NEWS UC Berkeley, LBL, IRENA, RAEL team publish paper on renewable energy resources and utility planning in Africa

Renewable energy has robust future in much of Africa

by Robert Sanders, UC Berke­ley Media Relations

As Africa gears up for a tripling of elec­tric­i­ty demand by 2030, a new Berke­ley study maps out a viable strat­e­gy for devel­op­ing wind and solar pow­er while simul­ta­ne­ous­ly reduc­ing the continent’s reliance on fos­sil fuels and low­er­ing pow­er plant con­struc­tion costs.

Ngong Hills wind farm, Kenya

Using resource map­ping tools, a UC Berke­ley and Lawrence Berke­ley Nation­al Lab­o­ra­to­ry team assessed the poten­tial for large solar and wind farms in 21 coun­tries in the south­ern and east­ern African pow­er pools, which includes more than half of Africa’s pop­u­la­tion, stretch­ing from Libya and Egypt in the north and along the east­ern coast to South Africa.

They con­clud­ed that with the right strat­e­gy for plac­ing solar and wind farms, and with inter­na­tion­al shar­ing of pow­er, most African nations could low­er the num­ber of con­ven­tion­al pow­er plants – fos­sil fuel and hydro­elec­tric – they need to build, there­by reduc­ing their infra­struc­ture costs by per­haps bil­lions of dollars.

The sur­pris­ing find is that the wind and solar resources in Africa are absolute­ly gigan­tic, and some­thing you could tap into for rel­a­tive­ly low cost,” said senior author Dun­can Call­away, a UC Berke­ley asso­ciate pro­fes­sor of ener­gy and resources and a fac­ul­ty sci­en­tist at Berke­ley Lab. “But we need to be think­ing now about strate­gies for fos­ter­ing inter­na­tion­al col­lab­o­ra­tion to tap into the resource in a way that is going to max­i­mize its poten­tial while min­i­miz­ing its impact.”

The main issue, Call­away says, is that ener­gy-gen­er­at­ing resources are not spread equal­ly through­out Africa. Hydro­elec­tric pow­er is the main pow­er source for one-third of African nations, but it is not avail­able in all coun­tries, and cli­mate change makes it an uncer­tain resource because of more fre­quent droughts.

The team set out to under­stand where wind and solar gen­er­a­tion plants might be built in the future under a range of sit­ing strat­e­gy sce­nar­ios, and how much renew­able gen­er­a­tors might off­set the need to build oth­er forms of generation.

Based on the team’s analy­sis, choos­ing wind sites to match the tim­ing of wind gen­er­a­tion with elec­tric­i­ty demand is less cost­ly over­all than choos­ing sites with the great­est wind ener­gy pro­duc­tion. Assum­ing ade­quate trans­mis­sion lines, strate­gies that take into account the tim­ing of wind gen­er­a­tion result in a more even dis­tri­b­u­tion of wind capac­i­ty across coun­tries than those that max­i­mize ener­gy production.

Impor­tant­ly, the researchers say, both ener­gy trade and sit­ing to match gen­er­a­tion with demand reduces the sys­tem costs of devel­op­ing wind sites that are low impact, that is, clos­er to exist­ing trans­mis­sion lines, clos­er to areas where elec­tric­i­ty would be con­sumed and in areas with pre­ex­ist­ing human activ­i­ty as opposed to pris­tine areas.

If you take the strat­e­gy of sit­ing all of these sys­tems such that their total pro­duc­tion cor­re­lates well with elec­tric­i­ty demand, then you save hun­dreds of mil­lions to bil­lions of dol­lars per year ver­sus the cost of elec­tric­i­ty infra­struc­ture dom­i­nat­ed by coal-fired plants or hydro,” Call­away said. “You also get a more equi­table dis­tri­b­u­tion of gen­er­a­tion sources across these countries.”

maps of African renewable energy resources

Togeth­er, inter­na­tion­al ener­gy trade and strate­gic sit­ing can enable African coun­tries to pur­sue ‘no-regrets’ wind and solar poten­tial that can com­pete with con­ven­tion­al gen­er­a­tion tech­nolo­gies like coal and hydropow­er,” empha­sized UC Berke­ley grad­u­ate stu­dent Grace Wu, who con­duct­ed the study with fel­low grad­u­ate stu­dent Ran­jit Desh­mukh. Wu and Desh­mukh are the lead authors of the study.

The is avail­able in the Pro­ceed­ings of the Nation­al Acad­e­my of Sci­ences and on the RAEL pub­li­ca­tions site.

Chart­ing Africa’s ener­gy future

The team set out to tack­le a key ques­tion for elec­tric­i­ty plan­ners in Africa and the inter­na­tion­al devel­op­ment com­mu­ni­ty, which helps fund such projects: How should these coun­tries allo­cate their pre­cious and lim­it­ed invest­ment dol­lars to most effec­tive­ly address elec­tric­i­ty and cli­mate chal­lenges in the com­ing decades?

Ethiopian wind farm

Wu and Desh­mukh gath­ered pre­vi­ous­ly unavail­able infor­ma­tion on the annu­al solar and wind resources in 21 coun­tries in east­ern and south­ern Africa, and hourly esti­mates of wind speeds for nine coun­tries south of the Sahara Desert.

They devel­oped an ener­gy resource map­ping frame­work, which they call Mul­ti-cri­te­ria Analy­sis for Plan­ning Renew­able Ener­gy, or MapRE, to iden­ti­fy and char­ac­ter­ize poten­tial wind and solar projects. They then mod­eled var­i­ous sce­nar­ios for sit­ing wind pow­er and exam­ined addi­tion­al sys­tem costs from hydro and fos­sil fuels.

The team con­clud­ed that even after exclud­ing solar and wind farms from areas that are too remote or too close to sen­si­tive envi­ron­men­tal or cul­tur­al sites — what they term “no-regret” sites – there is more than enough land in this part of Africa to pro­duce renew­able pow­er to meet the ris­ing demand, if fos­sil fuel and/​or hydro­elec­tric pow­er are in the mix to even out the load. Nev­er­the­less, choos­ing only the most pro­duc­tive sites for devel­op­ment – the windi­est and sun­ni­est – would leave some coun­tries with lit­tle low-cost local renew­able ener­gy generation.

If, how­ev­er, coun­tries can agree to share pow­er and build the trans­mis­sion lines to make that hap­pen, all coun­tries could devel­op sites that are low-cost and acces­si­ble, and have low envi­ron­men­tal impact, while reduc­ing the num­ber of new hydro or fos­sil fuel plants that need to be built.

Ngong Hills wind farm, Kenya

Call­away says that a few coun­tries already share pow­er, such as South Africa with Mozam­bique and Zim­bab­we, but that more coun­tries will need to bro­ker the agree­ments and build the trans­mis­sion lines to allow this. Inter­na­tion­al trans­mis­sion lines are being planned, but pri­mar­i­ly to share hydropow­er resources locat­ed in a hand­ful of coun­tries. These trans­mis­sion plans need to incor­po­rate shar­ing of wind and solar in order to help them be com­pet­i­tive gen­er­a­tion tech­nolo­gies in Africa, he said.

Oth­er co-authors are Daniel Kam­men, a UC Berke­ley pro­fes­sor of ener­gy and resources, Jes­si­ca Reil­ly-Moman and Amol Phad­ke of the Inter­na­tion­al Ener­gy Stud­ies Group at Berke­ley Lab, Kudak­washe Ndhluku­la of the South­ern Africa Devel­op­ment Com­mu­ni­ty Cen­ter for Renew­able Ener­gy and Ener­gy Effi­cien­cy at the Namib­ia Uni­ver­si­ty of Sci­ence and Tech­nol­o­gy in Wind­hoek, and Tijana Rado­ji­cic of the Inter­na­tion­al Renew­able Ener­gy Agency in Mas­dar City, Abu Dhabi, Unit­ed Arab Emi­rates.

The Inter­na­tion­al Renew­able Ener­gy Agency sup­port­ed much of the ini­tial research. The Nation­al Sci­ence Foun­da­tion and the Link Foun­da­tion sup­port­ed the expand­ed analy­sis on wind sit­ing scenarios.

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