The Power of Innovation: meeting our energy challenges through accelerated innovation
We are facing two urgent energy challenges. We need to maintain modern energy services and expand energy access to another 1.4 billion people.1 We also need to mitigate further climate change by reducing greenhouse gas emissions, including carbon dioxide from fossil fuel burning.2 Low-carbon technologies such as wind and solar power exist and have the technical capacity to meet global energy needs,3 but they are expensive compared to high-carbon alternatives and face performance challenges like requiring large quantities of water or land. They are new to the energy system and can create integration headaches. Innovation—improvements in cost and performance—will close the gap between the low-carbon technologies of today and the low-cost, high performance technologies the world needs.
These infographics demonstrate how innovations in solar photovoltaic (PV) and wind power over the past thirty years have dramatically improved performance and reduced cost, creating the technologies we recognize today. They also project the target costs that experts estimate are necessary to reach our energy goals, highlighting how much more we need to innovate.
For example, if we built the solar PV installations necessary by 2050 using technology from 1982, we would spend US$53.5 trillion (2010$). Building the same solar capacity with 2008 technology would only cost US$8.46 trillion. If we meet the cost goal set by the United States Department of Energy (DOE) Advanced Research Projects Agency-Energy (ARPA-E) we would spend just US$1.58 trillion. Similarly, between 1982 technology and ARPA-E’s goal technology, the total land area required for solar panels would drop by 64 percent.
Innovation is a powerful, cumulative process but it does not happen automatically in a highly regulated sector like electricity. It is critical that policymakers support innovators by building a robust, dynamic innovation ecosystem. This goes beyond investing in public research and development and creating markets through subsidies. It also includes building collaborative networks, creating stable regulatory environments, providing infrastructure, supporting innovators’ needs for finance, and building capacity in the workforce.
To achieve a 50 percent reduction in greenhouse gas emissions by 2050 (compared to 2005 levels) the International Energy Agency estimates that 3,155 GW of photovoltaic capacity will be required by 2050, enough to provide 11 percent of global electricity production. Over time, innovations have made reaching this target easier.4 Innovations like new materials and improved methods of production, including improvements through learning-by-doing and finding economies of scale, made solar photovoltaic cells significantly cheaper and more efficient between 1982 and 2008. While many factors—such as commodity prices—also impact costs, future innovations can continue to improve solar cells and push toward a competitive cost of equipment, estimated in U.S. electricity markets to be US$0.50/Wp by the U.S. Department of Energy.
To achieve a 50 percent reduction in greenhouse gas emissions by 2050 (compared to 2005 levels) the International Energy Agency estimates that 2,000 GW of installed wind capacity will be required by 2050, enough to provide 12 percent of global electricity production. Over time, innovations have made reaching this target easier.5 Between 1985 and 2010, innovations like new materials and improved methods of production, including improvements through learning-by-doing and finding economies of scale, made wind turbines more capable and their electricity cheaper. While many factors—such as commodity prices—also impact costs, future innovations can continue to improve wind turbines and farms and push toward a competitive position in electricity markets, estimated in U.S. electricity markets to be a levelized cost of electricity of US$.069/kWh by the American Wind Energy Association.
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