封面
版权信息
前言
Preface
1 30MW太阳能冷热电联供系统研究
摘要
1 绪论
1.1 研究背景与意义
1.2 研究应用现状及发展趋势
1.3 模拟软件介绍
1.4 主要研究内容
2 太阳能集热系统研究
2.1 太阳能资源介绍及选址
2.2 太阳能集热场介绍
2.3 太阳能集热场模型建立及变工况讨论
2.4 本章小结
3 30MW燃煤发电系统研究
3.1 电站介绍
3.2 燃烧部分
3.3 蒸汽循环
3.4 本章小结
4 蒸汽双效溴化锂吸收式制冷循环
4.1 热驱动制冷系统介绍
4.2 蒸汽双效并联吸收式制冷循环模型的建立
4.3 本章小结
5 30MW太阳能冷热电联供系统研究
5.1 工况描述
5.2 评价指标
5.3 变工况分析
5.4 本章小结
6 总结与展望
6.1 总结
6.2 展望
参考文献
附录
2 基于碳纳米管的太阳能吸附制冷复合吸附剂的性能研究
摘要
1 绪论
1.1 研究背景及意义
1.2 吸附制冷基础与国内外研究现状
1.3 主要研究内容
2 吸附理论基础与常见的吸附性能测试装置
2.1 吸附现象
2.2 吸附理论
2.3 吸附方程
2.4 Clapeyron图
2.5 常见的吸附性能测试装置
3 吸附剂性能测试实验台的设计及搭建
3.1 实验台的设计
3.2 实验台的组成
3.3 真空检漏
3.4 改进后的台架
4 吸附剂吸附性能实验研究
4.1 吸附工质对的制备
4.2 实验步骤
4.3 实验结果与分析
5 总结与展望
5.1 总结
5.2 展望
参考文献
3 基于干工质的有机朗肯循环参数优化及太阳能热发电系统设计
摘要
1 绪论
1.1 研究目的与意义
1.2 槽式太阳能热发电技术
1.3 有机朗肯循环研究及应用现状
1.4 主要研究内容
2 有机朗肯循环系统性能计算模型
2.1 工质选取
2.2 系统建模预设参数分析
2.3 ORC系统热力学计算模型
2.4 循环性能评价模型
2.5 本章小结
3 有机朗肯循环系统参数优化
3.1 基本ORC循环
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3.2 带回热(IHE) ORC循环
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3.3 各工质最佳效率运行参数
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3.4 有机朗肯循环与水蒸气朗肯循环对比
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3.5 本章小结
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4 太阳能有机朗肯循环发电系统设计
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4.1 计算工质选择
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4.2 设备选型
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4.3 太阳能场性能计算原理
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4.4 参数设计
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4.5 系统设计
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4.6 系统评价参数计算
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4.7 计算结果分析
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4.8 本章小结
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5 太阳能有机朗肯循环发电系统换热器设计
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5.1 换热器选型
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5.2 各换热器运行参数
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5.3 三段换热器的结构参数选择与计算
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5.4 换热器热力学计算
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5.5 计算结果及分析
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5.6 本章小结
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6 总结与展望
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6.1 总结
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6.2 展望
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参考文献
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4 多周期换热网络的算法研究及其与太阳能热能的整合利用
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摘要
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1 绪论
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1.1 研究背景与意义
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1.2 国内外研究现状
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1.3 主要研究内容
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2 多期换热网络综合的数学模型
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2.1 问题描述
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2.2 数学模型
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2.3 本章小结
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3 多周期换热网络综合的程序实现与算例分析
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3.1 程序实现
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3.2 算例分析
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3.3 本章小结
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4 多周期换热网络综合与太阳能热能的整合利用
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4.1 整合利用基本方法
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4.2 太阳能集热器建模
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4.3 案例分析
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4.4 本章小结
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5 总结与展望
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5.1 总结
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5.2 展望
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参考文献
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5 Simulation of a Hybrid Solar/Coal Power Plant with Aspen Plus
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Abstract
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Symbol List
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1 Introduction
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1.1 Background
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1.2 State of Arts
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1.3 The Development of Solar Collector Model
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1.4 Arrangement of the Report
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2 Site Selection for the Hybrid System
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2.1 Solar Potential of China
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2.2 Coal Power Plants Distribution
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2.3 Site Selection
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2.4 Climatological Condition in Wuhai City
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2.5 Power Unit in Haibowan Power Plant
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3 Solar Filed
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3.1 Principle of Solar Power Plant
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3.2 Solar Irradiation Absorption Calculation
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3.3 The Incident Angle Calculation
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3.4 Heat Losses in the Solar Field
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3.5 Energy Balance of Solar Field
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4 Coal Power Plant
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4.1 Introduction
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4.2 Furnace
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4.3 Boiler and Condenser
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4.4 Steam Turbine
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4.5 Principle of Regenerative Heat Exchanger
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4.6 Performance Analysis of Coal Power Plant
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5 Model Construction
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5.1 Introduction of Aspen Plus
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5.2 Solar Field Model
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5.3 Model of Coal Power Unit
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5.4 Complete Model of Coal Power Plant
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6 Validation of Model
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6.1 Solar Collector Model Validation
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6.2 Validation of Coal Power Unit
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7 Simulation of Hybrid Solar/Coal Power Plant
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7.1 Demonstration of Hybrid System
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7.2 Assumptions
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7.3 Performance Index of Hybrid Power Plant
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7.4 Results of the Simulation
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8 Conclusion and Prospect
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References
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6 The Building of the Test Rig for Composite Adsorbent Based Solar Adsorption Refrigeration
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Abstract
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Notation
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1 Introduction
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1.1 Thesis Statement and Significance of the Research
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1.2 General Introduction of Vapor Compression Refrigeration
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1.3 General Introduction of Adsorption Refrigeration
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1.4 General Introduction of Solar Adsorption Refrigeration
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1.5 Literature Review
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1.6 Thesis Main Contents
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2 Adsorption Theory and Adsorption Equation
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2.1 About Adsorption
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2.2 Adsorption Theories
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2.3 Adsorption Equations
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2.4 Clapeyron Diagram
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3 The design of the Test Rig for Composite Adsorbent Adsorption Performance
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3.1 The Most Commonly Used Test Rigs
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3.2 The Design of the Test Rig
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4 The Building and the Sealing of the Test Rig
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4.1 The Components of the Test Rig
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4.2 The Building of the Test Rig
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4.3 Vacuumization of the System
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5 Conclusion and Prospect
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5.1 Conclusion
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5.2 Prospect
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References
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7 Medium-temperature Small Power Solar Based Organic Rankine Cycle Working Fluids Selecting and System Designing
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Abstract
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1 Background
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1.1 Energy Consumption Review
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1.2 Solar Thermal Electricity(STE)
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1.3 Research Contents of the Thesis
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1.4 Significance of the Research
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2 Fluids and Systems
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2.1 Working Fluids
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2.2 Scheme of Different Systems
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3 Calculation for Selecting Working Fluids
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3.1 Basic System Calculation Model
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3.2 IHE System Calculation Model
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3.3 Operation Parameters Setting
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3.4 Calculation Result and Analysis
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3.5 Comparison between Dry Fluids and Water Steam Cycle
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4 Calculation of Solar Field and Heat Exchangers
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4.1 The System Parameters
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4.2 Safe Distance
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4.3 Solar Field
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4.4 Heat Exchangers in Evaporating System
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4.5 IHE
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4.6 Capital Calculation of Total Heat Exchanging System
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5 Conclusion
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5.1 For Working Fluids
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5.2 For System Model
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5.3 For Real System Construction
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Appendix
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References
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8 Multi-period Heat Exchanger Network Synthesis and Its Integration with Solar Thermal
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Abstract
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Notation
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1 Introduction
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1.1 Background
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1.2 State-of-art of HEN Synthesis
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1.3 Objective of Research
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1.4 Outline of the Thesis
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2 Multi-period Heat Exchanger Network Model
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2.1 Introduction of Method for SPHENS and MPHENS
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2.2 Single-period Method
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2.3 Multiperiod Extension Method
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2.4 Implementation
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2.5 Chapter Conclusion
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3 Integration of Solar Thermal with MPHEN
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3.1 General Introduction of Integration of Solar Thermal with MPHEN
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3.2 Choosing and Modeling of the Solar Collector
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3.3 Integration of Solar Thermal with MPHEN
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3.4 Case study of a Dairy Factory
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3.5 Chapter Conclusion
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4 Conclusion and Prospect
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4.1 Conclusion
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4.2 Prospect
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References
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Appendix A
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Appendix B
更新时间:2021-04-09 17:39:04
完结共245章
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