화학공학소재연구정보센터
검색결과 : 73건
No. Article
1 Thermal design and CFD analysis of the radial inflow turbine for a CO2-based mixture transcritical Rankine cycle
Xia JX, Zhou KH, Wang JF, Lou JW, Zhao P, Dai YP
International Journal of Energy Research, 44(10), 7938, 2020
2 Thermodynamic and economic optimization of a double-pressure organic Rankine cycle driven by low-temperature heat source
Sun QX, Wang YX, Cheng ZY, Wang JF, Zhao P, Dai YP
Renewable Energy, 147, 2822, 2020
3 Integrated system of comprehensive utilizing the concentrated brine of Yuncheng salt-lake basing on salt-forming diagram
Zhou H, Tang JJ, Guo J, Dai YP, Li GB, Yan B
Chinese Journal of Chemical Engineering, 27(1), 182, 2019
4 Off-design analysis of a CO2 Rankine cycle for the recovery of LNG cold energy with ambient air as heat source
Xia WK, Huo YW, Song YF, Han JM, Dai YP
Energy Conversion and Management, 183, 116, 2019
5 Performance analysis and optimization of a combined cooling and power system using low boiling point working fluid driven by engine waste heat
Huang WG, Wang JF, Xia JX, Zhao P, Dai YP
Energy Conversion and Management, 180, 962, 2019
6 Proposal and thermodynamic assessment of a new ammonia-water based combined heating and power (CHP) system
Wang JY, Wang JF, Zhao P, Dai YP
Energy Conversion and Management, 184, 277, 2019
7 Performance comparison of different combined heat and compressed air energy storage systems integrated with organic Rankine cycle
Wang PZ, Zhao P, Lai YQ, Wang JF, Dai YP
International Journal of Energy Research, 43(14), 8410, 2019
8 Thermoeconomic analysis of a gas turbine and cascaded CO2 combined cycle using thermal oil as an intermediate heat-transfer fluid
Cao Y, Rattner AS, Dai YP
Energy, 162, 1253, 2018
9 Off-design performance analysis of a power-cooling cogeneration system combining a Kalina cycle with an ejector refrigeration cycle
Du Y, Dai YP
Energy, 161, 233, 2018
10 Thermodynamic and economic analysis and multi-objective optimization of a novel transcritical CO2 Rankine cycle with an ejector driven by low grade heat source
Xia JX, Wang JF, Zhou KH, Zhao P, Dai YP
Energy, 161, 337, 2018