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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.

The Platform for Energy Access Knowledge

The Platform for Energy Access Knowledge (PEAK) is a project partnership between RAEL and Power for All,  a global cam­paign to accel­er­ate the market-​​based growth of decen­tral­ized renew­ables as the key to achiev­ing uni­ver­sal energy access. The cam­paign, established in 2014, serves as a col­lec­tive voice for busi­nesses and civil soci­ety focused on off-​​grid renew­able solu­tions. The research products of this partnership will provide critical evidence needed to support widespread adoption of distributed technologies.

PEAK is an interactive information exchange platform designed to help aggregate and repackage the best research and information on energy access into compelling data-​driven stories for a range of target audiences to ensure maximum visibility, usability and discoverability of that information by individuals, organizations and communities working to make energy services accessible to all.

The Power for All Campaign is directed by Kristina Skierka. PEAK research is directed by Dr. Rebekah Shirley, current Postdoctoral Researcher at RAEL.

See PEAK's Launch Press Release, March 2016

See PEAK products here and look out for our web portal soon to come.

Recently, PEAK conducted a quantitative analysis that examines the policies of five high-growth markets striving to achieve universal energy access -- India and Bangladesh in Asia, and Kenya, Tanzania and Ethiopia in Africa -- and highlights areas for policy prioritization in Low Energy Access countries. Our research is currently under peer-review. See an unpublished, draft/working version of our manuscript and look out for more information soon.

Promoting renewable energy and energy efficiency in Africa: a framework to evaluate employment generation and cost effectiveness

The ongoing debate over the cost-effectiveness of renewable energy (RE) and energy efficiency (EE) deployment often hinges on the current cost of incumbent fossil-fuel technologies versus the long-term benefit of clean energy alternatives. This debate is often focused on mature or ‘industrialized’ economies and externalities such as job creation. In many ways, however, the situation in developing economies is at least as or even more interesting due to the generally faster current rate of economic growth and of infrastructure deployment. On the one hand, RE and EE could help decarbonize economies in developing countries, but on the other hand, higher upfront costs of RE and EE could hamper short-term growth. The methodology developed in this paper confirms the existence of this trade-off for some scenarios, yet at the same time provides considerable evidence about the positive impact of EE and RE from a job creation and employment perspective. By extending and adopting a methodology for Africa designed to calculate employment from electricity generation in the U.S., this study finds that energy savings and the conversion of the electricity supply mix to renewable energy generates employment compared to a reference scenario. It also concludes that the costs per additional job created tend to decrease with increasing levels of both EE adoption and RE shares.

The PACE of clean energy development featured in Science

The PACE of clean energy development The Property Assessed Clean Energy (PACE) program is a national initiative designed to promote investment in solar photovoltaics by commercial, nonprofit, and residential property owners. Its central feature is to provide low-cost, long-term funding, which is repaid as an assessment on the property’s regular tax bill, as is done for sidewalks and sewers, for example. Spurring such investment clearly is a good goal, but is the program effective? Ameli, Pisu, and Kammen in Applied Energy used a natural experiment in northern California to test the capacity of PACE, finding that it has been a great success, more than doubling residential photovoltaic installations in the region at no cost to the taxpayers. —HJS Appl. Energy 10.1016/j.apenergy.2017.01.037 (2017).

Hixon Center Black, Gold & Green Speaker Series: “The Clean Energy Transformation: Evolution or Revolution?” Daniel Kammen

The global transition to clean energy is both well underway and well behind schedule if we are to achieve a sustainable climate, let alone use this moment of change to build a more equitable, inclusive society for the 21st century. What are the scientific and technical must-have innovations and technologies for this process, and where must we develop a dramatically different social compact within and between communities to achieve this challenging but necessary goal? We will examine the science and innovation base that exists today, and what is needed for this grand challenge. The critical role of information systems and social change will be featured as greatest challenge to this process. Daniel M. Kammen is professor of energy at the University of California, Berkeley, with parallel appointments in the Energy and Resources Group, the Goldman School of Public Policy and the department of Nuclear Engineering. He was appointed by former Secretary of State Hillary Clinton in April 2010 as the first energy fellow of the new Environment and Climate Partnership for the Americas initiative. In 2016, he began service as the Science Envoy for U.S. Secretary of State John Kerry. Kammen is the founding director of the Renewable and Appropriate Energy Laboratory and was director of the Transportation Sustainability Research Center from 2007–2015. He has served the State of California and U.S. federal government in expert and advisory capacities, including time at the Environmental Protection Agency, Department of Energy, the Agency for International Development (USAID) and the Office of Science and Technology Policy.

Open Lecture: The Science and Policy of Sustainable Energy

In collaboration with the Areces Foundation and the AEEE, Economics for Energy organizes an academic workshop devoted to the state-of-the-art analysis and debate on topics of interest for the center with a small number of presentations provided by leading researchers in the field. The workshop will take place on February 15th (from 10.00 to 13.30) and targets researchers in the fields of energy and environmental economics. Those interested in participating in the workshop should send an email to 19:00: Seminar by Daniel Kammen in Madrid: "Open Session: The Science and Policy of Sustainable Energy"

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