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United States Project Notice - High Efficiency Split-Cycle Engine For Residential Generators


Project Notice

PNR 52138
Project Name High Efficiency Split-Cycle Engine for Residential Generators
Project Detail In 2013, centralized U.S. power plants had an average electricity generation efficiency of only 33%, wasting 67% of primary energy as heat and emitting 2 billion tons of CO2, about 38% of U.S. total emissions. Further, 6% of electricity is generally lost during transmission and distribution from the power plant to the customer. An alternative to centrally produced power is distributed generation, in which electricity is generated at the point of use. Residential combined heat and power (CHP) systems can burn natural gas to produce electricity for a home while also using the waste heat for space and water heating. The potential energy efficiency for CHP systems is more than 80% and significant adoption of such systems would enable dramatic reductions in primary energy use and concurrent CO2 emissions. However, usage of small CHP systems is not widespread because systems currently on the market are limited by high price, low efficiency, and short lifetime. The GENSETS program seeks to develop 1 kW (electric) CHP generators that have high fuel-to-electricity generation efficiency, long life, low cost, and low emissions. Project Innovation + Advantages: Tour Engine, in collaboration with Wisconsin Engine Research Consultants (WERC) will develop a miniature internal combustion engine (ICE) based on Tours existing split-cycle engine technology. Traditional ICEs use the force generated by the combustion of a fuel (e.g. natural gas (NG)) to move a piston, transferring chemical energy to mechanical energy. This can then be used in conjunction with a generator to create electricity. Unlike a normal combustion engine, a split-cycle engine divides the process into a cold cylinder (intake and compression) and a hot cylinder (expansion and exhaust). This allows for independent optimization of the compression and expansion ratios, leading to increased thermal efficiency. A novel Spool Shuttle Crossover Valve (SSCV) is the key enabler for the Tour engine, as it transfers the fuel/air charge from the cold to hot cylinder. Potential Impact: If successful, Tour Engine’s project will facilitate development and commercialization of economical, efficient, and durable CHP systems for residential use. These advancements support progress toward ARPA-E’s overall goals as follows:
Funded By Self-Funded
Sector Energy & Power
Country United States , Northern America
Project Value USD 5,819,406

Contact Information

Company Name Tour Engine
Web Site https://arpa-e.energy.gov/technologies/projects/high-efficiency-split-cycle-engine-residential-generators

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