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Uberlândia landfills I and II Energy Project

We have now offset another 25,000 ton CO2eq in a Gold Standard certified project! Thank you for taking part in this!

For the first time, we are investing in a project located in Brazil. Parabéns to us! The project is a Landfill to Gas Energy Project located in Uberlândia, in the state of Minas Gerais. Here, greenhouse gas emissions from two adjacent landfills are collected and converted into energy.

Collecting GHG from the landfill to convert it to energy

How does this work? As in most places in the world, the garbage that is generated by the local population is collected by garbage collectors and taken to a solid waste deposal site, also known as a landfill. In this case, this is done by a local company called Limpebrás Resíduos Ltda. The first of the Uberlândia landfills received waste from 1995 to 2010, and the second one started in 2010 with an expected 18 years of lifetime. Uberlândia I has during its operation received approximately 2,100,000 tonnes of domestic waste! This is being treated with significant care for the environment to prevent environmental damage, especially to avoid leachate into the ground.

Carefully managed landfill

But the contamination is not the only concern for landfills. The decomposing of organic waste in the landfill is also causing significant emissions of the greenhouse gas methane, CH4. Methane is a less common but stronger greenhouse gas than CO2, so the climate impact is about 25 times higher! This is why we in some places (like in Sweden) can collect separated organic waste and turn it into energy. However, this infrastructure is not yet available in all parts of the world. So, this project instead aims to collect the methane that is generated at the existing landfills, then combust it in a contained environment in order to produce energy for the local energy grid. The project will last for as long as the landfills release methane, which is until a few years after the landfill is full.

Landfill to Gas Energy Plant

Some people call this renewable energy. We are not too happy with that definition, as garbage in itself is not a renewable resource. Project Drawdown calls this “a transitional strategy for a world that wastes too much” – which we agree with. “In a sustainable world, waste would be composted, recycled, or re-used; it would never be thrown away because it would be designed at the outset to have residual value, and systems would be in place to capture it”. GoClimate fully supports this statement, while recognizing that we are not there yet. As the waste is already at the landfill and causing these emissions as we speak, we’re on board to do what we can to stop them and turn it into energy, until the global waste management can catch up in terms of reduction and recycling. Given the climate urgency, this is not an either-or question, we need to do both!

The workers who collect the garbage

 Apart from the reduced emissions from collecting the methane, we are also helping to displace fossil fuels as we provide alternative energy to the network. The project is also creating more qualified job opportunities for the local population, and the monitoring of the project has not found any negative impact for the people who do ad-hoc recycling of the garbage. Finally, the project has also reduced the odor coming from the landfill. When the project was initiated, there were no landfill to gas projects in the country which did not receive additional financing from carbon credits, so we feel confident that this is a project with high additionality.

Read more about the project in the Gold Standard Registry or in the CDM Registry

See our retired credits HERE

Want to contribute to this, and other similar projects? Calculate your carbon footprint and transition to a climate neutral life today!

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Belen Wind Power Plant

We have now offset another 50,000 ton CO2eq in a Gold Standard certified project! Thank you for taking part in this!

Renewable energy has to make up a larger share of the market globally, which is why we are now financing the Belen Wind Project in Turkey. The major purpose of the project activity is providing electricity from renewable sources to the rapidly growing Turkish electricity market.

The project is expected to generate about 135,000 MWh of electricity per year and prevent approximately 74,444 tonnes of CO2 emissions annually compared to the baseline scenario. Even though wind is increasing in Turkey, there is a heavy reliance on fossil fuels such as oil and coal, and the share of natural gas has grown to reach the same proportion as the other sources. We want to finance this kind of projects to show that there is support for sustainable energy, and spread awareness of the feasibility of better alternatives.

This project consists of an installation of 16 wind turbines, each having a capacity of 3000 kW, in Belen, on the Southeast Mediterranean coast of Turkey. The wind farm provides a total capacity of 48MW and is connected to the national grid. The project employs state of the art technology and installed high capacity 3MW turbines instead of 1.5MW turbines that used to be installed in the earlier days of wind energy developments in Turkey. These new turbines enable better use of the wind potential with a reduced project footprint area, minimising the impact on the natural environment.

It is worth mentioning that if not prepared and designed properly, wind energy can have negative environmental impacts. This is why it is important to do a so-called Environmental Impact Assessment. As we purchase credits from projects certified by Gold Standard, there has been a rigorous control of the risks as all projects have to comply with the “Safeguarding Principles and Requirements” . This covers human rights, gender issues, corruption, water and land use, and other potential impacts. Another important part of the project preparation is the stakeholder consultation, which is also documented in Project Design Document. 

For this project in particular, it is described in the Project Design Document that ”…some trees will be cut in order to enlarge the road to the site and to clear the surroundings of the turbines. However; it was assured that new plantation will be done in return by local Forestry Management”. Other issues addressed in the preparation phase was the concern for bird migration in the area, and potential impact from waste and water usage during the construction phase. Having this information available is mandatory, and is how we know we can trust the project. It allows for accountability, so that we can hold the project developer responsible for the impacts and mitigation measures. 

More information about this project in the Gold Standard registry (including verification and monitoring reports) HERE

See our retired credits HERE, HERE and HERE

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Sidrap Wind Energy Project

We have now offset another 25,000 ton CO2eq in a Gold Standard certified project! Thank you for making this happen!

This time, your contributions are funding the first ever wind farm in Indonesia. With 30 wind turbines reaching a total capacity of 75 MW, it is also the largest wind farm in all of South East Asia. Through this project, we are supporting Indonesia and its island Sulawesi to see beyond fossil fuels and stimulate both the development of the electricity grids and the national politics in a climate-positive direction.

Indonesia is a country that depends heavily on fossil fuels for its energy production. That in itself is not unique, but given its large population of 264 million, it is remarkable that there has been no wind power at all – until now. The potential for renewable energies in Indonesia is massive, estimated to 14 times their current demand. However, the country has very cheap coal, which sells domestically for less than the global market price, so the economic incentive for renewable energy is weak. In cases like these, the possibility to finance the development with sales of CO2-credits can be one solution to implement green energy projects.

This project has several benefits – Indonesians will now be able to see the positive impact of the wind power for themselves and we are proving the feasibility of this energy source in a local context. The project will also stimulate capacity development, as locals are recruited for the construction and operation of the facility. This breaking of new ground will facilitate for future wind energy projects. Moreover, it puts pressure on the development of the grids to become more flexible and interconnected, so that the electricity can be distributed in an efficient way.

The capital of Indonesia had a major power blackout earlier this year, highlighting the need for grid flexibility and a robust energy system. The politicians in Indonesia have also made a point to set the national target for renewable energy to 23% for 2025, which is twice as much renewables as in 2018 and therefore a significant contribution to the common goal of the Paris Agreement. Impressive! We hope that this is the first of many wind power plants in Indonesia, and are happy to see that there is already another one being built on the same island.

More information about this project in the Gold Standard registry (including verification and monitoring reports) HERE

See our retired credits HERE and HERE