Sec. 2. Findings
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/bill/114/s/1202/is/section-2A research copy — for the controlling text, always check the official state or federal source. Not legal advice.
Congress finds that— combined heat and power technology, also known as cogeneration, is a technology that efficiently produces electricity and thermal energy at the point of use of the technology; by combining the provision of both electricity and thermal energy in a single step, combined heat and power technology makes significantly more-efficient use of fuel, as compared to separate generation of heat and power, which has significant economic and environmental advantages; waste heat to power is a technology that captures heat discarded by an existing industrial process and uses that heat to generate power with no additional fuel and no incremental emissions, reducing the need for electricity from other sources and the grid, and any associated emissions; waste heat or waste heat to power is considered renewable energy in 17 States; a 2012 joint report by the Department of Energy and the Environmental Protection Agency estimated that by achieving the national goal outlined in Executive Order 13624 (77 Fed. Reg. 54779) (September 5, 2012) of deploying 40 gigawatts of new combined heat and power technology by 2020, the United States would increase the total combined heat and power capacity of the United States by 50 percent in less than a decade; and additional efficiency would— save 1,000,000,000,000,000 BTUs of energy; and reduce emissions by 150,000,000 metric tons of carbon dioxide annually, a quantity equivalent to the emissions from more than 25,000,000 cars; a 2012 report by the Environmental Protection Agency estimated the amount of waste heat available at a temperature high enough for power generation from industrial and nonindustrial applications represents an additional 10 gigawatts of electric generating capacity on a national basis; distributed energy generation, including through combined heat and power technology and waste heat to power technology, has ancillary benefits, such as— removing load from the electricity distribution grid; and improving the overall reliability of the electricity distribution system; and a number of regulatory barriers impede broad deployment of combined heat and power technology and waste heat to power technology; and a 2008 study by Oak Ridge National Laboratory identified interconnection issues, regulated fees and tariffs, and environmental permitting as areas that could be streamlined with respect to the provision of combined heat and power technology and waste heat to power technology.
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- 77 FR 54779
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