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2020 - Cities Renewable Energy Targets

Row numberYear Reported to CDPAccount NumberOrganizationCityCountryCDP RegionAccessRenewable energy or electricity target implementedScaleTypeEnergy / electricity types covered by target (including unit)Base yearTotal renewable energy / electricity covered by target in base yearPercentage renewable energy / electricity of total energy or electricity in base yearTarget yearTotal renewable energy / electricity covered by target in target yearPercentage renewable energy / electricity of total energy or electricity in target yearPercentage of target achievedPlease specify plans to meet the target(s) and in which sector this target will be implementedPopulationPopulation YearCity LocationLast update
601202014874City of Portland, ORPortland, ORUnited States of AmericaNorth AmericapublicYesCity-wideEnergyAll energy consumed (percentage)2017100205036.5036.5The City established a goal in 2017 to meet 100 percent of the community's electric energy needs through renewable energy resources by 2030 and 100 percent of the communities full energy needs with renewable energy by 2050. "renewable energy" includes energy derived from hydrogen, wind power sited in ecologically responsible ways, solar, existing and low-impact hydroelectric, geothermal, biogas (including biogas produced from biomass), and ocean/wave technology sources. These sources of energy can have significant public health and other co-benefits that can help address pressing ecological and environmental justice challenges in sensitive ecosystems and communities in Oregon and around the country; and "Renewable energy" specifically excludes energy derived from fossil fuels, nuclear, biomass feedstocks sourced from state and federal lands, hydrogen produced from fossil fuels, and incineration of municipal and medical waste; and WHEREAS, any forest biomass energy project requires special consideration to ensure that ecosystem health is not harmed, that the project does not result in increased life-cycle carbon emissions, and that air quality and fish habitat is not degraded; and WHEREAS, renewable energy must also be sustainable, both in terms of the conservation of fish and wildlife habitat and in the promotion of human health and racial, environmental, and economic justice, and therefore reliance on existing hydroelectric power requires special consideration to reduce negative ecological impacts to biological systems dependent on the affected watersheds.8118802018{"type"=>"Point", "coordinates"=>[-122.682, 45.52]}2021-07-16T02:25:07.463
602202050792Ville de MonacoMonacoMonacoEuropepublicYesCity-wideEnergyAll energy consumed (in MWh)2007202020Plan Energie climat. Cet objectif concerne à la fois l'intensité énergétique et la consommation énergétique per capita381002019{"type"=>"Point", "coordinates"=>[7.42081, 43.7374]}2021-07-16T02:25:07.463
603202044196Hwaseong Metropolitan GovernmentHwaseong-siRepublic of KoreaEast AsiapublicIntending to undertake in the next 2 years85005020202021-07-16T02:25:07.463
60420208242City of HelsinkiHelsinkiFinlandEuropepublicYesCity-wideElectricityAll electricity consumed (percentage)201500.1203515151The goal or produced electricity on site is from carbon neutral Helsinki action plan. The technological feasibility study showed, that there is a potential for 25% share to be produced on site and 15% goal was seen realistic. Helsinki demands solar power in new plot stipulation assignments and is investing 4,5M€ for solar power in city owned public buildings to speed up production. City owned housing company Heka Ltd. is also putting solar power to all new construction. Heka's application for Elena funding was also approved and this is is speeding up planning of renewable energy and energy efficiency measures in renovations. Helsinki is also starting new renovation programme from beginning of 2021 to encourage private building owners to increase renewable energy and energy efficiency in renovation planning. City owned energy company Helen is also hiring private solar panels for residents, who are not able to build those on site, and is reserving large roofs for this purpose. Helsinki has also opened the energy an climate atlas in 2018 to demonstrate what is the renewable energy potential on roofs. https://kartta.hel.fi/3d/atlas/6553952020{"type"=>"Point", "coordinates"=>[24.941, 60.1733]}2021-07-16T02:25:07.463
605202059644City of Culver City, CACulver CityUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity consumed (in MWh)20190.959520190.95100100In February 2018, the City Council selected 100% renewable power from the Clean Power Alliance (CPA), making it one of the few cities in Los Angeles and Ventura counties to do so. Clean Power Alliance gets its electricity from suppliers that have gone through a rigorous qualification and selection process. These suppliers get their electricity from various generation sources, including solar, wind, hydro, and geothermal.392952018{"type"=>"Point", "coordinates"=>[-118.4, 34.02]}2021-07-16T02:25:07.463
606202035897Municipality of CampinasCampinasBrazilLatin AmericapublicIn progress12040732019{"type"=>"Point", "coordinates"=>[-46.9372, -22.744]}2021-07-16T02:25:07.463
6072020847245Leandro . N. AlemArgentinaLatin Americapublic3136420182021-07-16T02:25:07.463
60820203422Greater London AuthorityLondonUnited Kingdom of Great Britain and Northern IrelandEuropepublicYesCity-wideEnergyTotal installed capacity of renewable energy (in MW)20182030156The Mayor has a target to meet 15% of energy demand by decentralised energy and renewable by 203089080812018{"type"=>"Point", "coordinates"=>[-0.07868, 51.5048]}2021-07-16T02:25:07.463
609202058621Town of BlacksburgBlacksburgUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity produced (percentage)2020100920501001009As a Town we are pursuing PPAs and municipal energy reductions, but we ultimately rely on the State to regulate energy utility policy. We are currently part of a group of VA localities pushing for emissions reductions in the energy sector.446782018{"type"=>"Point", "coordinates"=>[-80.4139, 37.2296]}2021-07-16T02:25:07.463
610202050541City of GreensboroGreensboroUnited States of AmericaNorth AmericapublicYesLocal government operationsEnergyAll energy consumed (percentage)20050202540A 20-year Strategic Energy Plan, including specific steps to meet the targets, is in development. Availability of draft plan anticipated by August 3, 2021.2967102019{"type"=>"Point", "coordinates"=>[-79.792, 36.0726]}2021-07-16T02:25:07.463
611202044191Ansan CityAnsan-siRepublic of KoreaEast AsiapublicIntending to undertake in the next 2 years70738520192021-07-16T02:25:07.463
612202050550City of BuffaloBuffalo, NYUnited States of AmericaNorth AmericapublicIntending to undertake in the next 2 years2586122017{"type"=>"Point", "coordinates"=>[-78.8784, 42.8864]}2021-07-16T02:25:07.463
613202050555City of HamiltonHamiltonCanadaNorth AmericapublicNot intending to undertake5725752018{"type"=>"Point", "coordinates"=>[-79.8661, 43.25]}2021-07-16T02:25:07.463
614202059545City of Charlottesville, VACharlottesvilleUnited States of AmericaNorth AmericapublicDo not know472662019{"type"=>"Point", "coordinates"=>[-78.4767, 38.0293]}2021-07-16T02:25:07.463
615202054498Ayuntamiento de MurciaMurciaSpainEuropepublicYesLocal government operationsElectricityAll electricity produced (in MWh)20202552030600Instalación de plantas fotovoltaicas en cubiertas edificios municipales: Plan de Autoconsumo Municipal. Proponiéndose la redacción y ejecución de un Segundo Plan de Autoconsumo Municipal hasta en el cual también se generen 600.000 kWh/año de energía eléctrica mediante placas solares fotovoltaicas.4532582019{"type"=>"Point", "coordinates"=>[-1.00495, 37.799]}2021-07-16T02:25:07.463
616202031150Bangkok Metropolitan AdministrationBangkokThailandSoutheast Asia and OceaniapublicNot intending to undertake84208872016{"type"=>"Point", "coordinates"=>[100.556, 13.7712]}2021-07-16T02:25:07.463
617202044077Kampala CityKampalaUgandaAfricapublicIntending to undertake in the next 2 years163121020182021-07-16T02:25:07.463
6182020834374Tagum CityPhilippinesSoutheast Asia and OceaniapublicIn progress25944420152021-07-16T02:25:07.463
6192020848476Municipalidad de CañasCosta RicaLatin AmericapublicDo not know2620120112021-07-16T02:25:07.463
620202054113City of FlagstaffFlagstaffUnited States of AmericaNorth AmericapublicYesCity-wideOther, please specify: Proportion of community electricity use from renewables to be 100% by 2050201712205010012Local solar installations, cogeneration unit, solar thermal installations, wind energy, hydroelectric from Hoover Dam.750382019{"type"=>"Point", "coordinates"=>[-111.631, 35.1992]}2021-07-16T02:25:07.463
621202055800City of CambridgeCambridge, MAUnited States of AmericaNorth AmericapublicYesCity-wide200020201096942014{"type"=>"Point", "coordinates"=>[-93.3273, 45.601]}2021-07-16T02:25:07.463
622202050154City of TurkuTurkuFinlandEuropepublicYesCity-wideEnergyOther, please specify: Carbon neutral public transport19900020295059310013Developing public transport and increasing its use is important for reducing greenhouse gas emissions caused by mobility. At the same time, reducing emissions caused by growing public transport is a significant and exemplary climate measure.• Public transport in Turku will be turned into a carbon neutral service by 2029. In terms of urban traffic in Turku, carbon neutrality will be reached already by 2025.• Electrification of lines proceeds in the pace enabled by technical development and competitive tendering and electrification is complemented with biofuel solutions. • The service capacity of public transport will be significantly improved in order to implement the strategic carbon neutrality objective of the City of Turku and to support sustainable and attractive urban development.– Carbon neutral public transport system of large capacity (separate decision)– Improved public transport services (trunk routes, route planning, guaranteed transfer, smart buses and systems)– The use of public transport will be significantly promoted by means of urban and traffic planning– The public transport service will be subject to active communication and its use will be supported with campaigns and spreading of information.– Public transport is a strong and natural part of trip chains and development and implementation of Mobility as a Service concepts. Innovative businesses and developers have a significant role as solution makers.1930002019{"type"=>"Point", "coordinates"=>[22.2666, 60.4518]}2021-07-16T02:25:07.463
6232020843399Wandsworth CouncilUnited Kingdom of Great Britain and Northern IrelandEuropepublicNot intending to undertake33250020202021-07-16T02:25:07.463
624202060274Prefeitura de Cruzeiro do SulCruzeiro do SulBrazilLatin AmericapublicDo not know883762019{"type"=>"Point", "coordinates"=>[-72.6761, -7.62799]}2021-07-16T02:25:07.463
625202054667Prefeitura Municipal de ContagemContagemBrazilLatin AmericapublicDo not know65907020182021-07-16T02:25:07.463
626202073668MalabrigoArgentinaLatin Americapublic762020182021-07-16T02:25:07.463
627202043910City of ColumbusColumbusUnited States of AmericaNorth AmericapublicYesLocal government operationsElectricityAll electricity consumed (in MWh)20154562015.9202063898200Beginning in June, 2018, Columbus Municipal Power began sourcing 20% of its electricity from renewable energy sources (or offset via RECs) for streetlights and facilities, and the City began purchasing 50% of its electricity for facilities from renewable sources through AEP Ohio. Beginning January 1, 2019, Columbus Municipal Power began purchasing 50% of its electricity need for streetlights and facilities from renewable sources (or offset by RECs), and the City maintained a 50% purchase level of electricity from renewable sources via AEP Ohio for its facilities. It is estimated that renewable sources of electricity will provide electricity for 48% of the City's operational demand in 2019. In addition, a Renewable Energy Study was begun in spring, 2019, with intention to add renewable energy to city-owned properties and to explore 100% renewable energy by 2050.9222232020{"type"=>"Point", "coordinates"=>[-82.9988, 39.9612]}2021-07-16T02:25:07.463
628202049389KyotoKyotoJapanEast AsiapublicYes146121820202021-07-16T02:25:07.463
629202074508City of Winona, MNWinonaUnited States of AmericaNorth AmericapublicYes265942019{"type"=>"Point", "coordinates"=>[-91.6663, 44.0554]}2021-07-16T02:25:07.463
630202031170Metropolitan Municipality of LimaLimaPeruLatin AmericapublicIn progress94854052017{"type"=>"Point", "coordinates"=>[-77.0283, -12.0433]}2021-07-16T02:25:07.463
6312020831618Yaoundé 4Yaoundé 4CameroonAfricapublicYesCity-wideElectricityAll electricity consumed (percentage)20189935.9520306020Ce chiffre n'implique pas les ménages ayant accès illégalement au réseau électrique. Le gap pour ceux ayant accès illégalement au réseau est de 59,05%. Les actions retenues visent ainsi à amener ces 59,05% de ménages à pouvoir accéder à l'énergie à travers des mesures incitatives réglémentaires, financières et opérationnelle (construction d'un méthaniseur industriel). Le barrage de Memvele d'une capacité de 211 MW lancé par le Gouvernement camerounais, ainsi que les projets de méthaniseur industriel et de centre de traitement des déchets prévus au sein de la commune contribueront à l'atteinte de cette cible.7925462018{"type"=>"Point", "coordinates"=>[11.5167, 3.8667]}2021-07-16T02:25:07.463
632202060140City of NakuruNakuruKenyaAfricapublicIn progress20389452019{"type"=>"Point", "coordinates"=>[36.08, -0.30309]}2021-07-16T02:25:07.463
633202060110Municipality of ChişinăuMunicipality of ChişinăuRepublic of MoldovaEuropepublicNot intending to undertake255000020202021-07-16T02:25:07.463
634202050680Município de CascaisCascaisPortugalEuropepublicYesCity-wide2030Following the objective of increasing the share of renewable energy by at least 20% by 2020; Cascais continues to be aligned with the Covenant of Mayor's goals for 2030. The target is to reduce CO2 emissions by at least 40% by 2030, through improved energy efficiency and greater use of energy sources renewable. Meeting this target is part of the municipal plan for decarbonisation and will be achieved through leveraging innovative projects such as smart grids, electric vehicles and decentralised renewable energy production or new public lighting systems and energy optimization of public buildings and residential areas. Energy mix accounting is calculated at the national level:http://www.edpsu.pt/pt/origemdaenergia/Pages/OrigensdaEnergia.aspx2124742018{"type"=>"Point", "coordinates"=>[-9.42229, 38.697]}2021-07-16T02:25:07.463
635202054311Thane Municipal CorporationIndiaSouth and West Asiapublic228169220182021-07-16T02:25:07.463
636202045219Município de AparecidaAparecidaBrazilLatin AmericapublicIntending to undertake in the next 2 years362792017{"type"=>"Point", "coordinates"=>[-41.6667, -20.7]}2021-07-16T02:25:07.463
6372020834406Municipality of San Pedro TlaquepaqueMexicoLatin AmericapublicIntending to undertake in the next 2 years66419320152021-07-16T02:25:07.463
638202031117City of TorontoTorontoCanadaNorth AmericapublicYesCity-wideEnergyOther, please specify: By 2050, 100 per cent of energy will come from renewable or low-carbon sources20162050100Percentage of community-wide energy derived from renewable or low-carbon currently: 25% Low-carbon and 17% Renewable1. Advancement on Community Energy Planning: maximize the potential for Community Energy Planning preparation and implementation for all new major developments and revitalization areas, exploring net-zero CEPs whenever possible2. Advance low-energy/renewable district energy networks: significantly scale up the development of thermal energy networks and map low carbon/renewable energy sources across Toronto3. Create a renewable energy strategy: Advance the city-wide adoption of clean, renewable energy technologies such as solar PV, wind and geo-exchange through a comprehensive long term strategy developed with industry stakeholders. The Renewable Energy Strategy helps identify successful business models and related business cases for various energy systems. It also helps develop the supply chain in the Toronto area through the creation of an industry asset cluster management organization, and identifying big ideas to maximize local energy use. Toronto Hydro Renewable Electricity: https://www.torontohydro.com/documents/20143/295817/Environmental-Performance-Report-2018.pdf29199712018{"type"=>"Point", "coordinates"=>[-79.3832, 43.6532]}2021-07-16T02:25:07.463
639202050220Métropole Nice Côte d'AzurNiceFranceEuropepublicYesCity-wideEnergyAll energy produced (in MWh)2016959000920302168000309PV solar: 300 GWh by 2030Hydraulics: 817 GWh by 2030 Wood energy: 300 GWh by 20305400002016{"type"=>"Point", "coordinates"=>[7.26195, 43.7102]}2021-07-16T02:25:07.463
640202054349Balikpapan City GovernmentIndonesiaSoutheast Asia and OceaniapublicIntending to undertake in the next 2 years6551782019{"type"=>"Point", "coordinates"=>[116.831, -1.26539]}2021-07-16T02:25:07.463
641202054513Municipality of UppsalaUppsalaSwedenEuropepublicYesLocal government operations2014293000202010049Categories don't apply: Target only covers heating. Base year refers to year target was adopted. Target: "The energy supply for heating is based on renewable energy sources or climate neutral production by 2020." The heating for local operations is mainly made up by district heating. Stand alone oil boilers have been phased out, only two remains (2018), but is planned to be phased out in near time. The local district heating company (Vattenfall Heat Uppsala) has ambition to become 100 % renewable to about 2030, where a big shift comes in 2020/21, where a new biofuel-based plant is built to replace the former peat-based plant. Until then there is an option to buy "climate neutral (compensated) district heating". In 2018 the renewable share of district heating was 49 %.2307672019{"type"=>"Point", "coordinates"=>[17.635, 59.8536]}2021-07-16T02:25:07.463
642202054265City of NewcastleNewcastleAustraliaSoutheast Asia and OceaniapublicYesLocal government operationsElectricityAll electricity consumed (in MWh)200800202013092100100This target has been achieved as of 1 January 2020. Renewable energy Power Purchase Agreement, which covers the electricity consumption of all Council assets.16557120192021-07-16T02:25:07.463
643202043930The HagueThe HagueNetherlandsEuropepublicYesCity-wideOther, please specify: Terrajoule20133691.42020493201.9Study the feasibility of geothermal energy in the different neighbourhoods (10 to 15) and begin the transition to gas-free housing with collaboration of housing corporations, businesses, citizens, amongst others. Encourage the installation of solar panels and utilize their capacity. Study the feasibility of retrofitting Uniper's gas power plant with a biomass digester and turbines .5468472020{"type"=>"Point", "coordinates"=>[4.3007, 52.0705]}2021-07-16T02:25:07.463
644202031114City of SydneyCity of SydneyAustraliaSoutheast Asia and OceaniapublicYesLocal government operationsElectricityAll electricity produced (in MWh)200533121020212000010020Purchase of 100% offsite renewables to match the City's total net electricity consumption (note that mandatory RECs will be surrended 25,000 less 20%)2496762019{"type"=>"Point", "coordinates"=>[151.207, -33.8675]}2021-07-16T02:25:07.463
645202074680City of IasiIasiRomaniaEuropepublicIn progress7935592019{"type"=>"Point", "coordinates"=>[27.35, 47.1]}2021-07-16T02:25:07.463
6462020847243MaggioloArgentinaLatin Americapublic206220162021-07-16T02:25:07.463
647202073754PanajiIndiaSouth and West Asiapublic4001920112021-07-16T02:25:07.463
648202037241City of BerkeleyBerkeleyUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity consumed (in MWh)2035100Mayor Jesse Arreguin announced a goal in 2018 for Berkeley to reach 100% renewable electricity citywide by 2035.12164320182021-07-16T02:25:07.463
6492020839672Municipalidad Distrital de La MolinaPeruLatin AmericapublicDo not know14067920172021-07-16T02:25:07.463
650202035872Municipality of RecifeRecifeBrazilLatin AmericapublicYesLocal government operationsElectricityAll electricity consumed (percentage)2018202520371001003O Projeto Recife Cidade da Eficiência Energética (RCEE) visa a implementação de painéis fotovoltaicos em todos os prédio públicos próprios da prefeitura do Recife. A capital pernambucana foi selecionada para participar do ICLEI LEDS Lab, com o piloto para instalação de placas fotovoltaicas no Hospital da Mulher do Recife (HMR) apresentado na Semana do Clima da América Latina e Caribe, em Salvador em 2019. O projeto contempla equipamentos públicos nas áreas da saúde, da educação, do esporte e no edifício-sede da Prefeitura. O orçamento total previsto do RCEE é de R$ 90 milhões sendo a instalação das placas fotovoltaicas no HMR orçada em R$ 10 milhões. Com payback previsto de 6 anos.Na saúde, o projeto contempla as Upinhas, as Unidades de Saúde da Família e o Hospital da Mulher do Recife (HMR). Esta última é a primeira unidade de saúde de grande porte construída numa gestão municipal, tendo 30 mil m2, 150 leitos e 12 especialidades médicas. Será justamente nela a primeira ação do projeto RCEE, representando o modelo de produção e consumo de energia a partir de fontes limpas e renováveis e do enfrentamento à mudança climática.O projeto foi concebido em decorrência da projeção do aumento do consumo energético do Recife, com previsão de crescimento de até 88,4% entre os anos de 2014-2030. Como consumo de energia e emissão de gases de efeito estufa (GEE) estão diretamente relacionados, ou seja, mais consumo mais emissão. Estima-se um crescimento de 55,7% das emissões de GEE associadas a consumo energético na cidade. Segundo o último Inventário de GEE da Cidade do Recife, das emissões decorrentes do consumo de energia elétrica por parte do Governo Municipal, 23,7% são provenientes das edificações da administração pública. Diante de tais dados o projeto RCEE baseia suas diretrizes no Plano de Redução de Emissões de Gases do Efeito Estufa, desenvolvido entre 2013 e 2016 em conjunto pela PCR e pelo ICLEI.16457272019{"type"=>"Point", "coordinates"=>[-34.8829, -8.05783]}2021-07-16T02:25:07.463

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Profile Picture Amy Bills

created Sep 1 2020

updated Jul 16 2021

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This data is collected through the CDP-ICLEI Unified Reporting System. When using this data, please cite both organisations using the following wording: ‘This data was collected in partnership by CDP and ICLEI - Local Governments for Sustainability’.
The dataset contains public data on cities' renewable energy targets as reported by cities in 2020. View cities questionnaire guidance https://www.cdp.net/en/guidance/guidance-for-cities. Please contact cities@cdp.net if you have any questions.

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