液体介质节能窗技术与应用

本书的主要内容为一种新型的围护结构节能技术，液流窗的介绍及其热性能研究成果。具括7个章节内容。分别涉及研究背景及节能窗体技术的发展；该节能液流窗的热性能实验研究；针对其结构和设计参数开展的优化研究；考虑民用和公共建筑等不同用户特性而开展的应用优化研究；基于气候多样性而开展的气候适应性的应用优化研究；为一步该技术的推广并证明其适用性，开展生命周期分析，并从经济、能源和环境影响三个方面探讨其经济社会价值和效益；本书最后一章将对前述章节内行总结并给出该技术未来的研究和发展方向。
本书可供相关专业科研人员阅读，也可作为高等和高职院校教辅参考书。

1 Introduction
1.1 Single Glazing
1.2 Double Glazing System
1.3 Multi-glazing System
1.4 Liquid Flow Window
2 Experimental Investigation of Thermal Performance of Double Glazing Liquid Flow Window
2.1 Research Method
2.1.1 Experiment Set Up
2.1.2 Measuring Instrument
2.2 Experiments and Results Analysir
2.2.1 Water Flow Window Performanee
2.2.2 Anti-freezing Liquid Flow Window Performance
2.2.3 Performance Comparison of Water and Anti-freezing Liquid Flow Window
2.3 Summary
3 Schematic Optimization of Liquid Flow Window
3.1 Research Methodology
3.1.1 Mathematical Models Development
3.1.2 Model Validation
3.2 Pertformance Evaluation with the Variation of Schematic Parameterr
3.2.1 Thermal Performance at Different Cavity Spacer
3.2.2 Thermal Performance Comparison with Various Pipe-work Designr
3.2.3 Thermal Performance Evaluation with Variation of Window Dimension
3.3 Summary
4 Performance Evaluation with PCM Thermal Storage: for Residential and Office Buildings Hot Water Demand Patternr
4.1 Numerical Models Development
4.1.1 Mathematical Models for Car
4.1.2 Mathematical Models for Car
 4.2 Model Validation
4.3 Numerical Study on Thermal Performance of Liquid Flow Window with PCM Heat Exchanger
4.3.1 Thermal Performance for Residential Building Application
4.3.2 Thermal Performanee for Ofice Building Application
4.3.3 Thermal Performance wih Variation of PCM Layer Thickner
4.4 Summary
5 Liquid Flow Window Performance under Ditferent Climate Applicationr
 5.1 Research Methodology
5.1.1 Model Validation for Anti-freeing Liquid Flow Window
5.1.2 Numerical Studies in Diferent Climater
5.2 Thermai Performance Analysis in Various Climate Applicationr
5.2.1 The Efect of Liquid Concentrations on thermal Perfomance
5.2.2 Themal Peformance Comparison under Diferent Climater
5.2.3 Themal Performance Improvement in Cold and Extremely Cold Climater
5.3 Summary
6 Lie Cycle Assesment of Liquid Flow Window
6.1 The Method of Analysir
6.2 Life-long lnvestment,Energy Input and Carbon Emission of Liquid Flow Window
6.2.1 Investment,Enery Input and Caron Emision for Window Materialr
6.2.2 Cot,Energy Consumption and Carbon Enision iom Comstumction to Disposal
6.3 Building Energy Simulation in ESP
6.3.1 Validation Study
6.3.2 Building Energy Simulation
6.3.3 Energy Saving Performance of Liquid Flow Window
6.4 Payback Period Analysir
6.5 Summary
7 Summary and Major Conclusionr
7.1 Research Work Completed
7.2 Findings and Conclusionr
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