Design and analysis of a hydrogen production system using hybrid concentrated photovoltaic thermal system integrated with an organic Rankine cycle

被引:0
作者
AL-Zoubi, Omar H. [1 ]
Dhaliwal, Arshdeep Singh [2 ]
Trivedi, Tapankumar [3 ]
Shomurotova, Shirin [4 ]
Foladi, Ali [5 ]
机构
[1] Al al Bayt Univ, Fac Engn, Renewable Energy Engn Dept, POB 130040, Mafraq 25113, Jordan
[2] Chandigarh Grp Coll, Chandigarh Sch Business, Mohali 140307, Punjab, India
[3] Marwadi Univ, Fac Engn & Technol, Dept Elect Engn, Rajkot 360003, Gujarat, India
[4] Tashkent State Pedag Univ, Dept Chem Teaching Methods, 27 Bunyodkor St, Tashkent, Uzbekistan
[5] Kabul Univ, Dept Chem, Kabul 1001, Afghanistan
来源
INTERNATIONAL JOURNAL OF LOW-CARBON TECHNOLOGIES | 2024年 / 19卷
关键词
hydrogen; photovoltaic technology; solar concentrator; organic Rankine cycle; EXERGY ANALYSES; PERFORMANCE; ENERGY; PARAMETERS;
D O I
10.1093/ijlct/ctae248
中图分类号
O414.1 [热力学];
学科分类号
摘要
This study evaluates an improved organic Rankine cycle (ORC) with a solar energy source for hydrogen production and presents functional results, validation, and sensitivity analysis. The increase in condenser outlet temperature causes a decrease in the total thermal efficiency, a decrease in the efficiency of the ORC, a decrease in the total electrical efficiency, and a decrease in hydrogen production. The most striking result is that the net generating power of the system is equal to 4200 W, which is equivalent to producing 0.02372 g/s of hydrogen and 0.0810 g/s of oxygen.
引用
收藏
页码:2822 / 2830
页数:9
相关论文
共 50 条
[31]   SECOND LAW ANALYSIS OF EVAPORATOR FOR ORGANIC RANKINE CYCLE SYSTEM [J].
Gu, Wei ;
Weng, Yiwu .
ES2008: PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON ENERGY SUSTAINABILITY, VOL 2, 2009, :1-8
[32]   Thermodynamic and transient analysis of the hybrid concentrated photovoltaic panel and vapour compression cycle thermal system for combined heat and power applications [J].
Kwan, Trevor Hocksun ;
Yao, Qinghe .
ENERGY CONVERSION AND MANAGEMENT, 2019, 185 :232-247
[33]   Dynamic Thermal Analysis of a Concentrated Photovoltaic System [J].
Avrett, John T., II ;
Cain, Stephen C. ;
Pochet, Michael .
PHYSICS, SIMULATION, AND PHOTONIC ENGINEERING OF PHOTOVOLTAIC DEVICES, 2012, 8256
[34]   Analysis and design optimization of an ejector integrated into an organic Rankine cycle [J].
Haghparast, Payam ;
Sorin, Mikhail, V ;
Richard, Marc A. ;
Nesreddine, Hakim .
APPLIED THERMAL ENGINEERING, 2019, 159
[35]   Performance analysis of a concentrated photovoltaic and thermal system [J].
Ceylan, Ilhan ;
Gurel, Ali Etem ;
Ergun, Alper ;
Tabak, Abdulsamed .
SOLAR ENERGY, 2016, 129 :217-223
[36]   Optimal design of an organic Rankine cycle system considering the expected variations on heat sources [J].
Kang, Lixia ;
Tang, Jianping ;
Liu, Yongzhong .
ENERGY, 2020, 213
[37]   Thermoeconomic analysis on a molten salt parabolic trough-based concentrated solar organic Rankine cycle system [J].
Li, Jun Fen ;
Guo, Hang ;
Meng, Qing Peng ;
Wu, Yu Ting ;
Ye, Fang ;
Ma, Chong Fang .
INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 2020, 44 (05) :3395-3411
[38]   Thermodynamic analysis and optimization of the combined supercritical carbon dioxide Brayton cycle and organic Rankine cycle-based nuclear hydrogen production system [J].
Wang, Qi ;
Liu, Chunyu ;
Luo, Run ;
Li, Dantong ;
Macian-Juan, Rafael .
INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 2022, 46 (02) :832-859
[39]   A novel integrated structure of hydrogen purification and liquefaction using natural gas steam reforming, organic Rankine cycle and photovoltaic panels [J].
Ghorbani, Bahram ;
Mehrpooya, Mehdi ;
Amidpour, Majid .
CRYOGENICS, 2021, 119
[40]   A hybrid system for power, desalination, and cooling using concentrated photovoltaic/thermal collector [J].
Anand, B. ;
Murugavelh, S. .
ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 2022, 44 (01) :1416-1436
12345