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INTRODUCTION AND PROCESS Cost-effective energy storage technologies are a key enabler of grid modernization, addressing the electric grid’s most pressing needs by improving its stability and resiliency. Investment in energy storage is essential for keeping pace with the increasing demands for electricity arising from continued growth in U.S. productivity, shifts in and continued expansion of national cultural imperatives (e.g., emergence of the distributed grid and electric vehicles), and the projected increase in renewable energy sources. Materials, their processing, and the devices into which they are integrated will be critical to advancing clean and competitive energy storage devices at the grid scale. Current research and demonstration efforts by the U.S. Department of Energy (DOE), national laboratories, electric utilities and their trade organizations, storage technology providers, and academic institutions provide the foundation for the extensive effort that is needed to accelerate widespread commercial deployment of energy storage technologies. For grid-scale storage to become pervasive, the electric power industry, researchers of advanced materials and devices, equipment manufacturers, policymakers, and other stakeholders must combine their expertise and resources to develop and deploy energy storage systems that can address the specific storage needs of the electric power industry. Seeking to accelerate the commercialization of stationary energy storage at grid scale, The Minerals, Metals & Materials Society (TMS) joined with the DOE Office of Electricity Delivery and Energy Reliability, the DOE Advanced Research Projects Agency-Energy, Pacific Northwest National Laboratory, and Sandia National Laboratories to sponsor a facilitated workshop. This workshop was designed to garner critical information from key stakeholders to develop a path forward for grid-scale energy storage. Thirty-five stakeholders and experts from across the materials science and device communities attended the workshop on June 21–22, 2010, in Albuquerque, New Mexico. Immediately preceding the advanced materials and devices workshop, stakeholders and experts from the electric power industry, research, and government communities came together to identify targets for energy storage technologies in specific grid applications, which resulted in the workshop report, Electric Power Industry Needs for Grid-Scale Storage Applications. The participants of the advanced materials and devices workshop used the targets determined in the previous workshop to identify the limitations of existing energy storage technologies and the advances necessary for these devices to achieve widespread commercialization. While all energy storage technologies and systems were within the scope of the workshop, the main focus was on technologies for which DOE involvement could accelerate progress toward commercial deployment at grid scale. The time frame under consideration was present day through 2030, with particular emphasis on the 1- to 5-year and 5- to 10-year time frames. Based on the results of the workshop, this report provides guidance to DOE for advancing the following energy storage technologies: n Advanced lead-acid and lead-carbon batteries n Lithium-ion batteries n Sodium-based batteries n Flow batteries n Power technologies (e.g., electrochemical capacitors and high-speed flywheels) n Emerging technologies (e.g., metal-air batteries, liquid-metal systems, regenerative fuel cells, and advanced compressed-air energy storage) The reports from these workshops will inform future DOE program planning and ultimately help to commercialize energy storage at grid scale. INTRODUCTION AND PROCESS 5PDF Image | Devices for Stationary Electrical Energy Storage Applications
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