Downloaded from orbit.dtu.dk on: Aug 26, 2018 Prospects for investment in large-scale, grid-connected solar energy in Africa Nygaard, Ivan Publication date: 2014 Link back to DTU Orbit Citation (APA): Nygaard, I. (2014). Prospects for investment in large-scale, grid-connected solar energy in Africa [Sound/Visual production (digital)]. Conference on Sustainable Energy Investments in Africa - Engaging the Private Sector, Copenhagen, Denmark, 24/06/2014 General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. Users may download and print one copy of any publication from the public portal for the purpose of private study or research. You may not further distribute the material or use it for any profit-making activity or commercial gain You may freely distribute the URL identifying the publication in the public portal If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim.
Prospects for investment in large-scale, grid-connected solar energy in Africa Ivan Nygaard Senior Researcher, PhD UNEP Risø Centre Opportunity Africa: Sustainable Energy Investments in Africa - Engaging the Private Sector UN City, Copenhagen, 24-25 June 2014
Outline The challenge Drivers behind diffusion of solar PV Characteristics of the power sector in Africa Current FiTs and Bids Large scale projects Concluding remarks
Technology diffusion Adoption share Laggards Late majority Early majority Innovators Early adopters Time (Rogers, 1962)
Roof top PV diffusion in Denmark Net metering tariff 2000-2012 27 EUR ct./kwh, yearly basis Sale of surplus: 17.3 ct./kwh 2011 2012 2013 Financial viability Available finance Legal frameworks Political stability Trust
Development in crude oil prices Source: Monthly Crude Oil Prices: www.inflationdata.com
Annual production of PV panels Source: PV status report 2013, European Commission, DG Joint Research Centre
Annual PV installation Source: PV status report 2013, European Commission, DG Joint Research Centre
Steadily falling PV module prices Source: Mints, P. (2013). Solar PV Profit s Last Stand. RenewableEnergyWorld.com, March 2013.
Price versus volume - the learning curve Source: Bazilian, M. et al., 2013. Re-considering the economics of photovoltaic power. Renewable Energy, 53, pp. 329-338
Markets for solar PV in developing countries Technology and products Small pico-systems: solar lanterns, LED lamps, solar chargers Solar home systems (SHS) Stand-alone 'institutional PV systems Telecommunications and tourism Mini-grids (e.g. hybrid PV-diesel ) Large-scale, gridconnected PV systems Market segments Lighting and charging of batteries and mobile phones in mainly non-electrified areas Off-grid electricity demand in private homes in dispersed settlements, in smaller nonelectrified villages and on the outskirts of electrified towns and villages far from existing distribution lines Institutions located in villages without grid or mini-grid, or on the outskirts of gridelectrified villages Powering telecom base receiver stations (BTS), link sites, and remote tele-centres, and basic electricity supply (mainly lighting) for rural lodges and hotels Villages and towns located far from existing grid Expansion of production capacity in existing grid Installed capacity / size Owners and buyers 1-10 W p Private (over the counter) consumer devices 10-100 W p Residential SHS (private households), ESCOs 50-500 W p Government/municipal procurement for public institutions (schools, hospitals, health clinics) 0.2-15 KW p Procurement by commercial companies in the telecom and tourism sectors (e.g. telecom service providers, hotel owners, etc.) 5 kw-1 MW p Utilities, cooperatives (community-based), ESCOs (village electrification projects) 1-50 MW p Utilities, IPPs (incl. foreign investors)
Power sector in Africa Fuel composition Emergency capacity Ghana 80 MW, 5.4 % Kenya 100 MW, 8.3 % Rwanda 15 MW, 48.4 % Senegal 40 MW, 16.5 % Tanzania 40 MW, 4.5 % Uganda 100 MW, 4.7 % Source: Eberhard et al. 2010 Source: IRENA 2012: Prospects for the African Power Sector Funding gap (opportunities)
Evolution in FiTs and Bids Evolution of tariffs FiT Germany (EUR ct./kwh) 2004 2006 2008 2010 2012 2014 54.0 48.7 35.5 29.4 13.4 9.5 REIPPPP South Africa (EUR ct./kwh) Round 1 Round 2 Round 3 22.4 13.4 7.17 FiTs and bids Country USD c. EUR c. Germany Jan. 2014 13.6 9.5 South Africa 3rd. round 10.2 7.2 Kenya 12.0 8.4 Ghana 14.0 9.8 Tanzania grid 9.5 6.7 Tanzania minigrid 30.0 21.0 Large scale diesel 16 EUR ct./kwh Source: German Energy Blog http://www.germanenergyblog.de/?page_id=965 PV-insider http://www.pv-insider.com/africa/pdf/southafricacspvspv.pdf Ulrich Elmer Hansen, Ivan Nygaard, Mathilde Brix Pedersen (2014). Review of Solar PV Market Development in East Africa. UNEP Risø Centre Working Paper Series no. 12. Technical University of Denmark http://www.uneprisoe.org/urc-working-paper-series
IRENA energy scenarios 2030-2050 Source: IRENA 2012: Prospects for the African Power Sector.
Solar PV moves fast in Africa now Local Assembly Kenya 2011 Senegal 2011 (closed 2013?) South Africa 2011 Ethiopia, 2012 Mozambique 2014 Hybrid PV-Diesel Senegal Mali Kenya Large grid connected projects (build, planned?) South Africa, 1400 MW in three rounds, (8400 MW by 2030) Morocco 20 MW (160 MW in 2016, 2000 MW in 2020) Kenya 1.6 MW Jinkosolar 50 MW (PPA) Canadian Solar 50 MW) (MoU)) Rwanda 0.25 MW (Scatec 8.5 MW in 2014, 3E power solar, 10 MW ) Ghana 2.5 MW (Blue Sky 155 MW 2014, Scatec 55 MW, 2015) Burkina Faso (Zagtouli, 33 MW, EU, EIB, AFD, 4*15 MW bidding round 2015, Windiga, 20 MW) Mali (Africa Power, 33 MW, 44 MW)
Conclusion Solar power is the fastest growing RE technology worldwide High solar irradiation in most parts of Africa Production cost competitive with diesel generation PV has short installation time and is easy to maintain Options for local assembly and maintenance Infrastructure funding gap (opportunity) Activities on the ground for the last 3-4 years show that large scale grid connected PV is now considered as an promising green investment option
Thanks for your attention! Main source: Ulrich E. Hansen, Ivan Nygaard, Mathilde Brix Pedersen, 2014. Prospects for investment in largescale grid-connected solar power in Africa. UNEP Risø Centre, Technical University of Denmark. www.unep-risoe.org Comments, updates and suggestion are most welcome during breaks or in writing to ivny@dtu.dk