Mpatamanga Hydroelectric Power Station

Last updated

Mpatamanga Hydroelectric Power Station
Malawi adm location map.svg
Red pog.svg
Map showing the location of Mpatamanga.
Country Malawi
LocationMpatamanga, Blantyre District
Coordinates 15°43′11″S34°43′35″E / 15.71972°S 34.72639°E / -15.71972; 34.72639
Purpose Power
StatusProposed
Dam and spillways
Impounds Shire River
Mpatamanga Power Station
Commission date2027 (Expected)
Installed capacity 350 megawatts (470,000 hp)
Annual generation 952 GWh

The Mpatamanga Hydro Power Project is a 350 MW hydroelectric generating project under development at Mpatamanga on the Shire River, in Malawi. The project will comprise the Main Power Station and the Regulating Dam Power Station. Mpatamanga Hydro Power Limited (MHPL), a Special Purpose Vehicle, has been established for purposes of the Project which will sell 100 percent of its production to Malawi's national utility, ESCOM, as off-taker under a 30-year power purchase agreement (“PPA”). The project will assist the Government of Malawi to meet existing power demand during both peak and off-peak periods, becoming the main source of generation. [1]

Contents

The Mpatamanga Hydropower Project will not only double the installed capacity of hydropower in Malawi, but also improve the power supply security, provide opportunities for increased renewable energy generation capacity in the country and contribute to the controlling of the flow of the Shire River downstream the power plant. Mpatamanga will deliver electricity to approximately two million people and save 520,000 tons of CO2  emissions per year. The project is expected to contribute to reducing energy shortages and enhancing energy security in Malawi. [2]

Location

The power station will be located at Mpatamanga, on the Shire River, in Blantyre District, in the Southern Region of Malawi. This is approximately 53 kilometres (33 mi), by road, north-west of the city of Blantyre, the financial capital and largest city in the country. [3] The coordinates of the village of Mpatamanga are: 15°43'11.0"S, 34°43'35.0"E (Latitude:-15.719722; Longitude:34.726389). [4]

Overview

The 350 MW facility will be a first-of-its-kind in Malawi and the generation facility will be composed of two plants. The main dam will provide flexible generation up to its 309 MW installed capacity.  The powerhouse can be used at peak capacity for up to 9 hours per day to meet peak demand. The regulating dam, 7 km downstream, is expected to return the river's flow to its natural level, minimizing the Environmental & Social (E&S) impacts. 52 MW of additional generation capacity (run-of-the-river) will be built at the regulating dam. The average annual generation is estimated at 1,470 GWh[FO1], out of which 70 percent is expected to be produced during peak hours, with an average capacity factor of 49 percent. [5]  

The main dam includes a 50 metres (164 ft) high roller compacted concrete (RCC) dam and integrated spillway to create a 19 square kilometres (7 sq mi) storage reservoir with storage capacity of 261,000,000 cubic metres (9.217128014×109 cu ft), of which 59,000,000 cubic metres (2.083565337×109 cu ft) will available daily. Part of the design are one diversion tunnel, two 920 metres (3,018 ft) long headrace tunnels with surge shafts and underground penstocks and a surface powerhouse with four vertical Francis turbines. The regulating dam includes a 35 metres (115 ft) high concrete dam and spillway, creating a regulating reservoir with 8,200,000 cubic metres (289,580,267 cu ft) active storage and a low head surface powerhouse integrated within the dam with 2 horizontal bulb turbines. The interconnection comprises: (a) building a 400 kV double-circuit transmission line measuring 64 kilometres (40 mi) (b) a 132 kV double-circuit transmission line loop measuring 11.4 kilometres (7 mi) to a switchyard of the existing 132 kV line to Tedzani/Kapichira.[ citation needed ]

Timeline

Technical studies are currently underway to inform the final engineering design of the Mpatamanga Hydro Power Plant. These are: Hydrology studies; Climate change study; Topography/bathymetry/light detection and ranging (LIDAR) investigations; Sediment studies; and Geophysical and geotechnical studies. Construction of access roads is planned to be undertaken from Q4 2025. A four-year construction schedule has been estimated for the Project, starting in 2026. The power stations’ commissioning should take place in Q4 2030.In August 2024, a number of companies and consortia were shortlisted to compete for the EPC contracts in the categories of (a) civil works (b) electro-mechanical works and (c) transmission lines & substations, as outlined in this reference. [6]

Developments

The Mpatamanga Hydro Power Project is co-developed by SN Malawi BV (“Scatec”) and EDF International, Electricity Generation Company (Malawi) Limited (“EGENCO”) and IFC thru a Private Public Partnership. This entails the development, design, financing, construction, commissioning, ownership, operation and maintenance of the hydroelectric generating project of 358 MW capacity at Mpatamanga on the Shire River, in Malawi, and to develop, design, finance, construct and handover the Transmission Infrastructure. Mpatamanga Hydro Power Limited (MHPL), a Special Purpose Vehicle has been established for purposes of the Project which will sell 100 percent of its production to Malawi's national utility, ESCOM, as off-taker under a 30-year Power Purchase Agreement (“PPA”). The consortium developing this power station was announced to include the following entities as illustrated in the table below. [1] [7]

Composition of Mpatamanga HPP Consortium In 2022
RankDeveloperDomicilePercentageNotes
1 Government of Malawi Malawi
30.0
 [1]
2 IFC InfraVentures United States
15.0
 [1]
3 Électricité de France France
27.5
 [1]
4 Scatec ASA Norway
14.0
 [1]
5 British International Investment and Norfund United Kingdom & Norway
13.5
 [1]
Total
100.00
 [1]

See also

Related Research Articles

<span class="mw-page-title-main">Hydroelectricity</span> Electricity generated by hydropower

Hydroelectricity, or hydroelectric power, is electricity generated from hydropower. Hydropower supplies 15% of the world's electricity, almost 4,210 TWh in 2023, which is more than all other renewable sources combined and also more than nuclear power. Hydropower can provide large amounts of low-carbon electricity on demand, making it a key element for creating secure and clean electricity supply systems. A hydroelectric power station that has a dam and reservoir is a flexible source, since the amount of electricity produced can be increased or decreased in seconds or minutes in response to varying electricity demand. Once a hydroelectric complex is constructed, it produces no direct waste, and almost always emits considerably less greenhouse gas than fossil fuel-powered energy plants. However, when constructed in lowland rainforest areas, where part of the forest is inundated, substantial amounts of greenhouse gases may be emitted.

<span class="mw-page-title-main">Run-of-the-river hydroelectricity</span> Hydroelectric power station

Run-of-river hydroelectricity (ROR) or run-of-the-river hydroelectricity is a type of hydroelectric generation plant whereby little or no water storage is provided. Run-of-the-river power plants may have no water storage at all or a limited amount of storage, in which case the storage reservoir is referred to as pondage. A plant without pondage is subject to seasonal river flows, so the plant will operate as an intermittent energy source. Conventional hydro uses reservoirs, which regulate water for flood control, dispatchable electrical power, and the provision of fresh water for agriculture.

According to the International Hydropower Association, Canada is the fourth largest producer of hydroelectricity in the world in 2021 after the United States, Brazil, and China. In 2019, Canada produced 632.2 TWh of electricity with 60% of energy coming from Hydroelectric and Tidal Energy Sources).

<span class="mw-page-title-main">Kapichira Hydroelectric Power Station</span> Power station in Malawi

The Kapichira Power Station is a hydroelectric power plant at the Kapachira Falls on the Shire River in Malawi. It has an installed capacity of 128 megawatts (172,000 hp), enough to power over 86,000 homes, with four 32 megawatts (43,000 hp) generating sets. The power station was developed in stages, with the first phase involving the installation of the first two 32 megawatts-generating turbines. Phase I of the power station was officially opened in September 2000.

The Nkhula B Hydroelectric Power Station, also Nkula B Hydroelectric Power Station is a hydroelectric power plant on the Shire River in Malawi. It has a power generating capacity of 100 megawatts (130,000 hp).

<span class="mw-page-title-main">Hydroelectric power in the United States</span>

Hydroelectricity is, as of 2019, the second-largest renewable source of energy in both generation and nominal capacity in the United States. In 2021, hydroelectric power produced 31.5% of the total renewable electricity, and 6.3% of the total U.S. electricity.

<span class="mw-page-title-main">Karuma Hydroelectric Power Station</span> Power plant in Karuma Falls, Uganda

The Karuma Hydroelectric Power Station is an operational 600 MW hydroelectric power station in Uganda. It is the largest power-generating installation in the country.

<span class="mw-page-title-main">Irganai Dam</span> Dam in Untskul region

Irganai Dam is a hydroelectric dam in the Untskul region of Dagestan, Russia. It is located on the river Avar Koisu.

Electricity Supply Corporation of Malawi Limited (ESCOM) is the state-owned power transmission and distribution company in Malawi. It is entirely in control of transmission and distribution of electric power in the country. ESCOM represents Malawi in the Southern African Power Pool. It should not be confused with its South African equivalent Eskom.

The Nkhula A Hydroelectric Power Station, also Nhula A Hydroelectric Power Station, is a hydroelectric power plant on the Shire River in Malawi. It has an installed capacity of 36 megawatts (48,000 hp), with three 12 megawatts (16,000 hp) generating sets. The power was developed in stages, with the first phase involving the installation of three 8 megawatts-generating turbines. Phase I of the power station was officially opened in 1966.

The Tedzani Hydroelectric Power Station, also Tedzani Hydroelectric Power Complex, is a complex of integrated hydroelectric power plants across the Shire River in Malawi. It has installed capacity of 111.7 megawatts (149,800 hp), with four power stations adjacent to each other, sharing some of the physical infrastructure and electro-mechanical connections.

The Wovwe Hydroelectric Power Station, also Wovwe Power Station, is a hydroelectric power plant on the Wovwe River in Malawi. It has a capacity of 4.35 megawatts (5,830 hp), with three generation units of 1.45 megawatts each.

Burning of charcoal and wood fuel provides approximately 94 percent of the energy in Malawi. Much of the renewable hydroelectric potential of the country is untapped. As per 2018 Population and Housing Census, the national electrification rate in Malawi was 10%, with 37% of the urban population and only 2% of the rural population having access to electricity.

The Electricity Generation Company Malawi Limited (Egenco) is a parastatal company whose primary purpose is to generate electric power for use in Malawi and for possible sale to neighboring countries. As of April 2018, Egenco's generation capacity was 351 megawatts (471,000 hp). In May 2021, Egenco's generation portfolio increased to 441.55 megawatts (592,130 hp), when the 19 MW Tedzani IV Hydroelectric Power Station, was brought online.

Kholombidzo Dam, also Kholombidzo Hydroelectric Power Station is a planned 200 megawatts (270,000 hp) hydroelectric dam in Malawi.

Rudi A Hydropower Station is a run-of-river hydro-electric plant located in the Kaski District of Nepal that came into operation in 2019. The flow from the Rudi River is used to generate 8.8 MW electricity.

<span class="mw-page-title-main">Rizzanese Reservoir</span> Lake in Corse-du-Sud, Corsica

The Rizzanese Reservoir is a reservoir in the Corse-du-Sud department of France on the island of Corsica. It stores water for irrigation, and supplies the largest hydroelectric power plant in Corsica, with installed capacity of 55 MW.

Nanjoka Solar Power Station, is a 10 megawatts (13,000 hp) solar power plant under construction in Malawi, in Southern Africa.

References

  1. 1 2 3 4 5 6 7 8 Jean Marie Takouleu (7 September 2022). "Malawi: EDF And Scatec Sign PPP For Mpatamanga Hydroelectric Plant". Afrik21.africa. Paris, France. Retrieved 22 November 2024.
  2. Devon Maylie (6 September 2022). "The Government of Malawi, IFC, Scatec JV and EDF Sign a Binding Agreement to Develop the Mpatamanga Hydropower Plant". International Finance Corporation . Washington, DC, United States. Retrieved 22 November 2024.
  3. "Road Distance Between Main Post Office, Blantyre, Malawi and Mpatamanga George, Malawi" (Map). Google Maps . Retrieved 22 November 2024.
  4. "Location of Mpatamanga, Blantyre District, Southern Region, Malawi" (Map). Google Maps . Retrieved 19 April 2018.
  5. Maurice Nkwawihe (5 April 2017). "Egenco in Multi-Billion Electricity Projects". Nyasa Times . Blantyre, Malawi. Retrieved 22 November 2024.
  6. Carrieann Stocks (15 August 2024). "MHPL announces shortlisted companies for Mpatamanga Hydropower Project, Malawi". Water Power Magazine. Kent, United Kingdom. Retrieved 22 November 2024.
  7. Ashley Theron (15 April 2019). "Malawi: JDA Signed For Hydropower Plant". ESI Africa. Cape Town, South Africa. Retrieved 22 November 2024.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.