Difference between revisions of "Mozambique Renewable Energy Potential"
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== Introduction == | == Introduction == | ||
| − | Large scale renewable projects are becoming a point of interest for investment in Mozambique, specifically solar and hydro. | + | Large scale renewable projects are becoming a point of interest for investment in Mozambique, specifically solar and hydro. Mozambique’s main body to promote renewable energy access, FUNAE, expects that the capacity of on-grid renewable energy from independent power producers (IPP) will increase to 575 MW by 2030. In 2022, 60 MW were in operation and an additional 15 MW were under construction. 310 MW projects are in pre-feasibility phase and tenders amounting to 140 MW was launched by Mozambique's renewable energy auctions program: PROLER, which assists Mozambique’s national utility, EDM, with calls for tenders. The remaining 50 MW correspond to power purchase agreements already signed<ref name=":8">ALER, AMER 2022, ''Resumo: Renováveis em Moçambique,'' https://mocambique.lerenovaveis.org/contents/lerpublication/a4_resumo_renov_moz_2022_vfinal.pdf</ref>. |
| − | |||
== Solar == | == Solar == | ||
| − | [[File:Solar map of Mozambique.png|thumb]] | + | [[File:Solar map of Mozambique.png|thumb|PV Power Potential in Mozambique, World Map<ref name=":9">''“Yearly average values of PV electricity (AC) delivered by a PV system and normalized to 1kWp of installed capacity (© 2019 Solargis)”'' (https://globalsolaratlas.info/support/methodology)</ref>]] |
Mozambique has an abundant and unexploited solar resource which could be harnessed for utility scale as well as residential PV for both on/off grid electrification. The following map shows the global horizontal irradiation profile of Mozambique which varies between 1,785 and 2,206 kWh/m2/year. The potential for harnessing solar energy is limited both by the on-going re-establishment of the energy policy in Mozambique and the dispersion of rural population throughout the country. From the total potential of 23,000 GW, only about 2.7 GW would be realistically suitable for solar projects compatible with the present electrification and grid expansion plans. However, the fact that rural population is highly scattered means that instead of extending on-grid electrification, off-grid Solar Home Systems and mini-grids could be a more cost-effective alternative to provide access to electricity in remote and scattered communities<ref>Pranab Baruah and Brendan Coleman, ‘Country Brief: Mozambique Off-Grid Solar Power in Mozambique: Opportunities for Universal Energy Access and Barriers to Private Sector Participation’, n.d., 26.</ref>. | Mozambique has an abundant and unexploited solar resource which could be harnessed for utility scale as well as residential PV for both on/off grid electrification. The following map shows the global horizontal irradiation profile of Mozambique which varies between 1,785 and 2,206 kWh/m2/year. The potential for harnessing solar energy is limited both by the on-going re-establishment of the energy policy in Mozambique and the dispersion of rural population throughout the country. From the total potential of 23,000 GW, only about 2.7 GW would be realistically suitable for solar projects compatible with the present electrification and grid expansion plans. However, the fact that rural population is highly scattered means that instead of extending on-grid electrification, off-grid Solar Home Systems and mini-grids could be a more cost-effective alternative to provide access to electricity in remote and scattered communities<ref>Pranab Baruah and Brendan Coleman, ‘Country Brief: Mozambique Off-Grid Solar Power in Mozambique: Opportunities for Universal Energy Access and Barriers to Private Sector Participation’, n.d., 26.</ref>. | ||
| − | The PV power potential map developed by the World Bank shows the potential for PV power projects in Mozambique on a scale of a yearly total specific PV power output | + | The PV power potential map developed by the World Bank shows the potential for PV power projects in Mozambique on a scale of a yearly total specific PV power output of 1,534 to 1,753 kWh/kWp. The zones marked in the darkest shade show the highest potential<ref name=":9" />. |
| − | + | By the end of 2022, there is a total of 125 MW of solar power plants (under a public-private partnership (PPP)) developed in Mozambique, of which 60 MW are already connected to the national grid: Projects Mocuba and Metoro. An additional 15 MW plant in Cuamba is currently under construction and two more plants (Cuamba II, 30 MW and Pemba/Mecufi, 20 MW) already went through an approved Power Purchase Agreement (PPA). In May 2022 the tender launched by PROLER for a solar project in Dondo was awarded to Total Eren for 30 MW, to start construction in early 2023. Two more 30 MW projects launched in November 2022 are still in pre-qualification stage, and six more projects varying from 20 MW to 50 MW are still in pre-feasibility stage<ref name=":2">ALER, ‘Renováveis Em Moçambique’, 2021, https://www.lerenovaveis.org/contents/lerpublication/aler_mar2021_resumo-renovaveis-em-mocambique-2021.pdf.</ref>. | |
| + | {| class="wikitable" | ||
| + | |+Large scale solar projects in Mozambique (tender stage/construction/operating) | ||
| + | |'''Solar Plant''' | ||
| + | |'''Description''' | ||
| + | |'''Status''' | ||
| + | |- | ||
| + | |30 MW*, Mocuba, Zambezia | ||
| + | |PV facility owed by EDM and two Norwegian Independent Power Producers: Scatec Solar and KLP Norfund Investments. The facility will supply electricity to about 175,000 households as part of a 25 year power purchase agreement with EDM.<ref>MOZAMBIQUE: Scatec Solar and partners successfully connect Mocuba power plant: https://www.afrik21.africa/en/mozambique-scatec-solar-and-partners-successfully-connect-mocuba-power-plant/</ref> | ||
| + | |in operation since 2019<ref name=":5">PV Magazine, ‘Construction Begins on 41 MW Solar Project in Mozambique’, pv magazine International, 2020, https://www.pv-magazine.com/2020/10/30/construction-begins-on-41-mw-solar-project-in-mozambique/.</ref><ref name=":6">Mozambique Conflict: What’s behind the Unrest?’, ''BBC News'', 29 March 2021, sec. Africa, https://www.bbc.com/news/world-africa-56441499.</ref> | ||
| + | |- | ||
| + | |30 MW*, Metoro, Cabo Delgado | ||
| + | |Owned by the French IPP Neoen (75% share) and EDM (25% share) and has a capacity to add 69 GW/hr per year electricity to the national grid. Neoen has also signed a 20 year power purchase agreement with EDM <ref>Afrik21 (2022):MOZAMBIQUE: France’s Neoen commissions its 41 MWp Metoro solar power plant. https://www.afrik21.africa/en/mozambique-frances-neoen-commissions-its-41-mwp-metoro-solar-power-plant/ | ||
| + | </ref><ref>ALER (2022): Mozambican president inaugurates the country's largest solar power plant. https://www.aler-renovaveis.org/en/communication/news/mozambican-president-inaugurates-the-countrys-largest-solar-power-plant/</ref> . | ||
| + | |in operation since April 2022<ref>ESI (2022).Mozambique’s EDM invests $40m into solar and wind power plants. https://www.esi-africa.com/renewable-energy/mozambiques-edm-invests-40m-into-solar-and-wind-power-plans/</ref> | ||
| + | |- | ||
| + | |30 MW, Dondo, Sofala | ||
| + | |Total Eren is responsible for design, financing, construction and operation of this project, under a public-private partnership model. Total Eren will also sign a power purchase agreement to sell the electricity to EDM.<ref>MOZAMBIQUE: Total Eren awarded the contract for the Dondo solar power plant: https://www.afrik21.africa/en/mozambique-total-eren-awarded-the-contract-for-the-dondo-solar-power-plant/</ref> | ||
| + | |On April 2022, ARENE awarded the tender to Total Eren<ref name=":8" /> | ||
| + | |- | ||
| + | |30 MWp, Chimuara | ||
| + | |Solarcentury Africa, Renewable Energy Services Africa (RESA) and Checunda Investimentos are jointly developing this plant and the electricity will be sold to EDM.<ref name=":10">MOZAMBIQUE: Solarcentury joins forces with RESA and Checunda for a 100 MWp solar park. 2022. https://africa-energy-portal.org/news/mozambique-solarcentury-joins-forces-resa-and-checunda-100-mwp-solar-park</ref> | ||
| + | |land secured and will be built in phases with first phase having a capacity of 30 MWp<ref name=":10" /> | ||
| + | |- | ||
| + | |19MWp solar plant with a 2 MW (7MWh) energy storage system, Cuamba, Niassa | ||
| + | |Globeleq and Source Energia are responsible for constructing this plant and the generated electricity will be sold to EDM using a 25 year long PPA. The companies will also upgrade the existing Cuamba sub-station as part of their agreement with EDM.<ref>Globeleq (2021). Cuamba Solar PV + Energy Storage Project Breaks Ground in Mozambique.https://www.globeleq.com/blog/cuamba-solar-pv-energy-storage-project-breaks-ground-in-mozambique/ | ||
| − | </ref><ref> | + | https://www.globeleq.com/blog/projects/cuamba-solar/</ref> |
| + | |construction<ref>Globeleq (2022).Cumaba Solar. https://www.globeleq.com/blog/projects/cuamba-solar/</ref> | ||
| + | |} | ||
| + | <nowiki>*</nowiki>Capacity available for EDM<ref name=":2" /> | ||
| − | + | During the African Energy Forum celebrated in June 2022, EDM together with the International Finance Cooperation (IFC) announced four mini solar PV and battery storage facilities with an expected total production of 50 MW. These plants are planned to be part of the National Grid and IFC will also conduct a grid integration and financial feasibility study before the construction of the solar plants.<ref>AEF, "IFC and EDM Partner to Increase Access to Renewable Energy in Mozambique", <nowiki>https://www.africa-energy-forum.com/press-release-ifc-edm-partner-increase-access-renewable-energy-mozambique</nowiki></ref><ref>MOZAMBIQUE: Agreement between EDM and IFC for 4 mini solar power plants of 50 MW: https://www.afrik21.africa/en/mozambique-agreement-between-edm-and-ifc-for-4-mini-solar-power-plants-of-50-mw/</ref> | |
== Hydropower == | == Hydropower == | ||
| − | As of 2020, Mozambique has one of the highest hydropower potential in Africa, estimated at more than 12,000 MW<ref name=":0">Kameshnee Naidoo and Christiaan Loots, ‘Mozambique / Energy and the Poor – Unpacking the Investment Case for Clean Energy’, 2020, https://sun-connect-news.org/fileadmin/DATEIEN/Dateien/New/2021-01-29_UNDP-UNCDF-Mozambique-Energy-and-the-Poor.pdf.</ref>, especially in the Tete province, at the Zambezi River, where the large-scale plant Cahora Bassa is located (more than 80% of the potential). The other 12 major river basins are Maputo, Umbeluzi, Incomati, Limpopo, Save, Buszi, Pungwe, Licungo, Ligonha, Lúrio, Messalo, and Rovuma and have potential for all types of hydropower from pico, mini to large-scale hydropower<ref>Miguel M. Uamusse et al., ‘Mini-Grid Hydropower for Rural Electrification in Mozambique: Meeting Local Needs with Supply in a Nexus Approach’, ''Water'' 11, no. 2 (February 2019): 305, https://doi.org/10.3390/w11020305.</ref>. Exportation of electricity generated in Cahora Bassa is already a regular business, which makes Mozambique a critical supplier of electricity to | + | As of 2020, Mozambique has one of the highest hydropower potential in Africa, estimated at more than 12,000 MW<ref name=":0">Kameshnee Naidoo and Christiaan Loots, ‘Mozambique / Energy and the Poor – Unpacking the Investment Case for Clean Energy’, 2020, https://sun-connect-news.org/fileadmin/DATEIEN/Dateien/New/2021-01-29_UNDP-UNCDF-Mozambique-Energy-and-the-Poor.pdf.</ref>, especially in the Tete province, at the Zambezi River, where the large-scale plant Cahora Bassa is located (more than 80% of the potential). The other 12 major river basins are Maputo, Umbeluzi, Incomati, Limpopo, Save, Buszi, Pungwe, Licungo, Ligonha, Lúrio, Messalo, and Rovuma and have potential for all types of hydropower from pico, mini to large-scale hydropower<ref>Miguel M. Uamusse et al., ‘Mini-Grid Hydropower for Rural Electrification in Mozambique: Meeting Local Needs with Supply in a Nexus Approach’, ''Water'' 11, no. 2 (February 2019): 305, https://doi.org/10.3390/w11020305.</ref>. Exportation of electricity generated in Cahora Bassa is already a regular business, which makes Mozambique a critical supplier of electricity to neighboring countries and an area of interest for further electricity commerce<ref name=":0" />. |
| − | However, the grid connection of large-scale hydropower plants is not a solution to electrify rural off-grid population. The construction of strategically | + | However, the grid connection of large-scale hydropower plants is not a solution to electrify rural off-grid population. The construction of strategically localized micro-hydro plants could improve the electrification rate for this section of the population. The current feed-in-tariff approved in 2014, supports PPA for small hydropower projects from 10 kW to 10 MW. This incentive is expected to improve investments in small projects in order to increase job opportunities, electrify rural households and public buildings, as well as drive economic development of local rural villages. There are currently studies to evaluate the benefits and possibility of replication or expansion of existing small scale hydropower, such as the plant located in Manica<ref>Miguel Uamusse, ''Small Scale Hydropower as a Resources of Renewable Energy in Mozambique: Case of Chua River in Manica'', 2018, https://doi.org/10.20944/preprints201805.0327.v1</ref>. |
{| class="wikitable" | {| class="wikitable" | ||
|+'''Table: Installed hydropower capacity in Mozambique''' | |+'''Table: Installed hydropower capacity in Mozambique''' | ||
| Line 29: | Line 56: | ||
|- | |- | ||
|Cahora Bassa | |Cahora Bassa | ||
| − | |2075 | + | |2075<ref name=":11" /> |
|Tete | |Tete | ||
|Hidroeléctrica de Cahora Bassa | |Hidroeléctrica de Cahora Bassa | ||
|- | |- | ||
|Mavuzi | |Mavuzi | ||
| − | |52 | + | |52<ref name=":12" /> |
|Manica | |Manica | ||
|EDM | |EDM | ||
|- | |- | ||
|Chicamba | |Chicamba | ||
| − | |44 | + | |44<ref name=":12" /> |
|Manica | |Manica | ||
|EDM | |EDM | ||
|- | |- | ||
|Corumana | |Corumana | ||
| − | |16.6 | + | |16.6<ref name=":12" /> |
|Maputo | |Maputo | ||
|EDM | |EDM | ||
|- | |- | ||
|Cuamba | |Cuamba | ||
| − | |1.09 | + | |1.09<ref name=":12" /> |
|Niassa | |Niassa | ||
|EDM | |EDM | ||
|- | |- | ||
|Lichinga | |Lichinga | ||
| − | |0.73 | + | |0.73<ref name=":12" /> |
|Niassa | |Niassa | ||
|EDM | |EDM | ||
|} | |} | ||
| − | Source: Cahora Bassa Data from 2016<ref | + | Source: Cahora Bassa Data from 2016<ref name=":11" /> |
| − | + | Data for EDM plants from 2018<ref name=":12">EDM, ‘Generation | EDM - Electricidade de Moçambique’, accessed 19 May 2021, https://www.edm.co.mz/en/website/page/generation.</ref> | |
| − | Planned large-scale hydropower projects include a 1,245 MW north bank expansion of the Cahora Bassa in 2021 and a new power plant with an installed capacity of 1,500 MW (Mphanda Nkuwa) 60 km downstream from Cahora Bassa to be commissioned in 2028<ref>IHA, ‘Hydropower Status Report’, 2016, https://www.lerenovaveis.org/contents/lerpublication/iha_2016_may_hydropower-status-report-2016.pdf</ref>. | + | Planned large-scale hydropower projects include a 1,245 MW north bank expansion of the Cahora Bassa in 2021 and a new power plant with an installed capacity of 1,500 MW (Mphanda Nkuwa) 60 km downstream from Cahora Bassa to be commissioned in 2028<ref name=":11">IHA, ‘Hydropower Status Report’, 2016, https://www.lerenovaveis.org/contents/lerpublication/iha_2016_may_hydropower-status-report-2016.pdf</ref>. |
{| class="wikitable" | {| class="wikitable" | ||
|+ | |+ | ||
| Line 69: | Line 96: | ||
|'''Location''' | |'''Location''' | ||
|'''Size''' | |'''Size''' | ||
| − | |'''Status (as of | + | |'''Status (as of 2022)''' |
|- | |- | ||
|Cahora Bassa North Bank | |Cahora Bassa North Bank | ||
| Line 79: | Line 106: | ||
|Tete | |Tete | ||
|1500 MW | |1500 MW | ||
| − | | | + | |African Development Bank will serve as an advisor for this project and the project aims to reach financial close by end -2024 and commissioning is foreseen for 2031. The project is expected to cost USD 4.5 billion<ref>Mozambique: African Development Bank to serve as advisor for development of 1500 MW Mphanda Nkuwa hydropower project: https://www.afdb.org/en/news-and-events/press-releases/mozambique-african-development-bank-serve-advisor-development-1500-mw-mphanda-nkuwa-hydropower-project-51829</ref>. |
| + | Previously, the plant was supposed to be developed and operated by a consortium of three organisations: Camargo Corrêa (40%), Insitec (40%), and EDM (20%). This deal fell through due to lack of finance and hence the Government revoked the concession in 2018. Currently, the Government is looking for private sector investment<ref>Mphanda Nkuwa Hydropower Project: https://www.nsenergybusiness.com/projects/mphanda-nkuwa-hydropower-project/</ref>. | ||
|- | |- | ||
|Lupata | |Lupata | ||
| Line 99: | Line 127: | ||
|Manica | |Manica | ||
|60 MW | |60 MW | ||
| − | | | + | |Feasibility study<ref>Club of Mozambique (2022). Mozambique energy consumption exceeding 1000MW at peak times. https://furtherafrica.com/2022/07/18/mozambique-energy-consumption-exceeding-1000mw-at-peak-times/</ref> |
|- | |- | ||
|Malema | |Malema | ||
| Line 113: | Line 141: | ||
== Wind == | == Wind == | ||
| − | |||
Mozambique has a potential wind capacity of 4.5 GW, of which about 25% has potential for immediate connection to the existing grid. The provinces with the most potential are Tete, Maputo, Sofala, Gaza, and Inhambane. This potential is determined by the sites with the highest average wind speed at 80 m (more than 7 m/s in Maputo and Gaza), and having more than 3,000 hours equivalent to the nominal power<ref name=":3">Recurso Eólico’, accessed 24 June 2021, https://www.funae.co.mz/index.php/pt/recursos/recurso-eolico</ref>. | Mozambique has a potential wind capacity of 4.5 GW, of which about 25% has potential for immediate connection to the existing grid. The provinces with the most potential are Tete, Maputo, Sofala, Gaza, and Inhambane. This potential is determined by the sites with the highest average wind speed at 80 m (more than 7 m/s in Maputo and Gaza), and having more than 3,000 hours equivalent to the nominal power<ref name=":3">Recurso Eólico’, accessed 24 June 2021, https://www.funae.co.mz/index.php/pt/recursos/recurso-eolico</ref>. | ||
| − | The following maps show the mean wind speed at 100 m above sea level, and the estimated mean power density available from the wind resource. The southern region of Maputo shows a high mean wind speed at 100 m, however the power density is low. The areas with the best wind resource and higher mean power density are located in the central part of Tete and at the border between the Nampula and Zambezia provinces<ref name=":3" /> | + | The following maps show the mean wind speed at 100 m above sea level, and the estimated mean power density available from the wind resource. The southern region of Maputo shows a high mean wind speed at 100 m, however the power density is low. The areas with the best wind resource and higher mean power density are located in the central part of Tete and at the border between the Nampula and Zambezia provinces<ref name=":3" />.[[File:Mean wind speed for Mozambique.jpg|thumb|400x400px|Map1: Mean wind speed at 100 m<ref name=":3" /> |alt=|none]] |
| − | + | [[File:Mean wind power density.jpg|thumb|Map2: Mean wind power density at 100 m<ref name=":3" />|alt=|none|400x400px]]There are two wind projects planned for a total of 170 MW of installed capacity. For one of the wind projects, a 50 MW plant to be located in the Inhambane province, the tender will be launched in early 2024. The other project will be located in Namaacha, close to Maputo<ref name=":2" />. EleQtra (private company) won the tender to construct a 120 MW wind farm in Namaacha. The construction started in Aug 2020 and is expected to be commissioned in 2023. It will be developed in two phases: the first phase includes 60 MW and additional 60 MW will be added in second phase as the demand evolved. EleQtra has singed a power purchase agreement to sell the electricity to EDM<ref name=":7">Namaacha wind project in Mozambique starts construction: https://cceonlinenews.com/2020/09/03/namaacha-wind-project-in-mozambique-starts-construction/</ref> and will be connected to the Boane substation<ref>Wind energy in Mozambique, EleQtra starts the first wind farm: https://www.evwind.es/2020/09/03/wind-energy-in-mozambique-eleqtra-starts-the-first-wind-farm/76965</ref>. | |
| − | There are | ||
| − | |||
| − | |||
| − | |||
== Biomass == | == Biomass == | ||
| − | Overall, Mozambique has a rich biomass potential of over 2 GW<ref name=":1" />. Charcoal and firewood are important fuels for cooking energy purposes in Mozambique, as well as in other countries in southern Africa. Mozambique’s dry tropical woodland allows the growth of tree species, such as ''Colophospermum mopane,'' which provides a high-quality, slow-burning product<ref>Emily Woollen et al., ‘Charcoal Production in the Mopane Woodlands of Mozambique: What Are the Trade-Offs with Other Ecosystem Services?’, ''Philosophical Transactions of the Royal Society B: Biological Sciences'' 371, no. 1703 (19 September 2016): 20150315, https://doi.org/10.1098/rstb.2015.0315</ref>. However, the use of charcoal as fuel has serious implications for health, environment, gender and finances and is discussed in this chapter. Sustainable exploitation of biomass resources can prevent land conflicts, abuse of community rights, and environmental impacts such as deforestation, land degradation and greenhouse gas emissions<ref name=":4">‘Mozambique Biomass Energy Strategy.Pdf’, accessed 24 June 2021, https://www.greengrowthknowledge.org/sites/default/files/downloads/policy-database/MOZAMBIQUE%29%20Mozambique%20Biomass%20Energy%20Strategy.pdf</ref>. In order to ensure sustainable biomass production, the National Directorate of New and Renewable Energy in Mozambique, with cooperation from the European Union partners, developed the Biomass Energy Strategy in 2012. This strategy identified the highest potential for biomass from productive forests to be 26.9 million ha. The provinces with the largest potential area are Niassa, Zambezia, Tete and Cabo Delgado<ref name=":4" />. Wood for fuel production is obtained from plantations located mainly in the provinces of Niassa, Zambezia, and Manica<ref name=":4" />. | + | Overall, Mozambique has a rich biomass potential of over 2 GW<ref name=":1">GET.invest, ‘Renewable Energy Potential – GET.Invest’, accessed 21 April 2021, https://www.get-invest.eu/market-information/mozambique/renewable-energy-potential/</ref>. Charcoal and firewood are important fuels for cooking energy purposes in Mozambique, as well as in other countries in southern Africa. Mozambique’s dry tropical woodland allows the growth of tree species, such as ''Colophospermum mopane,'' which provides a high-quality, slow-burning product<ref>Emily Woollen et al., ‘Charcoal Production in the Mopane Woodlands of Mozambique: What Are the Trade-Offs with Other Ecosystem Services?’, ''Philosophical Transactions of the Royal Society B: Biological Sciences'' 371, no. 1703 (19 September 2016): 20150315, https://doi.org/10.1098/rstb.2015.0315</ref>. However, the use of charcoal as fuel has serious implications for health, environment, gender and finances and is discussed in this chapter. Sustainable exploitation of biomass resources can prevent land conflicts, abuse of community rights, and environmental impacts such as deforestation, land degradation and greenhouse gas emissions<ref name=":4">‘Mozambique Biomass Energy Strategy.Pdf’, accessed 24 June 2021, https://www.greengrowthknowledge.org/sites/default/files/downloads/policy-database/MOZAMBIQUE%29%20Mozambique%20Biomass%20Energy%20Strategy.pdf</ref>. In order to ensure sustainable biomass production, the National Directorate of New and Renewable Energy in Mozambique, with cooperation from the European Union partners, developed the Biomass Energy Strategy in 2012. This strategy identified the highest potential for biomass from productive forests to be 26.9 million ha. The provinces with the largest potential area are Niassa, Zambezia, Tete and Cabo Delgado<ref name=":4" />. Wood for fuel production is obtained from plantations located mainly in the provinces of Niassa, Zambezia, and Manica<ref name=":4" />. |
Other biomass fuels with high calorific value are solid wastes, deriving from different productive industries. The following table from GET.invest shows the potential of biomass derived from waste by sector (data from 2014)<ref name=":1" />. | Other biomass fuels with high calorific value are solid wastes, deriving from different productive industries. The following table from GET.invest shows the potential of biomass derived from waste by sector (data from 2014)<ref name=":1" />. | ||
| Line 155: | Line 178: | ||
== References == | == References == | ||
<references /> | <references /> | ||
| + | [[Category:Renewable Energy]] | ||
| + | [[Category:Mozambique]] | ||
Latest revision as of 15:50, 3 February 2023
Introduction
Large scale renewable projects are becoming a point of interest for investment in Mozambique, specifically solar and hydro. Mozambique’s main body to promote renewable energy access, FUNAE, expects that the capacity of on-grid renewable energy from independent power producers (IPP) will increase to 575 MW by 2030. In 2022, 60 MW were in operation and an additional 15 MW were under construction. 310 MW projects are in pre-feasibility phase and tenders amounting to 140 MW was launched by Mozambique's renewable energy auctions program: PROLER, which assists Mozambique’s national utility, EDM, with calls for tenders. The remaining 50 MW correspond to power purchase agreements already signed[1].
Solar
PV Power Potential in Mozambique, World Map[2]
Mozambique has an abundant and unexploited solar resource which could be harnessed for utility scale as well as residential PV for both on/off grid electrification. The following map shows the global horizontal irradiation profile of Mozambique which varies between 1,785 and 2,206 kWh/m2/year. The potential for harnessing solar energy is limited both by the on-going re-establishment of the energy policy in Mozambique and the dispersion of rural population throughout the country. From the total potential of 23,000 GW, only about 2.7 GW would be realistically suitable for solar projects compatible with the present electrification and grid expansion plans. However, the fact that rural population is highly scattered means that instead of extending on-grid electrification, off-grid Solar Home Systems and mini-grids could be a more cost-effective alternative to provide access to electricity in remote and scattered communities[3].
The PV power potential map developed by the World Bank shows the potential for PV power projects in Mozambique on a scale of a yearly total specific PV power output of 1,534 to 1,753 kWh/kWp. The zones marked in the darkest shade show the highest potential[2].
By the end of 2022, there is a total of 125 MW of solar power plants (under a public-private partnership (PPP)) developed in Mozambique, of which 60 MW are already connected to the national grid: Projects Mocuba and Metoro. An additional 15 MW plant in Cuamba is currently under construction and two more plants (Cuamba II, 30 MW and Pemba/Mecufi, 20 MW) already went through an approved Power Purchase Agreement (PPA). In May 2022 the tender launched by PROLER for a solar project in Dondo was awarded to Total Eren for 30 MW, to start construction in early 2023. Two more 30 MW projects launched in November 2022 are still in pre-qualification stage, and six more projects varying from 20 MW to 50 MW are still in pre-feasibility stage[4].
| Solar Plant | Description | Status |
| 30 MW*, Mocuba, Zambezia | PV facility owed by EDM and two Norwegian Independent Power Producers: Scatec Solar and KLP Norfund Investments. The facility will supply electricity to about 175,000 households as part of a 25 year power purchase agreement with EDM.[5] | in operation since 2019[6][7] |
| 30 MW*, Metoro, Cabo Delgado | Owned by the French IPP Neoen (75% share) and EDM (25% share) and has a capacity to add 69 GW/hr per year electricity to the national grid. Neoen has also signed a 20 year power purchase agreement with EDM [8][9] . | in operation since April 2022[10] |
| 30 MW, Dondo, Sofala | Total Eren is responsible for design, financing, construction and operation of this project, under a public-private partnership model. Total Eren will also sign a power purchase agreement to sell the electricity to EDM.[11] | On April 2022, ARENE awarded the tender to Total Eren[1] |
| 30 MWp, Chimuara | Solarcentury Africa, Renewable Energy Services Africa (RESA) and Checunda Investimentos are jointly developing this plant and the electricity will be sold to EDM.[12] | land secured and will be built in phases with first phase having a capacity of 30 MWp[12] |
| 19MWp solar plant with a 2 MW (7MWh) energy storage system, Cuamba, Niassa | Globeleq and Source Energia are responsible for constructing this plant and the generated electricity will be sold to EDM using a 25 year long PPA. The companies will also upgrade the existing Cuamba sub-station as part of their agreement with EDM.[13] | construction[14] |
*Capacity available for EDM[4]
During the African Energy Forum celebrated in June 2022, EDM together with the International Finance Cooperation (IFC) announced four mini solar PV and battery storage facilities with an expected total production of 50 MW. These plants are planned to be part of the National Grid and IFC will also conduct a grid integration and financial feasibility study before the construction of the solar plants.[15][16]
Hydropower
As of 2020, Mozambique has one of the highest hydropower potential in Africa, estimated at more than 12,000 MW[17], especially in the Tete province, at the Zambezi River, where the large-scale plant Cahora Bassa is located (more than 80% of the potential). The other 12 major river basins are Maputo, Umbeluzi, Incomati, Limpopo, Save, Buszi, Pungwe, Licungo, Ligonha, Lúrio, Messalo, and Rovuma and have potential for all types of hydropower from pico, mini to large-scale hydropower[18]. Exportation of electricity generated in Cahora Bassa is already a regular business, which makes Mozambique a critical supplier of electricity to neighboring countries and an area of interest for further electricity commerce[17].
However, the grid connection of large-scale hydropower plants is not a solution to electrify rural off-grid population. The construction of strategically localized micro-hydro plants could improve the electrification rate for this section of the population. The current feed-in-tariff approved in 2014, supports PPA for small hydropower projects from 10 kW to 10 MW. This incentive is expected to improve investments in small projects in order to increase job opportunities, electrify rural households and public buildings, as well as drive economic development of local rural villages. There are currently studies to evaluate the benefits and possibility of replication or expansion of existing small scale hydropower, such as the plant located in Manica[19].
| Plant | Installed Capacity (MW) | Location | Operator |
| Cahora Bassa | 2075[20] | Tete | Hidroeléctrica de Cahora Bassa |
| Mavuzi | 52[21] | Manica | EDM |
| Chicamba | 44[21] | Manica | EDM |
| Corumana | 16.6[21] | Maputo | EDM |
| Cuamba | 1.09[21] | Niassa | EDM |
| Lichinga | 0.73[21] | Niassa | EDM |
Source: Cahora Bassa Data from 2016[20]
Data for EDM plants from 2018[21]
Planned large-scale hydropower projects include a 1,245 MW north bank expansion of the Cahora Bassa in 2021 and a new power plant with an installed capacity of 1,500 MW (Mphanda Nkuwa) 60 km downstream from Cahora Bassa to be commissioned in 2028[20].
| Project name | Location | Size | Status (as of 2022) |
| Cahora Bassa North Bank | Tete | 1245 MW | Sustainability Assessment |
| Mphanda Nkuwa | Tete | 1500 MW | African Development Bank will serve as an advisor for this project and the project aims to reach financial close by end -2024 and commissioning is foreseen for 2031. The project is expected to cost USD 4.5 billion[23].
Previously, the plant was supposed to be developed and operated by a consortium of three organisations: Camargo Corrêa (40%), Insitec (40%), and EDM (20%). This deal fell through due to lack of finance and hence the Government revoked the concession in 2018. Currently, the Government is looking for private sector investment[24]. |
| Lupata | Sofala | 600-650 MW | Feasibility |
| Boroma | Tete | 200-400 MW | Feasibility |
| Lurio | Cabo Delgado | 120 MW | Feasibility |
| Mavuzi 2&3 | Manica | 60 MW | Feasibility study[25] |
| Malema | Nampula | 60 MW | Pre-Feasibility |
| Massingir | Gaza | 25-40 MW | Pre-Feasibility |
Wind
Mozambique has a potential wind capacity of 4.5 GW, of which about 25% has potential for immediate connection to the existing grid. The provinces with the most potential are Tete, Maputo, Sofala, Gaza, and Inhambane. This potential is determined by the sites with the highest average wind speed at 80 m (more than 7 m/s in Maputo and Gaza), and having more than 3,000 hours equivalent to the nominal power[26].
The following maps show the mean wind speed at 100 m above sea level, and the estimated mean power density available from the wind resource. The southern region of Maputo shows a high mean wind speed at 100 m, however the power density is low. The areas with the best wind resource and higher mean power density are located in the central part of Tete and at the border between the Nampula and Zambezia provinces[26].
Map1: Mean wind speed at 100 m[26]
Map2: Mean wind power density at 100 m[26]
There are two wind projects planned for a total of 170 MW of installed capacity. For one of the wind projects, a 50 MW plant to be located in the Inhambane province, the tender will be launched in early 2024. The other project will be located in Namaacha, close to Maputo[4]. EleQtra (private company) won the tender to construct a 120 MW wind farm in Namaacha. The construction started in Aug 2020 and is expected to be commissioned in 2023. It will be developed in two phases: the first phase includes 60 MW and additional 60 MW will be added in second phase as the demand evolved. EleQtra has singed a power purchase agreement to sell the electricity to EDM[27] and will be connected to the Boane substation[28].
Biomass
Overall, Mozambique has a rich biomass potential of over 2 GW[29]. Charcoal and firewood are important fuels for cooking energy purposes in Mozambique, as well as in other countries in southern Africa. Mozambique’s dry tropical woodland allows the growth of tree species, such as Colophospermum mopane, which provides a high-quality, slow-burning product[30]. However, the use of charcoal as fuel has serious implications for health, environment, gender and finances and is discussed in this chapter. Sustainable exploitation of biomass resources can prevent land conflicts, abuse of community rights, and environmental impacts such as deforestation, land degradation and greenhouse gas emissions[31]. In order to ensure sustainable biomass production, the National Directorate of New and Renewable Energy in Mozambique, with cooperation from the European Union partners, developed the Biomass Energy Strategy in 2012. This strategy identified the highest potential for biomass from productive forests to be 26.9 million ha. The provinces with the largest potential area are Niassa, Zambezia, Tete and Cabo Delgado[31]. Wood for fuel production is obtained from plantations located mainly in the provinces of Niassa, Zambezia, and Manica[31].
Other biomass fuels with high calorific value are solid wastes, deriving from different productive industries. The following table from GET.invest shows the potential of biomass derived from waste by sector (data from 2014)[29].
| Forestry | 1006 MW |
| Agro-industry | n/a |
| Pulp Industry | 280 MW |
| Sugar Industry | 831 MW |
| Municipal Solid Waste | 63 MW |
| Other (livestock holdings, vegetable oils for coconut or jatropha) | n/a |
For a breakdown of livelihood zones where sale of biomass is one of the main income sources, see this chapter.
Further Information
- Mozambique Electricity situation
- Energy Access situation
- Renewable Atlas from FUNAE: https://www.funae.co.mz/index.php/pt/recursos/recurso-eolico
References
- ↑ 1.0 1.1 ALER, AMER 2022, Resumo: Renováveis em Moçambique, https://mocambique.lerenovaveis.org/contents/lerpublication/a4_resumo_renov_moz_2022_vfinal.pdf
- ↑ 2.0 2.1 “Yearly average values of PV electricity (AC) delivered by a PV system and normalized to 1kWp of installed capacity (© 2019 Solargis)” (https://globalsolaratlas.info/support/methodology)
- ↑ Pranab Baruah and Brendan Coleman, ‘Country Brief: Mozambique Off-Grid Solar Power in Mozambique: Opportunities for Universal Energy Access and Barriers to Private Sector Participation’, n.d., 26.
- ↑ 4.0 4.1 4.2 ALER, ‘Renováveis Em Moçambique’, 2021, https://www.lerenovaveis.org/contents/lerpublication/aler_mar2021_resumo-renovaveis-em-mocambique-2021.pdf.
- ↑ MOZAMBIQUE: Scatec Solar and partners successfully connect Mocuba power plant: https://www.afrik21.africa/en/mozambique-scatec-solar-and-partners-successfully-connect-mocuba-power-plant/
- ↑ PV Magazine, ‘Construction Begins on 41 MW Solar Project in Mozambique’, pv magazine International, 2020, https://www.pv-magazine.com/2020/10/30/construction-begins-on-41-mw-solar-project-in-mozambique/.
- ↑ Mozambique Conflict: What’s behind the Unrest?’, BBC News, 29 March 2021, sec. Africa, https://www.bbc.com/news/world-africa-56441499.
- ↑ Afrik21 (2022):MOZAMBIQUE: France’s Neoen commissions its 41 MWp Metoro solar power plant. https://www.afrik21.africa/en/mozambique-frances-neoen-commissions-its-41-mwp-metoro-solar-power-plant/
- ↑ ALER (2022): Mozambican president inaugurates the country's largest solar power plant. https://www.aler-renovaveis.org/en/communication/news/mozambican-president-inaugurates-the-countrys-largest-solar-power-plant/
- ↑ ESI (2022).Mozambique’s EDM invests $40m into solar and wind power plants. https://www.esi-africa.com/renewable-energy/mozambiques-edm-invests-40m-into-solar-and-wind-power-plans/
- ↑ MOZAMBIQUE: Total Eren awarded the contract for the Dondo solar power plant: https://www.afrik21.africa/en/mozambique-total-eren-awarded-the-contract-for-the-dondo-solar-power-plant/
- ↑ 12.0 12.1 MOZAMBIQUE: Solarcentury joins forces with RESA and Checunda for a 100 MWp solar park. 2022. https://africa-energy-portal.org/news/mozambique-solarcentury-joins-forces-resa-and-checunda-100-mwp-solar-park
- ↑ Globeleq (2021). Cuamba Solar PV + Energy Storage Project Breaks Ground in Mozambique.https://www.globeleq.com/blog/cuamba-solar-pv-energy-storage-project-breaks-ground-in-mozambique/ https://www.globeleq.com/blog/projects/cuamba-solar/
- ↑ Globeleq (2022).Cumaba Solar. https://www.globeleq.com/blog/projects/cuamba-solar/
- ↑ AEF, "IFC and EDM Partner to Increase Access to Renewable Energy in Mozambique", https://www.africa-energy-forum.com/press-release-ifc-edm-partner-increase-access-renewable-energy-mozambique
- ↑ MOZAMBIQUE: Agreement between EDM and IFC for 4 mini solar power plants of 50 MW: https://www.afrik21.africa/en/mozambique-agreement-between-edm-and-ifc-for-4-mini-solar-power-plants-of-50-mw/
- ↑ 17.0 17.1 Kameshnee Naidoo and Christiaan Loots, ‘Mozambique / Energy and the Poor – Unpacking the Investment Case for Clean Energy’, 2020, https://sun-connect-news.org/fileadmin/DATEIEN/Dateien/New/2021-01-29_UNDP-UNCDF-Mozambique-Energy-and-the-Poor.pdf.
- ↑ Miguel M. Uamusse et al., ‘Mini-Grid Hydropower for Rural Electrification in Mozambique: Meeting Local Needs with Supply in a Nexus Approach’, Water 11, no. 2 (February 2019): 305, https://doi.org/10.3390/w11020305.
- ↑ Miguel Uamusse, Small Scale Hydropower as a Resources of Renewable Energy in Mozambique: Case of Chua River in Manica, 2018, https://doi.org/10.20944/preprints201805.0327.v1
- ↑ 20.0 20.1 20.2 IHA, ‘Hydropower Status Report’, 2016, https://www.lerenovaveis.org/contents/lerpublication/iha_2016_may_hydropower-status-report-2016.pdf
- ↑ 21.0 21.1 21.2 21.3 21.4 21.5 EDM, ‘Generation | EDM - Electricidade de Moçambique’, accessed 19 May 2021, https://www.edm.co.mz/en/website/page/generation.
- ↑ Andrew Bullock and Stephan Hülsmann, ‘Strategic Opportunities For Hydropower Within The Water-Energy-Food Nexus In Mozambique’, n.d., 71.
- ↑ Mozambique: African Development Bank to serve as advisor for development of 1500 MW Mphanda Nkuwa hydropower project: https://www.afdb.org/en/news-and-events/press-releases/mozambique-african-development-bank-serve-advisor-development-1500-mw-mphanda-nkuwa-hydropower-project-51829
- ↑ Mphanda Nkuwa Hydropower Project: https://www.nsenergybusiness.com/projects/mphanda-nkuwa-hydropower-project/
- ↑ Club of Mozambique (2022). Mozambique energy consumption exceeding 1000MW at peak times. https://furtherafrica.com/2022/07/18/mozambique-energy-consumption-exceeding-1000mw-at-peak-times/
- ↑ 26.0 26.1 26.2 26.3 Recurso Eólico’, accessed 24 June 2021, https://www.funae.co.mz/index.php/pt/recursos/recurso-eolico
- ↑ Namaacha wind project in Mozambique starts construction: https://cceonlinenews.com/2020/09/03/namaacha-wind-project-in-mozambique-starts-construction/
- ↑ Wind energy in Mozambique, EleQtra starts the first wind farm: https://www.evwind.es/2020/09/03/wind-energy-in-mozambique-eleqtra-starts-the-first-wind-farm/76965
- ↑ 29.0 29.1 GET.invest, ‘Renewable Energy Potential – GET.Invest’, accessed 21 April 2021, https://www.get-invest.eu/market-information/mozambique/renewable-energy-potential/
- ↑ Emily Woollen et al., ‘Charcoal Production in the Mopane Woodlands of Mozambique: What Are the Trade-Offs with Other Ecosystem Services?’, Philosophical Transactions of the Royal Society B: Biological Sciences 371, no. 1703 (19 September 2016): 20150315, https://doi.org/10.1098/rstb.2015.0315
- ↑ 31.0 31.1 31.2 ‘Mozambique Biomass Energy Strategy.Pdf’, accessed 24 June 2021, https://www.greengrowthknowledge.org/sites/default/files/downloads/policy-database/MOZAMBIQUE%29%20Mozambique%20Biomass%20Energy%20Strategy.pdf
