Energy Analysis of Waste Heat Recovery Using Supercritical CO 2 Brayton Cycle for Series Hybrid Electric Vehicles.

Autor:	Mocanu, Gabriel, Iosifescu, Cristian, Ion, Ion V., Popescu, Florin, Frătița, Michael, Chivu, Robert Mădălin
Předmět:	BRAYTON cycle HEAT recovery HYBRID electric vehicles INTERNAL combustion engine exhaust gas THERMAL efficiency INTERNAL combustion engines
Zdroj:	Energies (19961073); Jun2024, Vol. 17 Issue 11, p2494, 17p
Abstrakt:	Waste heat recovery from exhaust gas is one of the most convenient methods to save energy in internal combustion engine-driven vehicles. This paper aims to investigate a reduction in waste heat from the exhaust gas of an internal combustion engine of a serial Diesel–electric hybrid bus by recovering part of the heat and converting it into useful power with the help of a split-flow supercritical CO2 (sCO2) recompression Brayton cycle. It can recover 17.01 kW of the total 33.47 kW of waste heat contained in exhaust gas from a 151 kW internal combustion engine. The thermal efficiency of the cycle is 38.51%, and the net power of the cycle is 6.55 kW. The variation in the sCO2 temperature at the shutdown of the internal combustion engine is analyzed, and a slow drop followed by a sudden and then a slow drop is observed. After 80 s from stopping the engine, the temperature drops by (23–33)% depending on the tube thickness of the recovery heat exchanger. The performances (net power, thermal efficiency, and waste heat recovery efficiency) of the split-flow sCO2 recompression Brayton cycle are clearly superior to those of the steam Rankine cycle and the organic Rankine cycle (ORC) with cyclopentane as a working fluid. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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