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微型太阳能热电联供系统性能研究 陈红兵等著 2017年版
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微型太阳能热电联供系统性能研究
作者:陈红兵等著
出版时间:2017年版
内容简介
《微型太阳能热电联供系统性能研究》提出了一种新型的基于PV/T技术的微型真空管式太阳能热电联产系统,并对其性能进行了研究,提高太阳能综合利用效率。《微型太阳能热电联供系统性能研究》首先对PV/T技术的国内外研究现状进行了介绍;其次,提出了一种新型的真空管式太阳能PV/T热电联产系统,利用实验测试和数值模拟对其性能进行了研究,并与传统的平板式太阳能PV/T热电联产系统进行了性能对比和分析;最后,针对该新型系统提出了不同的运行策略,并对系统的节能效果、经济效益和环境效益进行了分析。
目录
Chapter 1 Introduction
1.1 Background
1.2 Description of the novel PV/T heat pump system
1.3 Work involved in the study
Chapter 2 Review of PV/T technology
2.1 Commercial PV materials
2.2 PV/T Collectors
2.2.1 Air-type PV/T collectors
2.2.2 Water-type PV/T collectors
2.2.3 Dual-type PV/T collectors
2.3 BIPVT
2.3.1 Air-type BIPVT
2.3.2 Water-type BIPVT
2.4 Concentrating PV/T collectors
2.5 PV/T heat pump system
2.6 Summary
Chapter 3 Numerical simulation on energy performance of GVT
and FP PV/T heat pump systems
3.1 PV/T panel configurations
3.2 Numerical models for GVT PV/T heat pump system
3.2.1 Glass vacuum tube (external)
3.2.2 Glass vacuum tube (internal)
3.2.3 PV module
3.2.4 Aluminium sheet
3.2.5 Copper tube
3.2.6 Refrigerant
3.2.7 Compressor
3.2.8 Expansion valve
3.2.9 Water-cooled condenser
3.3 Numerical models for FP PV/T heat pump system
3.3.1 Glass cover
3.3.2 PV module
3.3.3 Aluminium sheet
3.3.4 Copper tube
3.3.5 Refrigerant
3.4 Performance comparison between GVT and FP PV/T heat pump
systems
3.4.1 Variation of thermal efficiency with solar radiation
3.4.2 Variation of'electrical efficiency with solar radiation
3.4.3 Variation of power output with solar radiation
3.4.4 Variation of COP with solar radiation
3.4.5 Variation of condenser capacity with solar radiation
3.5 Performance comparison of GVT PV/T heat pump system in
different cities
3.5.1 Climatic data
3.5.2 Results and analysis
3.6 Summary
Chapter 4 Experimental study on GVT PV/T heat pump system
4.1 Test on the performance of PV modules without cooling
4.1.1 Test rig
4.1.2 Test results
4.2 Test on the performance ofGVT PV/T heat pump system
4.2.1 Test rig
4.2.2 Measuring equipment
4.2.3 Performance assessment and experiment implementation"
4.2.4 Test results
4.2.5 Comparison between the test and simulation results
4.3 Summary
Chapter 5 Experimental study on FP PV/T heat pump system
using PV tiles
5.1 Experimental rig
5.2 Results and discussions
5.3 Summary
Chapter 6 Operation strategy and economic analysis of PV/T heat
pump system
6.1 Operation strategy
6.1.1 PV electricity management
6.1.2 Heat energy management
6.2 Economic analysis
6.2.1 Basic information and assumptions
6.2.2 Energy and running cost savings calculation
6.2.3 Investment and pay-back time calculation
6.3 Environmental analysis
6.4 Summary
Chapter 7 Conclusions and further work
7.1 Conclusions
7.1.1 Numerical simulation on energy performance of the GVT
and FP PV/T heat pump systems
7.1.2 Experimental study on the GVT PV/T heat pump system
7.1.3 Experimental study on the FP PV/T heat pump system
7.1.4 Operation strategy and economic analysis of the GVT PV/T
heat pump system
7.2 Further work
Nomenclature
作者:陈红兵等著
出版时间:2017年版
内容简介
《微型太阳能热电联供系统性能研究》提出了一种新型的基于PV/T技术的微型真空管式太阳能热电联产系统,并对其性能进行了研究,提高太阳能综合利用效率。《微型太阳能热电联供系统性能研究》首先对PV/T技术的国内外研究现状进行了介绍;其次,提出了一种新型的真空管式太阳能PV/T热电联产系统,利用实验测试和数值模拟对其性能进行了研究,并与传统的平板式太阳能PV/T热电联产系统进行了性能对比和分析;最后,针对该新型系统提出了不同的运行策略,并对系统的节能效果、经济效益和环境效益进行了分析。
目录
Chapter 1 Introduction
1.1 Background
1.2 Description of the novel PV/T heat pump system
1.3 Work involved in the study
Chapter 2 Review of PV/T technology
2.1 Commercial PV materials
2.2 PV/T Collectors
2.2.1 Air-type PV/T collectors
2.2.2 Water-type PV/T collectors
2.2.3 Dual-type PV/T collectors
2.3 BIPVT
2.3.1 Air-type BIPVT
2.3.2 Water-type BIPVT
2.4 Concentrating PV/T collectors
2.5 PV/T heat pump system
2.6 Summary
Chapter 3 Numerical simulation on energy performance of GVT
and FP PV/T heat pump systems
3.1 PV/T panel configurations
3.2 Numerical models for GVT PV/T heat pump system
3.2.1 Glass vacuum tube (external)
3.2.2 Glass vacuum tube (internal)
3.2.3 PV module
3.2.4 Aluminium sheet
3.2.5 Copper tube
3.2.6 Refrigerant
3.2.7 Compressor
3.2.8 Expansion valve
3.2.9 Water-cooled condenser
3.3 Numerical models for FP PV/T heat pump system
3.3.1 Glass cover
3.3.2 PV module
3.3.3 Aluminium sheet
3.3.4 Copper tube
3.3.5 Refrigerant
3.4 Performance comparison between GVT and FP PV/T heat pump
systems
3.4.1 Variation of thermal efficiency with solar radiation
3.4.2 Variation of'electrical efficiency with solar radiation
3.4.3 Variation of power output with solar radiation
3.4.4 Variation of COP with solar radiation
3.4.5 Variation of condenser capacity with solar radiation
3.5 Performance comparison of GVT PV/T heat pump system in
different cities
3.5.1 Climatic data
3.5.2 Results and analysis
3.6 Summary
Chapter 4 Experimental study on GVT PV/T heat pump system
4.1 Test on the performance of PV modules without cooling
4.1.1 Test rig
4.1.2 Test results
4.2 Test on the performance ofGVT PV/T heat pump system
4.2.1 Test rig
4.2.2 Measuring equipment
4.2.3 Performance assessment and experiment implementation"
4.2.4 Test results
4.2.5 Comparison between the test and simulation results
4.3 Summary
Chapter 5 Experimental study on FP PV/T heat pump system
using PV tiles
5.1 Experimental rig
5.2 Results and discussions
5.3 Summary
Chapter 6 Operation strategy and economic analysis of PV/T heat
pump system
6.1 Operation strategy
6.1.1 PV electricity management
6.1.2 Heat energy management
6.2 Economic analysis
6.2.1 Basic information and assumptions
6.2.2 Energy and running cost savings calculation
6.2.3 Investment and pay-back time calculation
6.3 Environmental analysis
6.4 Summary
Chapter 7 Conclusions and further work
7.1 Conclusions
7.1.1 Numerical simulation on energy performance of the GVT
and FP PV/T heat pump systems
7.1.2 Experimental study on the GVT PV/T heat pump system
7.1.3 Experimental study on the FP PV/T heat pump system
7.1.4 Operation strategy and economic analysis of the GVT PV/T
heat pump system
7.2 Further work
Nomenclature