Contribution project

Improving electricity supply and local livelihoods

Uganda, Bugoye

ClimatePartner ID: 1227

Project details

HydropowerGet to know the project

The Bugoye hydropower project contributes to climate protection by increasing the share of electricity from clean sources in Uganda. The run-of-river plant with an installed capacity of 14.28 MW is located at the foot of the Rwenzori Mountains in the Kasese District. The project diverts water from the river Isya and runs it via a five kilometer canal into a 950 meter penstock with a head of 160 meters. After passing through two 7.228 MW Francis turbines, the water is discharged to the Mubuku River. The power plant has an average outcome of 82,000 MWh per year which will be delivered to the national grid via a 6 km long transmission line routed to the Nkenda substation.

This small, grid-connected hydropower plant contributes to improving energy security in the region and promotes the development of renewable energies in Uganda. The project also helps improve medical care, educational opportunities, and water supply for local people.

51,074 t CO₂Estimated annual emissions reductions

Project Standard

The project contributes to the the United Nations' Sustainable Development Goals

How hydropower contributes to climate action

Hydropower plants use the energy of water to generate electricity. The energy is harnessed by passing water through a turbine. Under the pressure of the water, the turbine turns and transfers this energy to a generator, which converts kinetic energy into electricity. This principle applies to all types of hydroelectric power plants: from small run-of-river power plants to pumped-storage power plants on bodies of water like lakes. In many parts of the world, electricity is still primarily generated from fossil fuels. Clean hydropower can replace some of this emission-intensive energy and thus verifiably save carbon emissions. In most hydropower projects, the electricity is fed into a regional power grid, diversifying the energy supply and improving energy security in areas affected by power shortages and blackouts. Often, these projects also create jobs for the local population. Hydropower projects thus make an important contribution to clean energy supply as well as contributing to the UN Sustainable Development Goals (SDGs). Hydopower projects in the ClimatePartner portfolio are registered with 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.

Most standards on the voluntary carbon market list their projects in public registries. The registries are used to store project data and track issuances and retirements of verified emission reductions. The registry ID can be used to identify projects in the standard registry.

Check out this project

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.

* For certified projects only: the project-related information on this page is based on the documents in the register.

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