Wind power in Kenya explained

Despite its high potential for wind energy generation,[1] wind power in Kenya currently contributes only about 16 percent of the country's total electrical power.[2] However, its share in energy production is increasing. Kenya Vision 2030 aims to generate 2,036 MW of wind power (9% of the expected total maximum generation capacity) by 2030.[3] To accomplish this goal, Kenya is developing numerous wind power generation centers and continues to rely on the nation's three major wind farms: the Lake Turkana Wind Power Station, the Kipeto Wind Power Station, and the Ngong Hills Wind Farm. While these wind power stations are beneficial to help offset fossil fuel usage and increase overall energy supply reliability in Kenya, project developments have also negatively impacted some indigenous communities and the parts of the environment surrounding the wind farms.

History and growth

Kenya has historically relied on imported crude oil and natural gas from nations such as the United Arab Emirates to provide electricity.[4] [5] Over the past two decades the nation is gradually reducing its reliance on fossil fuels through investments in renewable energy such as wind, solar, geothermal, and hydro powers (source of renewable energy which uses the natural flow of moving water to generate electricity).[6]

Wind power has provided the nation with the ability to remove reliance on fossil fuels since the early 2000s.[7] The first wind farm in Kenya appeared in early 2000 in Ngong Hills with a capacity of 0.4 MW by the Kenya Electricity Generating Company (KenGen). In 2011, the grid installed capacity of wind power was increased to 5.3 MW, and in 2015, to 25.5 MW.[8] Because of this power plant, the contribution of wind power generation as a national source of energy in 2017 was 1.09% (25.5 MW).

The share of non-fossil energy in the Kenyan energy system increased by 90% between 2010 and 2018, with wind and solar energy accounting for 3% of this share.[9] There is a projected increase in renewables (solar and wind) contribution to about 18.5% of the total national grid mix by 2030.

Electricity demand in Kenya has had a steady growth rate of around 5.6% annually, and is projected to reach 5,780 MW in 2030.[10]

Wind resources

Kenya resides in the equatorial zone, a subsection of the tropics known to provide substantial wind and solar energy resources. Areas in the Rift Valley, such as the Marsabit and Turkana counties, enjoy the best wind speeds of the country and are highly utilized in wind based electrical production.[11]

When compared with the rest of Africa, Kenya ranks among the top in potential for wind energy as it has an above average land wind speed range of 3.26-8.11 m/s compared to the global average land wind speed of 3.28 m/s at 10 meters.[12] [13] Kenya has the potential for wind capacity at 346 W/m2. Kenya utilizes this natural resource to produce up to 16% of the nation's energy.

Lake Turkana

The Lake Turkana Wind Power Station, Kenya's largest wind farm, utilizes the Turkana Channel jet for its wind power productions.[14] Wind from this low level jet blows year round in large thanks to the daily temperature changes in Marsabit County.

Green energy goals

Policies and politics

Current projects

Lake Turkana Wind Power Station

Kenya's Lake Turkana Wind Power Station (LTWP) in Marsabit County is Africa's largest wind farm to date. The project was conceived in 2005 through a collaboration of Anset Africa Limited and KP&P and was completed in 2017 after 3 years of construction.[24] At a cost of US$700 million, it is the largest single private investment project in Kenya's history.[25]

The LTWP was commissioned to aid Kenya in reaching its sustainability goal of consuming 100% green energy by 2030. The LTWP aims to reduce usage of fossil fuels and greenhouse gas emissions by reducing thermal power generation and diverting energy generation to renewable sources such as wind.[26]

The LTWP generates 310 megawatts (MW) of wind power capacity to Kenya's national grid through the 365 44-meter wide turbines and 436 km of transmission lines installed during construction.[27] The energy generated by the LTWP provides 15-17% of Kenya's installed energy capacity and offsets 736,615 tons of carbon dioxide annually.[28] The 310 MW of wind energy produced will also:

Kipeto Wind Power Station

The Kipeto Wind Power Station is the second largest wind farm in Kenya, located in Kajiado County.[29] Its 60 General Electric turbines provide 102 MW of power to Kenya's power grid, supporting 250,000 households.[30] The power station advances the Kenya Vision 2030 objective: to modernize their power grid and achieve universal access to electricity by 2030.[31]

The Kipeto project is owned by the Kipeto Energy PLC (KEP), a special purpose vehicle created specifically for the Kipeto project.[32] BTE Renewables, a shareholder of KEP, was supported by Power Africa, a U.S. government partnership of organizations to expand renewable energy access in Africa.[33] The project reached financial close at the end of 2018, and began operations in July 2021. To mitigate construction delays due to COVID-19, Power Africa supported the Kipeto project in its recovery of power and energy demand after the lifting of lockdown measures.

Ngong Hills Wind Farm

Ngong Hills Wind Farm is situated roughly 35 kilometers (22 mi) southwest of Nairobi.[34] Producing 25.5 MW of electricity, and with plans of increasing the capacity by an additional 10 MW, Ngong Hills Wind Farm was Kenya's first wind farm to be commissioned.[35] [36] Ngong Hills Wind Farm is also recognized as the first wind farm in East Africa with construction being completed in 1993 with the help of Belgium collaboration. In 2013, Kenya Electricity Generating Company, (KenGen) which owns and operates the wind farm and power station began adding new turbines, which have since generated more electricity for the country.[37]

Wind power facilities in Kenya

Operational
PlantCapacity (MW)Status
Lake Turkana Wind Power Station310Commissioned 2019
Kipeto Wind Power Station102Commissioned 2021
Mombasa Cement Wind Power Station36Commissioned 2019[38]
Ngong Hills Wind Farm25.5Commissioned 1993
Planned
PlantCapacity (MW)Status
Meru Wind Power Station400[39] On hold
Bubisa Wind Power Station300[40] Under development
Lamu Wind Power Station90[41] On hold
Bahari Wind Farm90[42] Under development
Chania Green Generation50[43] Under development
Limuru Wind Farm50[44] Announced
Ol-Ndanyat Wind Power Project30[45] Under development

Challenges and impacts

Indigenous community impact

The construction of wind farms has negatively impacted some local indigenous communities.[46] The failure to recognize and respect indigenous peoples' rights is a violation of international law, and failure to conduct local consultation can lead to serious legal ramifications for green energy projects.

In 2015, plaintiffs representing the pastoralist communities of El Molo, Turkana, Samburu, and Rendille presented the consequences of the Lake Turkana Wind Power project, including housing displacement, environmental degradation, and social inequality.[47] As ruled in 2021 by the Kenyan Environment and Land Court in Meru, the deeds for acquisition of the land for the LTWP was considered “irregular, unlawful and unconstitutional”[48] and infringed on the rights of the communities living there. While the LTWP finalized project was not nullified, Marsabit County was given one year to correct the process before the land would be returned to the community.

Environmental impact

Strategic environmental impact-assessment studies (SEIAS) are being implemented for all Kenyan wind power projects to monitor how these projects are affecting their surrounding environments. Power Africa and USAID Kenya created a Biodiversity Action Plan (BAP) to help understand the impact wind farms will have on “critically endangered” raptors in the Kajiado County, where the Kipeto Wind Power Station is located.[49] Utilizing these assessments will aid in the creation of mitigation efforts and conservation measures for the Rüppell's vulture and the White-backed vultures, which were needed to secure environmental approvals for project oversight.

Negative social and environmental impacts have also been highlighted in Environmental and Social Impact Assessments (ESIA) for the Lake Turkana Wind Power Station. According to an updated ESIA summary from 2011, some potential negative impacts include increased fire risks, soil erosion, air pollution, and terrestrial habitat alteration. Trees and brush needed to be cut down to make room for construction and be used as fuel wood and building materials. In an area where vegetation was already “very scarce”, the alteration of local flora would lead to “an unbalanced use of vegetation by livestock, thus causing overgrazing and degradation of the environment”. Mitigation plans, such as implementing a revegetation plan to repopulate disturbed areas with native plant species and saplings, were implemented to address these issues.

See also

External links

Notes and References

  1. Kazimierczuk . Agnieszka H. . 2019-06-01 . Wind energy in Kenya: A status and policy framework review . Renewable and Sustainable Energy Reviews . en . 107 . 434–445 . 10.1016/j.rser.2018.12.061 . 115528339 . 1364-0321. 1887/70560 . free .
  2. Web site: 19 August 2022 . Kenya - Energy-Electrical Power Systems . 2023-04-05 . International Trade Administration . en.
  3. Kant, Ard, et al. (2014-10-01). Market Study to Strengthen Economic Cooperation in the Energy Sector. Triple E Consulting. Retrieved 2023-04-05.
  4. Web site: Fuel imports (% of merchandise imports) - Kenya Data . 2023-04-05 . The World Bank.
  5. Web site: Refined Petroleum in Kenya OEC . 2023-04-05 . OEC - The Observatory of Economic Complexity . en.
  6. Web site: Hydropower Basics . 2023-04-06 . Energy.gov . en.
  7. The Kenya Power & Lighting Co. Ltd.. (2005). KPLC Annual Report and Accounts. Retrieved 2023-04-06.
  8. The Kenya Power & Lighting Co. Ltd.. (2018). Annual Report and Financial Statements for the Year Ended 30th June 2018. Retrieved 2023-04-06.
  9. Book: 2021-11-15 . Lema . Rasmus . Andersen . Margrethe Holm . Hanlin . Rebecca . Nzila . Charles . Building Innovation Capabilities for Sustainable Industrialisation . 2023-04-06 . Taylor & Francis Group . en . London . 10.4324/9781003054665 . 9781003054665. 243904949 .
  10. Republic of Kenya. (June 2018). Updated Least Cost Power Development Plan - Study Period: 2017-2037. Decoalonize.org. Retrieved 2023-04-06.
  11. Muchiri . Kennedy . Kamau . Joseph Ngugi . Wekesa . David Wafula . Saoke . Churchill Otieno . Mutuku . Joseph Ndisya . Gathua . Joseph Kimiri . 2023-07-01 . Wind and solar resource complementarity and its viability in wind/PV hybrid energy systems in Machakos, Kenya . Scientific African . en . 20 . e01599 . 10.1016/j.sciaf.2023.e01599 . 2023SciAf..2001599M . 257174016 . 2468-2276. free .
  12. Archer . Christina L. . Jacobson . Mark Z. . 2005 . Evaluation of global wind power . Journal of Geophysical Research: Atmospheres . 110 . D12 . 10.1029/2004JD005462. 2005JGRD..11012110A . free .
  13. Web site: Global Wind Atlas . 2023-04-05 . globalwindatlas.info . en.
  14. Gabisch . M . December 2011 . Updated Environmental and Social Impact Assessment Summary: Lake Turkana Wind Power Project, Kenya . African Development Bank Group.
  15. AREI. (October 2015). "A framework for transforming Africa towards a renewable energy powered future with access for all". African Power Platform. Retrieved 2023-04-06.
  16. Web site: Rural Electrification and Renewable Energy Corporation . 2023-04-07 . www.rerec.co.ke.
  17. Web site: Energy Regulatory Commission of Kenya . 2023-04-07 . Energy and Petroleum Regulatory Authority . en-US.
  18. Bryan Cave Leighton Paisner (BLP). (2017). Power to Africa Volume 3: Kenya – Part 1. Lexology.
  19. Ministry of Energy. (2012). "Feed-In-Tariffs Policy on Wind, Biomass, Small-Hydro, Geothermal, Biogas and Solar Resource Generated Electricity 2012". Public Policy Repository. Retrieved 2023-04-05.
  20. Ministry of Energy and Petroleum, Republic of Kenya. (September 2013). "Energy Day". Retrieved 2023-04-05.
  21. Eberhard, Anton; Gratwick, Katharine; Morella, Elvira; Antmann, Pedro. 2016. Independent Power Projects in Sub-Saharan Africa; Independent Power Projects in Sub-Saharan Africa: Lessons from Five Key Countries : Lessons from Five Key Countries. Directions in Development--Energy and Mining;. © Washington, DC: World Bank. https://openknowledge.worldbank.org/entities/publication/561f671b-29e2-5e09-bcc5-52eaeb3e6849 License: CC BY 3.0 IGO.
  22. Web site: 2021-04-05 . Kenya Energy Act 2019 . 2023-04-07 . Public-Private-Partnership Legal Resource Center . en.
  23. Web site: Fitch Solutions . 2022-01-16 . Kenya's New Energy Auction System To Favour Wind And Solar Investments Ahead Of Geothermal - REGlobal - Mega Trends & Analysis . 2023-04-07 . REGlobal . en-US.
  24. Web site: Carmen . 2021-11-26 . Lake Turkana Wind Power Project, Kenya . 2023-04-06 . Power Technology . en-US.
  25. Web site: Salaudeen . Aisha . 2019-07-20 . Kenya launches largest wind power plant in Africa . 2023-04-06 . CNN . en.
  26. Web site: Allen . Grace . 2019-08-20 . What's driving wind power in Kenya and what challenges lie in wait? . 2023-04-06 . NS Energy . en-US.
  27. Web site: 2017-02-01 . LEDS in practice: Massive wind power project to benefit Kenya . 2023-04-06 . Global Climate Action Partnership . en-US.
  28. Web site: 5 February 2020. Lake Turkana Wind Power . 2023-04-06 . Norfund . en-US.
  29. Web site: Bungane . Babalwa . 2021-01-25 . 100MW Kipeto wind farm connects to Kenya's power grid . 2023-04-06 . ESI-Africa.com . en-ZA.
  30. Web site: Power Africa . 2021-07-13 . Celebrating Clean Power in Kenya: The Kipeto Wind Farm . 2023-04-06 . Medium . en.
  31. Kenya National Electrification Strategy: Key Highlights.” Public Documents Profile Viewer. 2018. Retrieved 2023-04-05.
  32. Web site: Kipeto Energy – Kipeto Energy Kenya . 2023-04-06 . en-US.
  33. Web site: 2023-03-07 . Power Africa . 2023-04-06 . U.S. Agency for International Development . en.
  34. Web site: Distance between Nairobi, Kenya and Ngong Hills Nature Reserve, Kajiado, Kenya, (Kenya) . 2023-04-06 . distancecalculator.globefeed.com.
  35. Web site: Takouleu . Jean Marie . 2019-02-20 . KENYA: KenGen to increase Ngong Hills wind farm capacity by 10 MW . 2023-04-06 . Afrik 21 . en-US.
  36. Book: Gregersen, Cecilia Theresa Trischler . Building innovation capabilities through renewable electrification: A study of learning and capability building in wind power megaprojects in Kenya and Ethiopia . 2022 . Aalborg Universitetsforlag . Ph.d.-serien for Det Humanistiske og Samfundsvidenskabelige fakultet, Aalborg Universitet. 10.54337/aau510573998 . 256154747 .
  37. Web site: Birir . Chebet . Ngong Hills wind power site the perfect place to unwind, enjoy cool breeze . 2023-04-06 . The Standard . en.
  38. Web site: Cement News . 2019-11-29 . Mombasa Cement set to commission wind farm . 2023-04-05 . International Cement Review.
  39. Web site: African Power Platform - KenGen Meru Wind Farm . 2023-04-06 . African Power Platform.
  40. Web site: Takouleu . Jean Marie . 2021-11-24 . KENYA: Gitson Energy wins case for its 300 MW wind project in Bubisa . 2023-04-06 . Afrik 21 . en-US.
  41. Web site: Praxides . Cheti . 2023-03-29 . Landowners alarmed over state silence on stalled Sh21bn Lamu wind power project . 2023-04-06 . The Star . en-KE.
  42. Web site: Kwame . Vivian . 2020-02-04 . Bahari Wind Farm To Break Ground After Signing Deal . 2023-04-06 . Africa Sustainability Matters . en-US.
  43. Web site: Chania Green Generation Project . 2023-04-06 . Frontier Energy . en-US.
  44. Gachau, Phyllis. (2014-11-28). "Renewable Energy: Local Consortium to Develop 50mw Wind Farm in Limuru". TransCentury Limited. Retrieved 2023-04-05.
  45. Web site: Carmen . 2022-02-18 . Ol Danyat Wind Power Project, Kenya . 2023-04-06 . Power Technology . en-US.
  46. Web site: 2021-11-10 . The cost of ignoring human rights and Indigenous Peoples . 2023-04-07 . IWGIA - International Work Group for Indigenous Affairs.
  47. Web site: Lingaas . Carola . 2021-12-15 . Wind Farms in Indigenous Areas: The Fosen (Norway) and the Lake Turkana Wind Project (Kenya) Cases . 2023-04-06 . Opinio Juris . en-US.
  48. Mohamud Iltarakwa Kochale & 5 others v Lake Turkana Wind Power Ltd & 9 others, ELC CASE NO. 163 (2014). https://media.business-humanrights.org/media/documents/Lake_Turkana_Wind_Power_Judgment_October_2021.pdf Retrieved 2023-04-05.
  49. Web site: 2020-07-25 . Kipeto wants to help conserve, not kill vultures, other raptors . 2023-04-06 . The East African . en.