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Enabling women in at-risk communities to make the transition to clean energy


India, Countrywide
ClimatePartner ID: 1611
Microloans for solar lamps + improved cookstovesGet to know the project

The project enables women microentrepreneurs in rural areas of India to access funding for improved cookstoves and solar lamps and helps to build supply chains in remote regions. The women use these products for both their businesses (e.g. cookstoves for small restaurants or solar lamps to extend the opening hours of a small shop) and their homes (e.g. to provide a safe source of light for children to study after dark). The money saved on fuel enables the women to repay the loans. Organised in self-help groups, the women meet regularly to support each other, monitor satisfaction, and encourage the use of clean energy products. Each group has a clean energy leader who manages after-sales support in case the products need servicing or repair. Some women work as clean energy demonstrators, travelling to nearby villages to educate others about the benefits of the new products. In this way, they enable more women to take the first step on their clean energy journey.

181,197 t CO₂Estimated annual emissions reductions
Project Standard
The project contributes to the the United Nations' Sustainable Development Goals
"During my project visit to India, I was extremely impressed by the women micro-entrepreneurs. Despite adverse conditions, they master their everyday lives and implement their own business ideas. Our project supports them with microloans for improved cookstoves and solar lamps. I am proud of the close cooperation with the project developer MicroEnergy Credits. Together, we have been able to empower women to drive the energy transition in India and earn their own living."
Sascha LafeldChief Carbon Officer & Member of the Executive Committee
How microloans for improved cookstoves and solar lamps contribute to climate action

Open fires and kerosene lamps are still widely used in rural India, despite the environmental damage they cause and the risks of fire, injury, and poor respiratory health. Many energy-efficient products are often expensive or difficult to access in remote areas, making projects like this one especially necessary.

Improved cookstoves are more energy efficient and generate less indoor smoke pollution. Solar lamps replace kerosene lamps by using sunlight to generate their electricity. The use of both products significantly reduces carbon emissions and can alleviate pressure on local forests as less firewood is needed. For local people, the benefits go beyond carbon reduction: better indoor air quality prevents respiratory diseases and families can save time and money with the reduced need for fuel or firewood. Improved cookstove and solar lamp projects in the ClimatePartner portfolio are registered with these international standards.

The project aims to contribute to these United Nations’ Sustainable Development Goals (SDGs).

Project facts

Climate projects generally fall into one of three groups: carbon reduction, carbon removal, or carbon avoidance. Carbon reduction projects reduce the amount of greenhouse gas emissions produced by a specific activity (e.g., improved cookstoves). Carbon removal projects remove carbon from the atmosphere by sequestering it in carbon sinks (e.g., reforestation). Carbon avoidance projects avoid greenhouse gas emissions entering the atmosphere (e.g., protecting forests from deforestation with REDD+ projects).

All climate projects are based on international standards. They set processes and requirements which carbon projects must fulfill to be recognised as a proven method of reducing carbon emissions.

Climate projects demonstrably reduce, remove, or avoid greenhouse gas emissions. This is achieved with various technologies, ranging from nature-based solutions to social impact projects and renewable energies.

Climate projects go through third-party validation and verification. Verification happens regularly after each monitoring period. A validation and verification body checks and assesses whether the values and project activities stated in the monitoring report are correct and verifies them. As with validation, visits to the project site are often part of the process.

Climate projects go through third-party validation and verification. Validation happens early in the project life cycle and ensures that the project design is in line with current processes and requirements. This phase often also involves field visits with on-site interviews and analyses. Auditors are accredited, impartial assessors who have to be approved as a validation and verification body (VVB) by the standards body.

This figure shows the estimated annual emission reductions calculated before the project started. The actual number of emissions saved in each monitoring period may differ. The background to this process is that in order to be registered as a climate project, the project operator must submit the calculation of the estimated emissions savings using the ex-ante methodology in a Project Design Document (PDD), which is similar to a business plan. This calculation is validated by an independent auditor. The values determined in the PDD are recalculated during regular monitoring periods based on actual project performance, documented in a monitoring report, and verified again by independent auditors at the end of the monitoring period to ensure a robust process. Independent verification thus provides ex-post verification of actual emission reductions. Verified emission reductions are not distributed until the savings have actually been made.

Four criteria for projects to meet quality thresholds

01. AdditionalityA project must lead to lower carbon emissions than would have occured without the project. Additionality also means that a project relies on financing from the sale of emission reductions, as the project would otherwise not be feasible and the upfront investment would be too high for project developers.
02. Exclusion of double countingThe carbon reduction may only be counted once and may not be counted again elsewhere, so a Verified Emission Reduction is retired once it has been used. This process is recorded in official registries.
03. PermanenceThe criterion of permanence ensures that carbon reductions or removals are ongoing and do not occur just once. This guarantees a long-term benefit for the climate. The minimum duration of a project depends on the underlying project technology.
04. Audit by independent third-partiesClimate projects must be audited regularly by independent auditors such as TÜV Nord. These auditors verify that the project is in compliance with the relevant standards. They also determine the volume of carbon emissions that have actually been avoided or removed.

The life cycle of a climate project

A climate project has a set life cycle consisting of various phases, from the feasibility assessment to the retirement of Verified Emission Reductions (VERs).
Project planning phase

The project developer reviews the general feasibility of the project, the project design, and the financing. Then, the Project Design Document (PDD) is prepared, which contains all the basic information about the project, such as the objective, location, timeline, and duration.

Validation

In this phase, independent auditors examine the PDD and the information it contains. This phase often also involves field visits with on-side interviews and analyses. Auditors are accredited, impartial assessors who have to be approved by the relevant standard as a validation and verification body (VVB). TÜV Nord/Süd, S&A Carbon LLC., and SCS Global Services are examples of VVBs."

Registration

Once validated, the project can be registered with a standard such as the Verified Carbon Standard or the Gold Standard. All high-quality climate projects are based on international standards. They provide the framework for project design, construction, carbon accounting, and monitoring. Recognised standards make the climate project system and the projects themselves resilient, traceable, and credible.

Monitoring

After the climate project has been registered, the monitoring begins. Here, the project developers monitor and document the data of the project activities and progress. The duration of the monitoring phase varies from project to project: it can cover two years, but documentation over five or seven years is also possible.

Verification

At the end of each monitoring phase, a VVB checks and assesses whether the values and project activities stated in the monitoring report are correct. As with validation, visits to the project site are often part of the verification process.

Issuance of Verified Emission Reductions

Once verified, the emission reductions that were confirmed in the verification phase can be issued as VERs. The steps of monitoring, verification, and issuance of VERs are repeated regularly and are therefore considered as a cycle.

Retirement of Verified Emission Reductions

Once a VER has been used, it must be retired. This process is also reflected in the registry. If the financing of a climate project is done through ClimatePartner, the VERs are bundled in a system certified by TÜV Austria and then retired on a regular basis. This ensures that each VER can no longer be sold and is only used once, preventing double counting.

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