DTU Wind Energy, Technical University of Denmark
Wind power plans in DenmarkPlan for 50% wind power of annual electricity consumption by 2020.Around 0.5GW onshore and 1.5GW offshore windfarms.22DTU Wind Energy, Technical University of Denmark
Source: .html23DTU Wind Energy, Technical University of Denmark
Danish offshore wind farm :Vattenfall20092014DTU Wind Energy, Technical University of DenmarkSource: mywindpowersystem.comSource:OffshoreWind.biz
New offshore wind farms in Denmark in planningSource: Danish Energy Agency25DTU Wind Energy, Technical University of Denmark
Offshore wind energy statistics in Europe 3,072 offshore turbines are by end of July 2015 installed and gridconnected, making a cumulative total of 10 GW in Europe. Currently 15 commercial wind farms are under construction. Oncecompleted, these wind farms will have a total capacity of over 4 GW.DTU Wind Energy, Technical University of DenmarkESA ResGrow final meeting, 24-25 September 2015
Offshore wind farms in the North SeaSource: 4Coffshore.com27DTU Wind Energy, Technical University of DenmarkPresentation name21 Jan 2012
Offshore wind farm wake: satellite and wake modelCourtesy: CLS using RS2Courtesy: RS2DTU Wind Energy, Technical University of DenmarkC4OffshoreWAsP model: A. PeñA
Offshore wind farms in the North SeaSourceC4OffshoreSource: 4Coffshore.com29DTU Wind Energy, Technical University of DenmarkPresentation name21 Jan 2012
EERADesignToolfarmfordesignOffshoreEERA –DTOCcost optimizedwind farm Cluster (DTOC)Charlotte Bay Hasager, Peter Hauge Madsen, GregorGiebelPeter Hauge Madsen. DirectorCharlotte Hasager. Senior scientistDTU WindDTUEnergyWind Energy, Technical University of DenmarkSupport by
Design tool for offshore wind farm clusters (DTOC)Project visionDTU Wind Energy, Technical University of Denmark
Concept and implementationDTOC GAWAsPWCMSNet-opWRFWRF/ROMSCorWindDTU Wind Energy, Technical University of DenmarkSKIRONVENTOS
Acknowledgements:Invitation from KIER to the ISES Solar World Congress 2015Funding: EERA DTOC (No FP7-ENERGY-2011-1/n 282797)Funding: Global wind atlas (GWA)Funding: New European Wind Atlas (NEWA)Radarsat image: MacDonald, Dettwiler and Associates Ltd.33DTU Wind Energy, Technical University of Denmark
IEC 61400-24 TR Lightning protection IEC 61400-25-(1-6) Communication IEC 61400-26 TS Availability IEC 61400-27 Electrical simulation models for wind power generation . DTU Wind Energy, Technical University of Denmark
1. FOUNDATIONS OF RENEWABLE ENERGY TARGETS 14 1.1 Overview of renewable energy targets at the global level 14 1.2. Brief history of renewable energy targets 17 1.3. Key aspects and definition of renewable energy targets 22 1.4. Theoretical foundations of targets 28 2. MAIN FUNCTIONS AND BASIS FOR RENEWABLE ENERGY TARGETS 31 2.1.
renewable energy sources. The Government has set a very ambitious target of adding 175 GW of renewable energy by 20226. While this is a recent policy announcement, it would be pertinent to highlight the progress of renewable energy sources over the last two decades. The following graph depicts the journey of renewable energy
renewable resources (renewable energy) and sets the FiT rate. The DLs will pay for renewable energy supplied to the electricity grid for a specific duration. By guaranteeing access to the grid and setting a favourable price per unit of renewable energy, the FiT mechanism would ensure that renewable energy becomes a viable and sound long-term
4.0 Renewable Energy Market 4.1 Policy Framework for renewable energy 4.1.1 Policies and Strategies for Renewable Energy Promotion 4.1.2 Main actors 4.1.3 Regulatory Framework 4.1.4 Licensing Procedures for Renewable Energy 4.1.5 Feed-in-Tariff 4.2 Business Opportunities and Potentials of Renewable Energy Sources 4.2.1 Bioenergy 4.2.2 Solar energy
The EU's renewable energy policy framework 5 - 9 Renewable energy support schemes 10 - 12 Renewable energy within the EU's rural development policy framework 13 - 17 Audit scope and approach 18 - 22 Observations 23 - 82 The EU's renewable energy policy framework could better exploit the opportunities of renewable energy deployment in .
NREL is a national laboratory of the U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, operated by the Alliance for Sustainable Energy, LLC. Renewable Energy Certificate (REC) Tracking Systems: Costs & Verification Issues . Jenny Heeter, Renewable Energy Analyst . National Renewable Energy Laboratory . October 11, 2013
Therefore, target 1 has three target drops, i.e., target 1-A-1, target 1-B-1 and target 1-C-2. In this manner we can enumerate all possible target drops from target information. From source and target information we can set all possible assignments, and each of them is composed of a source and sequence of target drops, called a target drop set .
Renewable Energy Group and Phillips 66 have proposed the Green Apple Renewable Fuels, LLC (Green Apple) joint venture to produce renewable fuels near Ferndale, Washington. The projected nameplate capacity for the Green Apple Renewable Fuels facility is 250 MMGY of renewable fuel products. Green Apple is designed to be a multi-feedstock
