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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
551202058597Municipalidad de La UniónLa UniónCosta RicaLatin AmericapublicNot intending to undertake1125082020{"type"=>"Point", "coordinates"=>[-83.9833, 9.91667]}2021-07-16T02:25:07.463
552202073669San Luis ObispoUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity consumed (in MWh)2005251312915202023403565897100On January 1, 2020, the City began receiving carbon-free electricity from Central Coast Community Energy (formerly known as Monterey Bay Community Power). The City assumes an opt-out rate of 3%. Please note that this is not included in the 2016 inventory since those emissions were calculated prior CCCE/MBCP and therefore reflect the PG&E emissions coefficient. Please also note that the emissions coefficient is available for 2005, as verified by CCAR and TCR and PG&E, but the power content disclosure is not available.4711720162021-07-16T02:25:07.463
553202054348The Local Government of Quezon CityQuezon CityPhilippinesSoutheast Asia and OceaniapublicIntending to undertake in the next 2 years31124362020{"type"=>"Point", "coordinates"=>[120.862, 15.6835]}2021-07-16T02:25:07.463
554202074558Summit County, UTUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity consumed (in MWh)29448610020302944861001Community Renewable Energy Program legislation enacted by State Legislature in 2019 that requires utility to provide net 100% renewable electrical energy to communities in Utah who adopt resolutions stating goal to transition to net 100% renewable energy by 2030. 22 communities, utility and regulatory agencies presently developing administrative details and rate renewable energy rate structure for the renewable energy customers in the utility's service area.4214520192021-07-16T02:25:07.463
555202054613Alcaldia de ValdiviaValdiviaChileLatin AmericapublicDo not know16608020172021-07-16T02:25:07.463
5562020841964City of Hallandale Beach, FLHallandale BeachUnited States of AmericaNorth AmericapublicIntending to undertake in the next 2 years371132010{"type"=>"Point", "coordinates"=>[-80.1484, 25.9812]}2021-07-16T02:25:07.463
557202073713San MiguelArgentinaLatin AmericapublicNot intending to undertake28736020182021-07-16T02:25:07.463
5582020848127Santa Bárbara (Costa Rica)Costa RicaLatin AmericapublicNot intending to undertake4277820202021-07-16T02:25:07.463
559202074575Dane CountyUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity consumed (in MWh)201715203041591878315Our CAP sets a goal of meeting one third of all of the electric usage/demand in the county with solar power by 2030 and one half of all the demand with wind power by 2030.54240020182021-07-16T02:25:07.463
560202058591City of Greenbelt, MDUnited States of AmericaNorth Americapublic2300020102021-07-16T02:25:07.463
5612020841492Tawau Municipal CouncilMalaysiaSoutheast Asia and Oceaniapublic49920020172021-07-16T02:25:07.463
562202036492Comune di ParmaParmaItalyEuropepublicIn progress1983482020{"type"=>"Point", "coordinates"=>[10.3279, 44.8015]}2021-07-16T02:25:07.463
5632020849016Concepción del UruguayArgentinaLatin Americapublic7904520182021-07-16T02:25:07.463
564202054519City of LundLundSwedenEuropepublicYesLocal government operationsEnergyAll energy consumed (percentage)201591202010098All energy sectors. Percentage 2019 and (2015) Electricity 100 (100) and heating and cooling were 100 (94) renewable. Fuel for transport was 91 (47) renewable and other travel (air, train, bus etc. ) was 47 (19) renewable. In total this means that energy use in kWh was 98 (91) renewable. In 2015 we started a project with our neighbouring municipalities and the regional administration to reach the goal. We are now focusing on transport, travel and heavy vehicels. The greatest improvement so far is fuel, and through change of vehicles (including bikes) that we are leasing or owning we think we will reach almost 100% this year. We are also focusing on digital meetings, wich was our plan before the pandemic but has been enhanced by it.12493520192021-07-16T02:25:07.463
5652020840529Ayuntamiento de Victoria (Tamaulipas)MexicoLatin AmericapublicIntending to undertake in the next 2 years34602920152021-07-16T02:25:07.463
566202050154City of TurkuTurkuFinlandEuropepublicYesCity-wideEnergyOther, please specify: Low carbon sustainable mobility19900020293933265013Active mobility and development of public transport have an important role in the implementation of a carbon neutral Turku. Simultaneously, they have a positive impact on the healthiness and safety of urban environment, the physical and psychological wellbeing of citizens and quality of life. New mobility solutions also represent a significant development target and platform for innovations and business.The share of walking, cycling and public transport will be increased through active measures in accordance with objectives of Master plan 2029. The objective for the share of sustainable means of transport according to Turku master plan and the Structural Model 2035 for the Turku Urban Region is over 66 per cent in 2030.Simultaneously, efforts will be made to reduce greenhouse gas emissions caused by street and road traffic by 50 per cent from the level in 2015 by the year 2029. National level targets and measures support meeting the objectives of Turku. • In order to meet the objective of carbon neutrality, Turku actively creates sustainable mobility culture that includes old and new sustainable means of mobility and smart technical and digital solutions that facilitate mobility.• Cycling and walking conditions are significantly improved around the year and citizens are encouraged to actively engage in exercise in everyday life and free time. Cycling significantly affects wellbeing and health, and the benefits of cycling and active exercise will be promoted variedly. A development programme for cycling is implemented methodically and sufficient resources are allocated for it.• Car traffic emissions are reduced by investing in electric motoring and developing adequate conditions for it. Investments are also made into other emission-free and / or low emission sources of energy and new alternative means of transport such as electric bicycles and automatic tools of transport.• Investments in Mobility as a Service solutions help renew means of transport and steer the market towards lower emissions. Simultaneously, development of new innovations based on digitality is supported and market is created for them.• Low emission logistics will also be developed in the area with the help of smart digital solutions.1930002019{"type"=>"Point", "coordinates"=>[22.2666, 60.4518]}2021-07-16T02:25:07.463
567202054603Alcaldia de PastoPastoColombiaLatin AmericapublicIntending to undertake in the next 2 years45567820152021-07-16T02:25:07.463
568202060369Alcaldía Municipal de ArmeniaColombiaLatin AmericapublicDo not know30122620182021-07-16T02:25:07.463
569202053921City of Tempe, AZTempeUnited States of AmericaNorth AmericapublicYesLocal government operationsEnergyAll energy consumed (percentage)20181001020354010010Solar projects installed at city facilities and the city will partner with local utilities on utility scale solar projects.1923642018{"type"=>"Point", "coordinates"=>[-111.94, 33.4255]}2021-07-16T02:25:07.463
570202060117Winchester City CouncilWinchesterUnited Kingdom of Great Britain and Northern IrelandEuropepublic12410020172021-07-16T02:25:07.463
571202016581City of SeattleSeattleUnited States of AmericaNorth AmericapublicYesCity-wide202016090001552The Energy Independence Act, known as Initiative 937, was approved by voters in 2006. It requires state electric utilities serving 25,000 or more customers to obtain at least 15 percent of their electricity from new renewable resources by 2020 and undertake all cost-effective energy conservation.For energy conservation, I-937 requires each covered utility to identify its achievable, cost-effective conservation potential over a 10-year period, starting in 2010-2011. Utilities must update those assessments at least every two years.Seattle City Light is meeting or exceeding each of these requirements. For 2010-2011, City Light's energy conservation target was 172,397 megawatt-hours. City Light achieved 267,813 megawatt-hours of energy savings, exceeding the target by 55 percent.On the new renewable energy front, City Light has contracts in place to meet I-937's escalating requirements through 2019, measured in terms of renewable energy credits. One credit is created for every megawatt-hour of new, renewable energy produced. In 2020, City Light's target rises to 1,609,000 renewable energy credits. City Light has 836,000 renewable energy credits in place for 2020 and has eight years before that deadline to acquire the rest.7043522016{"type"=>"Point", "coordinates"=>[-122.332, 47.6062]}2021-07-16T02:25:07.463
572202031149City of AthensAthensGreeceEuropepublicYesCity-wideElectricityTotal installed capacity of renewable electricity (in MW)20142020302011Installation of PV on roofs of municipal and residential buildings (approx. 4.000 installations of 5KWp)6640462011{"type"=>"Point", "coordinates"=>[23.7275, 37.9838]}2021-07-16T02:25:07.463
573202044081Lusaka City CouncilLusakaZambiaAfricapublicIn progress336018320202021-07-16T02:25:07.463
574202050681Município de FunchalFunchalPortugalEuropepublicDo not know1118922011{"type"=>"Point", "coordinates"=>[-16.9241, 32.6669]}2021-07-16T02:25:07.463
5752020834259Municipality of LobosArgentinaLatin Americapublic3923920182021-07-16T02:25:07.463
576202073749NagpurIndiaSouth and West AsiapublicYesLocal government operations201968985100201957501000By the end of 2019, NMC will be generating 68985000 units/annum through rooftop solar (SPV systems) i.e. 68985000 kg of carbon emission will be reduced.Promoting wind-solar hybrid systems and solar power installations (rooftop PV, water heaters, streetlights)Uptill now about 3000 solar water heaters have been provided by NMC to citizens of Nagpur City @50% subsidy which in turn have transfered the load of 9000 kW from conventional to non conventional energy.As far as rooftop SV system : 42 MW SPV systems will be installed at each and every location where NMC is consuming conventional energy which includes streetlights, office buildings, hospitals, schools, water pumping stations, sewage treatment plants etc and 68985000 units /annum will be generated.240566520112021-07-16T02:25:07.463
577202054692Prefeitura Municipal de SertãozinhoSertãozinhoBrazilLatin AmericapublicDo not know1258152019{"type"=>"Point", "coordinates"=>[-47.9947, -21.1451]}2021-07-16T02:25:07.463
5782020834373Town of York, MEUnited States of AmericaNorth AmericapublicNot intending to undertake1315120182021-07-16T02:25:07.463
579202042388Intendencia de MontevideoMontevideoUruguayLatin AmericapublicNot intending to undertake13834321342020{"type"=>"Point", "coordinates"=>[-58.2987, -34.7112]}2021-07-16T02:25:07.463
580202054034City of Grand RapidsGrand RapidsUnited States of AmericaNorth AmericapublicYesLocal government operationsElectricityAll electricity consumed (percentage)2206434737202510037Our current renewable energy portfolio is made up by three components. First, our smallest component is our solar array at our Environmental Services building . Secondly, we purchase renewable energy credits as part of a program through our utility, Consumers Energy. Lastly, we break out a chunk of the remaining conventional electricity we purchase from Consumers Energy and apply our states renewable energy requirement (RPS). In 2019, Grand Rapids municipal operations serving Grand Rapids-based residents and institutions consumed a total of 59.5 million kWh (the proportional amount of electricity consumed by our two water utilities to serve customer communities outside of Grand Rapids proper is subtracted out of our renewable energy use baseline). Of the total electricity supplied, 37% came from renewable resources – 28% coming from the Green Generation program, 9% from Consumers as part of the statewide Renewable Portfolio Standard, and 0.2% from a small solar array at a City facility. Our goal is to achieve 100% renewable energy by 2025. We are currently evaluating what our energy consumption may look like for 2020.There are multiple projects in the construction and planning process. Our bio-digester located at our wastewater treatment plant (WRRF) is currently under construction and will provide both renewable energy to our organization and also renewable natural gas (RNG) to our gas provider, DTE Energy. We are investigating solar at a city owned landfill and at our Water Plant of our city sites through a joint program with SolSmart and NREL. The assessments will guide our solar strategy in the future. We are looking to release a RFP for solar to help the City meet its renewable energy goal.20101320192021-07-16T02:25:07.463
581202058310City of RoanokeRoanokeUnited States of AmericaNorth Americapublic999202018{"type"=>"Point", "coordinates"=>[-79.9414, 37.271]}2021-07-16T02:25:07.463
582202020113City of VancouverVancouverCanadaNorth AmericapublicYesCity-wideEnergyAll energy consumed (in MWh)2014165000003220501100000010032Vancouver’s Renewable City Strategy has set a target to derive 100% of Vancouver’s energy use from renewable sources before 2050. This encompasses community-wide energy use in buildings and transportation and envisions a shift to renewable electricity, biofuels, and neighbourhood energy systems. Total target-year energy total given (11,000,000 MWh) is an economically modelled figure based on energy prices and expected demands based on City policy. The final total includes BAU growth component, offset by significant efficiency improvements and increases in renewables supply and use.6480002019{"type"=>"Point", "coordinates"=>[-123.114, 49.2612]}2021-07-16T02:25:07.463
583202060216City of VäxjöVäxjöSwedenEuropepublicYesCity-wideEnergyAll energy consumed (in MWh)1993691069332030230000010067Phasing out peat from heat and Power production is a major step that increases the share of renewables used in residential, industrial, Commercial and public sectors. This was carried out in December 2019. Producing more Power on local level will also make Växjö less dependent on "Swedish electricity" which has a relatively high share of nuclear Power.However, for the transport sector, there is still 75% fossil fuels. There we depend much on fuel companies and vehicle producers to succeed.925672018{"type"=>"Point", "coordinates"=>[14.8091, 56.8777]}2021-07-16T02:25:07.463
584202060414Municipalidad Venado TuertoArgentinaLatin Americapublic8152220162021-07-16T02:25:07.463
585202031163Istanbul Metropolitan MunicipalityIstanbulTurkeyEuropepublicYesLocal government operations201860.27In the scope of renewable energy works, the planned Hasdal Solar Power Plant (5 MWp + 9 MWp installed capacity) project required for the relevant institution applications have been made and the application is expected to be finalized.155192672019{"type"=>"Point", "coordinates"=>[28.9784, 41.0082]}2021-07-16T02:25:07.463
586202059631City of San Leandro, CASan LeandroUnited States of AmericaNorth AmericapublicIntending to undertake in the next 2 years905532019{"type"=>"Point", "coordinates"=>[-122.156, 37.7249]}2021-07-16T02:25:07.463
587202054329Bogor City GovernmentBogorIndonesiaSoutheast Asia and OceaniapublicNot intending to undertake10486102020{"type"=>"Point", "coordinates"=>[106.806, -6.5971]}2021-07-16T02:25:07.463
588202074643Dijon métropoleFranceEuropepublicYesCity-wideEnergyAll energy produced (in MWh)2010144000220501658000697La trajectoire 2050 a été construite sur les mêmes bases méthodologiques que la trajectoire régionale, ce qui garantit les cohérences entre elles.Elle s’est aussi appuyée sur le PLUi-HD, en reprenant un certain nombre de données, notamment concernant l’évolution de la population à 2030, etc.Sur Dijon Métropole, ces objectifs incluent une réduction des consommations énergétiques du territoire de 59%, couplée à un objectif de 69% de l'énergie produite d'origine renouvelable.Les objectifs de production d'énergies renouvelables ont été identifiés via les outils suivants :- Électricité renouvelable : l'objectif de production attendu pour 2050 est de 716 000 MWh, dont 700 000 MWh d'origine photovoltaïque.- Chaleur renouvelable : l'objectif de production attendu pour 2050 est de 942 000 MWh, dont 422 000 MWh produits par la biomasse solide- Biogaz et biocarburants : l'objectif de production attendu pour 2050 est de 212 000 MWh d'origine biométhanique.25793320192021-07-16T02:25:07.463
589202044185Suwon CitySuwonRepublic of KoreaEast AsiapublicYesCity-wideElectricityAll electricity produced (in MWh)2016283774.1202173043106Suwon's energy goal uses several indicators. We aim to reduce the self-sufficiency rate from 12.7% to 18%, the rate of renewable energy supply from 4.1% to 10%, and the final energy consumption from 2,656,000 TOE to 2,523,000 TOE. Through the establishment of a basic plan for regional energy, Suwon has selected and promoted 21 unit projects in five strategic areas: industrial, public, commercial, household, and transportation. In the public sector, the installation of sunlight power plants and sunlight stations will be expanded, and the installation of renewable energy in schools will be expanded. In addition, it is expanding the installation of new and renewable energy in the home sector through green home and green village supply projects.12350932019{"type"=>"Point", "coordinates"=>[126.805, 37.17]}2021-07-16T02:25:07.463
5902020848474Richmond CouncilUnited Kingdom of Great Britain and Northern IrelandEuropepublicNot intending to undertake1991002020{"type"=>"Point", "coordinates"=>[-0.32574, 51.448]}2021-07-16T02:25:07.463
591202050568City of SaskatoonSaskatoonCanadaNorth AmericapublicYesCity-wideEnergyAll energy consumed (percentage)201402050100The Low Emissions Community Plan includes a variety of renewable energy generation actions that, if funded and implemented, would exceed the 10% renewable energy target by 2050. The Plan includes 5 actions related to the installation of solar PV systems, 4 actions related to other energy systems and storage, and 2 actions related to renewable energy procurement.2752422019{"type"=>"Point", "coordinates"=>[-106.67, 52.1332]}2021-07-16T02:25:07.463
5922020845309Puente PiedraPeruLatin Americapublic2021-07-16T02:25:07.463
593202036282Comune di ChietiChietiItalyEuropepublicIntending to undertake in the next 2 years521252018{"type"=>"Point", "coordinates"=>[14.1399, 42.3828]}2021-07-16T02:25:07.463
5942020848972TransitoArgentinaLatin Americapublic339620182021-07-16T02:25:07.463
595202036426Riga CityRigaLatviaEuropepublicYesCity-wideEnergyOther, please specify: 13.5. Increase of the use of biomass in heat sources of joint-stock company “Rīgas siltums” (in %)20116.4202020100Development Programme of Riga for 2014-2020:Action Direction 13: Broad-scale implementation of energy efficiency6274872020{"type"=>"Point", "coordinates"=>[24.1052, 56.9496]}2021-07-16T02:25:07.463
596202019233Município de Torres VedrasTorres VedrasPortugalEuropepublicDo not know794652011{"type"=>"Point", "coordinates"=>[-9.30148, 38.7637]}2021-07-16T02:25:07.463
5972020845302ParaísoCosta RicaLatin AmericapublicNot intending to undertake5803020112021-07-16T02:25:07.463
5982020845299San Sebastián de MariquitaColombiaLatin AmericapublicDo not know3856620192021-07-16T02:25:07.463
599202054113City of FlagstaffFlagstaffUnited States of AmericaNorth AmericapublicYesCity-wideOther, please specify: Proportion of community electricity use from renewables to be 68% by 204020171220406817.65Local 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
60020203203City of ChicagoChicagoUnited States of AmericaNorth AmericapublicYesCity-wideElectricityAll electricity consumed (percentage)20182035The Chicago Renewable Energy Challenge is a voluntary initiative that encourages local businesses and institutions to develop and support renewable energy for 100% of their electrical use by 2035 or sooner. Members agree to develop or support renewable energy generation for 100% of electricity needs in participating buildings or spaces by 2035 or sooner for Chicago-base operations, maintain 100% electricity use from renewable energy generation for at least 10 years once achieved, track and share progress in annual reports on electricity consumption and renewable energy procurement and/or deployment, and serve as a City-wide ambassador for renewable energy installation and procurement.27059942018{"type"=>"Point", "coordinates"=>[-87.6298, 41.8781]}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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