Result Number | Material Type | Add to My Shelf Action | Record Details and Options |
---|---|---|---|
1 |
Material Type: Article
|
![]() |
Thermodynamic and economic analyses of a hybrid waste-driven CHP–ORC plant with exhaust heat recoveryArabkoohsar, A. ; Nami, H.Energy conversion and management, 2019-05, Vol.187, p.512-522 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
2 |
Material Type: Article
|
![]() |
Potential of applying the thermochemical recuperation in combined cooling, heating and power generation: New concept and energy analysisBai, Zhang ; Yuan, Yu ; Zhou, Shengdong ; Zheng, Bo ; Hu, WenxinEnergy conversion and management, 2022-05, Vol.260, p.115582, Article 115582 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
3 |
Material Type: Article
|
![]() |
Thermodynamic analysis of a High Temperature Pumped Thermal Electricity Storage (HT-PTES) integrated with a parallel organic Rankine cycle (ORC)Chen, Long Xiang ; Hu, Peng ; Zhao, Pan Pan ; Xie, Mei Na ; Wang, Feng XiangEnergy conversion and management, 2018-12, Vol.177, p.150-160 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
4 |
Material Type: Article
|
![]() |
Thermodynamic analysis of a novel chemical heat pump cycle based on the physical-chemical thermal effects of reversible reactionDai, Suzhou ; Yin, Yonggao ; Li, Weige ; Zhang, FanEnergy conversion and management, 2020-12, Vol.225, p.113419, Article 113419 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
5 |
Material Type: Article
|
![]() |
Thermo-economic analysis of the integrated bidirectional peak shaving system consisted by liquid air energy storage and combined cycle power plantGao, Zhaozhao ; Ji, Wei ; Guo, Luna ; Fan, Xiaoyu ; Wang, JunjieEnergy conversion and management, 2021-04, Vol.234, p.113945, Article 113945 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
6 |
Material Type: Article
|
![]() |
Thermodynamic analysis of dual-loop organic Rankine cycle using zeotropic mixtures for internal combustion engine waste heat recoveryGe, Zhong ; Li, Jian ; Liu, Qiang ; Duan, Yuanyuan ; Yang, ZhenEnergy conversion and management, 2018-06, Vol.166, p.201-214 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
7 |
Material Type: Article
|
![]() |
Waste heat recovery in a data center with an adsorption chiller: Technical and economic analysisGupta, Rohit ; Puri, Ishwar K.Energy conversion and management, 2021-10, Vol.245, p.114576, Article 114576 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
8 |
Material Type: Article
|
![]() |
An efficient solar/lignite hybrid power generation system based on solar-driven waste heat recovery and energy cascade utilization in lignite pre-dryingHan, Yu ; Sun, Yingying ; Wu, JunjieEnergy conversion and management, 2020-02, Vol.205, p.112406, Article 112406 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
9 |
Material Type: Article
|
![]() |
Novel two-stage fluidized bed-plasma gasification integrated with SOFC and chemical looping combustion for the high efficiency power generation from MSW: A thermodynamic investigationJiang, Peng ; Mahmud Parvez, Ashak ; Meng, Yang ; Dong, Xinyue ; Xu, Mengxia ; Luo, Xiang ; Shi, Kaiqi ; Wu, TaoEnergy conversion and management, 2021-05, Vol.236, p.114066, Article 114066 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |
10 |
Material Type: Article
|
![]() |
Multi-effect distillation plants for small-scale seawater desalination: thermodynamic and economic improvementLiponi, Angelica ; Wieland, Christoph ; Baccioli, AndreaEnergy conversion and management, 2020-02, Vol.205, p.112337, Article 112337 [Peer Reviewed Journal]Oxford: Elsevier LtdFull text available |