Tag: – Works in Progress

Oslo, Norway

Oslo, Norway

  • Target: 100% renewable energy target in public transport and heating by 2020, reduce CO2 emissions by 50% below 1991 level by 2030, and become carbon neutral in 2050.
  • Status: In progress -  In 2014, 60% of the energy used by the city to power the public transport system was sourced from hydroelectric power.
  • RES: Hydropower, biogas, Passive House buildings, and hydrogen and electric vehicles.
  • Implementation: Oslo is Norway’s capital and is the most populous city. It aims to achieve 100% RE through its Energy Action Plan, built on previous initiatives by the city such as the municipal Energy and Climate Fund, which was implemented in 1982. Thanks to a compact urban fabric and a high share of public transport use (62% in 2010), Oslo per capita COemissions is already one of the lowest in Scandinavia (around 2,3 tonnes in 2007). Heating and transportation account for the highest share of COemissions. The city aims to increase the share of fossil-free hydrogen powered vehicles in the city’s operators fleet by 2020 to reach its 100% target. Although the city does not own any vehicles itself, Oslo municipality and Akershus County Council does own the transport management company, Ruter AS. This enables the two public bodies to  influence the decisions of operators. In 2014, the City of Oslo in cooperation with the surrounding regional government of Akershus County approved a Regional Hydrogen Strategy to reinforce the target set, and are working together to develop an infrastructure with biogas, hydrogen and electric vehicles. Reducing emissions in the heating of city buildings is another priority. By 2013 all municipal buildings were using 100% renewable energy, and from 2014 all new municipal buildings had to be of Passive House construction. Today, the city’s heating system is powered by 80% renewable energy, mainly from sourced from residual waste biomass. In 2010, FutureBuilt, a ten-year program, was launched by Oslo and 3 municipalities part Oslo’s Region to stimulate climate friendly urban development. 37 pilot projects, including  private and public buildings as well as urban areas, were developed in 2015.
  • Population: 673,469 (2018)
  • Area: 480.76 km(185.62 sq mi)
Oslo, Norway

Osnabrück District, Germany

Schloss Fürstenau, Osnabrück, Germany

  • Target: 100% renewable and to save up to 88% of today’s emissions.
  • Status: In progress
  • RES: Wind energy
  • Implementation: Located in the North-West of Germany, the region of Osnabrück has played an important role in Germany's energy transition. In the region, renewable energy production, energy efficiency and a sustainable economy have become intrinsic aspects to day-to-day decision-making by its inhabitants. The commitment is reflected in the more than 8,000 renewable energy plants that have been installed right across the region. These have benefited from a rural landscape with abundant natural resources, boosted by a robust economy and modern agriculture. Indeed, renewable energy and energy efficiency represent long-term strategies for sustainable development, climate protection and regional value creation in the region. The 100% renewable energy target dates back to 2010 and has since been part of municipal policy-making. To date, there are more than 50 different projects, planning or research endeavours being conducted and coordinated at the local “Energy and Climate Protection Department“. There are many activities targeting private households and the building sector. By 2013, new developing areas had been outlined as part of updated renewable energy policies and the integration of climate targets.
  • Population: 356,140 (2017)
  • Area: 2,122 km2 (819 sq mi)
  • Link: Klimaschutzkonzepte und Statistiken
Schloss Fürstenau, Osnabrück, Germany

Oxford County, Ontario, Canada

Oxford County, Ontario, Canada

  • Target: 100% renewable energy by 2050
  • Status: In progress
  • RES: Microgrid, solar thermal facility, electric vehicle charging stations, and a farm biogas project.
  • Implementation: Oxford County comprises 2 towns, 5 townships, and 1 city. It is located along highly accessible transportation routes and has a long tradition in farming. On June 24, 2015, the Council set the 100% renewable energy target, with the commitment for community-wide use of renewable energy for electricity, heating/cooling, and transportation. It adopted the The Future Oxford Community Sustainability Plan. The County has taken the opportunity to learn from other cities around the world (such as those in Germany) that have achieved 100% RE, to see how innovations in renewable energy could be adapted to Oxford’s context. The research formed the basis for Oxford County’s 100% Renewable Energy Action Plan, which would catalyze environmental change in Oxford, create opportunities for renewable energy investment in the county, and become a living laboratory for education, research, and development of cutting-edge renewable energy solutions for local governments. It also outlines a framework detailing how community, business, government, academic, national and international partners can work together to achieve specific targets, milestones and actions.
  • Population: 110,862 (2016)
  • Area: 2,036.61 km(786.34 sq mi)
  • Link: Oxford County Environmental and Energy Plans
Oxford County, Ontario, Canada

Palawan, Philippines

Palawan, Philippines

  • Target: 100% renewable energy
  • Status: In progress
  • RES: Hydropower
  • Implementation: Palawan is an island province off the coast of the Philippines. In order to promote access to electricity, increase reliability, add local jobs, protect the island environment, and lower energy costs, the province has set a goal of being powered by 100% renewable sources. Currently, more than half the communities in the province are without electricity. Where electricity does exist, it is expensive, reportedly twice as costly as in Manila. It is also unreliable as Palawan is not connected to the mainland grid, and black-outs and brown-outs are common. To achieve its 100% renewable target, Palawan aims to attract renewable energy investors to help fund the costs of installation by easing planning processes and providing incentives such as tax breaks. In November 2014, it was announced that the energy department contracted with local power generation and construction firm AGPI to build 11 hydropower plants in Palawan totalling 131 MW. Palawan's renewable energy plan however is under threat by national government support of building a coal plant on the island, with diesel being the preferred alternative. There has been significant local opposition to the building of the plant, including criticism by environmental groups like World Wildlife Fund.
  • Population: 849,469 (2015)
  • Area: 14,649.73 km2(5,656.29 sq mi)
  • Link: https://www.rappler.com/business/industries/173-power-and-energy/41998-palawan-renewable-energy-plan
Palawan, Philippines

Palmerston North, NZ

Square Edge, Palmerston North, NZ

  • Target: 100% RE city by 2015.
  • Status: In progress
  • RES: 3 wind farms (286 turbines), 4 mini-hydro turbines, bio-gas production, 100kW solar arrays, solar hot water heaters, insulation and hot water heat pumps.
  • Implementation: The city of Palmerston North is located near the southern end of New Zealand’s North Island. In 2011, the Palmerston North City Council (PNCC) began developing plans to become a 100% RE city. This goal was possible since wind farm development in the area had already begun in 1999, with three wind farms, including New Zealand’s largest, Tararua Wind Farm. Since 1999, a total of 286 turbines have been installed, with a combined annual capacity of approximately 300 MW, providing the city with access to renewable wind power. In addition to sourcing local wind power, the PNCC has invested in several other renewable generation projects. The installation of 4 mini-hydro turbines created enough energy to power the waste water treatment plant. The waste water treatment plant has also been retrofitted with technology allowing for the use of the waste water treatment’s bio-sludge for bio-gas production. The bio-gas produced from this process is used as a peak demand generator, capable of producing up to 75% of the city’s peak electrical demands. The PNCC has also installed a 100kW solar array on the roofs of the PNCC Central Administration Building and the City’s Convention Centre. As part of the city’s ongoing green house gas emission reduction plans, there are established financial assistance programs for improving the efficiency of residential properties. These financial assistance programs provide partial funding for solar hot water heaters, insulation and hot water heat pumps where applicable.
  • Population: 88,700 (2018)
  • Area: 395 km2 (153 sq mi)
  • Link: https://www.stuff.co.nz/manawatu-standard/news/107703079/palmerston-north-could-lead-use-of-renewable-energy
Square Edge, Palmerston North, NZ

Palo Alto, California, USA

Palo Alto, California, USA

  • Target: 100% renewable electricity supply
  • Status: In progress
  • RES: Large scale solar
  • Implementation: In July 2013, Palo Alto voted to make the city’s electricity supply 100% renewable as part of the city’s commitment to carbon neutrality.  As a precursor to this decision, the local Department of Utilities first offered a 100% renewable electricity plan.  The 100% renewable power option was to be entirely supplied by solar RECs (renewable energy certificates).  In 2015, the state of California adopted a new Renewable Portfolio Standard (RPS), requiring that all utilities in the state should supply 50% of their retail electric sales from eligible renewable resources by 2030.  Those enrolled in the renewable power option have been mostly residential customers (95%), and the rest being commercial customers. Currently, Palo Alto is powered by several large-scale solar projects. The City Council has a Carbon Neutral Electric Resource Plan which commits Palo Alto to using carbon neutral electric resources.  The Plan is designed to be transparent, credible, sustainable, inspirational and replicable. In keeping with the City’s efforts to combat climate change, the plan effectively eliminates all greenhouse gas (GHG) emissions from the City’s electric portfolio. The Plan's strategy was two-fold. First, between 2013 and 2016, the City would purchase short-term renewable resources and/or renewable energy certificates (RECs) to supplement existing and committed long-term renewable and hydroelectric resources, which account for 65% to 83% of the portfolio. And second, beyond 2016, long-term renewable resources will provide about a 50% RPS level within the existing 0.5 ₵/kWh annual RPS rate limit. Since about 50% of the electric supply portfolio is already sourced from carbon-free hydroelectric resources, the additional cost of achieving carbon neutrality between 2017 and 2020 is calculated to be very small.
  • Population: 67,024 (2016)
  • Area: 25.77 sq mi (66.75 km2)
  • Link: Palo Alto Sustainability
Palo Alto, California, USA

Papua New Guinea

Papua New Guinea

  • Target: 100% renewable energy in the electricity sector by 2030
  • Status: In progress
  • RES: Solar power and bio-energy
  • Implementation: Papua New Guinea (PNG) occupies the eastern half of the island of New Guinea off the northern coast of Australia. In March 2016, PNG became the first nation in the world to finalize a climate plan under the agreement adopted at COP21 in Paris in December 2015. Although the country's greenhouse gas emissions are negligible, PNG wants to set an example to its neighbours and send a strong message to developed countries that are emitting the majority of greenhouse gases that they should act to protect world populations from climate change. PNG's climate plan, as per the Nationally Determined Contribution (NDC) guided by UNFCCC rules, is to curb fossil fuel emissions. To this end, PNG has committed to transitioning to 100% renewable energy in the electricity sector by 2030, contingent on availability of funding. The nation also plans to improve efficiency across sectors and reduce emissions where possible in the transportation and forestry sectors. PNG  will also seek to mitigate its contribution to climate change by reducing deforestation and promoting forest conservation and sustainable management of the nation's forests, which is being coordinated through an existing UN initiative called Reducing Emissions from Deforestation and Forest Degradation (REDD+).
  • Population: 8,084,999 (2016)
  • Area: 462,840 km(178,700 sq mi)
  • Link: https://www.businessadvantagepng.com/improving-access-to-finance-the-key-to-solar-power-expansion-in-papua-new-guinea/
Papua New Guinea

Park City, Utah, USA

Park City, Utah, USA

  • Target: 100% renewable electricity for city operations by 2022, and for the whole community by 2032.
  • Status: In progress
  • RES: Solar energy
  • Implementation: Park City is a small town located in the Rocky Mountains of Utah, and is renowned for its ski resorts and Sundance Film Festival. In October 2016, its Mayor signed on to the Climate Reality Project's 100% renewable electricity campaign, which commits the city to achieving a 100% renewable electricity supply for the community by 2032. The pledge was driven by concerns about the impact on the community of a warming climate and a desire to show that mountain communities can lead the way on transitioning to renewables.
  • Population: 8,378 (2017)
  • Area: 17.567 sq mi (45.50 km2)
  • Link: Park City Renewable Energy
Park City, Utah, USA

Perpignan, France

Perpignan, France

  • Target: "Energy positive" city by 2015
  • Status: In progress
  • RES: Wind turbines, solar farm and rooftop solar PV
  • Implementation: Perpignan is a city and commune located in France near the Spanish border. In 2008, the City of Perpignan and the Perpignan Méditerranée Communauté d'Agglomération, a collection of 36 towns in the region, signed an agreement to make Perpignan an "energy positive" city by 2015 - that is, a city that generates more electricity with renewable sources than the citizens consume. Named the first Grenelle 2015 Agreement, it set out a vision to modify the city's approach to urban development by engaging in energy efficient housing, sustainable transportation, organic agriculture, local food production, air/water resource conservation, and environmental protection. The agreement also aims to ensure that each town maintains its identity, individuality, traditions and way of life, while the above measures are carried out. Part of the strategy is to make the people of the region "eco-citizens" by sharing information, developing school programs, and engaging the business community, etc. Specifically, the plan aims to generate 440,000 euros per year to cover residential needs with an investment of about 500 million euros, with a return on investment of between 10 and 15 years.

    In relation to the energy target, the plan includes a wind development zone for 41 wind turbines with a generating capacity of 294,000 MWh a year, which could cover 67% of the region's  electricity needs. The plan also aims to generate 48,000 MWh annually from rooftop solar photovoltaic installations on public buildings. Solar PV on private buildings covering around 120,000 square meters of roof space is envisioned, thereby providing 10% of the involved community's electricity demand.  To help support this goal, CEMOI, a leading producer and exporter of French chocolate, has invested in a solar production facility. Additionally, a solar park of approximately 100 hectares (over a third of a square mile) is to generate 42,000 MWh per year.

  • Population: 118,238 (2013)
  • Area: 68.07 km2 (26.28 sq mi)
  • Link: Perpignan Positive Energy Territory
Perpignan, France

Pingtung County, Chinese Taipei

Pingtung, Chinese Taipei

  • Target: 100% renewable energy
  • Status: In progress
  • RES: Smart grids and solar farms
  • Implementation: In 2009, Taiwan experienced Typhoon Morakot: the deadliest recorded typhoon to ever impact Taiwan, which resulted in failure to the main power grid.  Pingtung County consequently resolved to to ensure that its community can be energy self-sufficient in the event of any natural disaster, or for at least one week in the event of failure of the grid. In July 2016, under the leadership of the head of government Magistrate Men-An Pan, the County departments and civil society gathered in Pingtung's 1st Forum on resilience and renewable energy to discuss a pathway to transition to 100% renewable energy and energy self-sufficiency. During the Forum, the Magistrate made a public commitment to explore a 100 renewable energy target and to be an active participant in the Global 100% Renewable Energy Cities and Regions Network. Projects implemented so far include several smart grid and solar farm demonstration projects.
  • Population: 839,001 (2016)
  • Area: 2,775.6003 km2(1,071.6653 sq mi)
  • Link: https://www.globalresearch.ca/taiwans-green-energy-transition-under-way/5616625
Pingtung, Chinese Taipei