도서정보
- 저자: Ursula Eicker
- 출판사: Wiley; 1 edition (April 27, 2009)
- ISBN-10: 047069744X
- ISBN-13: 978-0470697443
내용
Preface.
About the Author.
1 Energy Demand of Buildings.
1.1 Residential Buildings.
1.1.1 Heating Energy.
1.1.2 Domestic Hot Water.
1.1.3 Electricity Consumption.
1.2 Office Buildings.
1.2.1 Heating Energy.
1.2.2 Electricity Consumption.
1.2.3 Air Conditioning.
1.3 Conclusions.
2 Façades and Summer Performance of Buildings.
2.1 Review of Façade Systems and Energy Performance.
2.1.1 Single Façades.
2.1.2 Double Façades.
2.1.3 Modelling of Ventilated Façades.
2.2 Experimental Results on Total Energy Transmittance.
2.2.1 Laboratory Experiments.
2.2.2 Building Experiments.
2.3 Cooling Loads through Ventilation Gains.
2.3.1 Double Façade Experiments.
2.3.2 Parameter Study Using Simulation.
2.4 Energy Production from Active Façades.
2.4.1 Thermal and Electrical Energy Balance of the Façade.
2.5 Conclusions on Façade Performance.
3 Passive Cooling Strategies.
3.1 Building Description and Cooling Concepts.
3.1.1 Lamparter Building, Weilheim.
3.1.2 Rehabilitated Office Building in Tübingen.
3.1.3 Low-energy Office Building in Freiburg.
3.2 Passive Night Ventilation Results.
3.2.1 Internal Loads and Temperature Levels.
3.2.2 Air Changes and Thermal Building Performance.
3.2.3 Simulation of Passive Cooling Potential.
3.2.4 Active Night Ventilation.
3.3 Summary of Passive Cooling.
4 Geothermal Cooling.
4.1 Earth Heat Exchanger Performance.
4.1.1 Earth to Air Heat Exchanger in a Passive Standard Office Building.
4.1.2 Performance of Horizontal Earth Brine to Air Heat Exchanger in the ebök Building.
4.1.3 Performance of Vertical Earth Brine to Air Heat Exchanger in the SIC Building.
4.1.4 Modelling of Geothermal Heat Exchangers.
4.1.5 Conclusions on Geothermal Heat Exchangers for Cooling.
5 Active Thermal Cooling Technologies.
5.1 Absorption Cooling.
5.1.1 Absorption Cycles.
5.1.2 Solar Cooling with Absorption Chillers.
5.2 Desiccant Cooling.
5.2.1 Desiccant Cooling System in the Mataró Public Library.
5.2.2 Desiccant Cooling System in the Althengstett Factory.
5.2.3 Monitoring Results in Mataró.
5.2.4 Monitoring Results in Althengstett.
5.2.5 Simulation of Solar-Powered Desiccant Cooling Systems.
5.2.6 Cost Analysis.
5.2.7 Summary of Desiccant Cooling Plant Performance.
5.3 New Developments in Low-Power Chillers.
5.3.1 Development of a Diffusion–Absorption Chiller.
5.3.2 Liquid Desiccant Systems.
6 Sustainable Building Operation Using Simulation.
6.1 Simulation of Solar Cooling Systems.
6.1.1 Component and System Models.
6.1.2 Building Cooling Load Characteristics.
6.1.3 System Simulation Results.
6.1.4 Influence of Dynamic Building Cooling Loads.
6.1.5 Economic Analysis.
6.1.6 Summary of Solar Cooling Simulation Results.
6.2 Online Simulation of Buildings.
6.2.1 Functions and Innovations in Building Management Systems.
6.2.2 Communication Infrastructure for the Implementation of Model-Based Control Systems.
6.2.3 Building Online Simulation in the POLYCITY Project.
6.3 Online Simulation of Renewable Energy Plants.
6.3.1 Photovoltaic System Simulation.
6.3.2 Communication Strategies for Simulation-Based Remote Monitoring.
6.3.3 Online Simulation for the Commissioning and Operation of Photovoltaic Power Plants.
6.3.4 Summary of Renewable Energy Plant Online Simulation.
7 Conclusions.
References.
Index.
서평
오래 기다린 이 가이드북은 하나의 포괄적인 책 안에서 기존의 그리고 새로 알려진 에너지 기술들의 광범위한 범위를 다루면서 건물에 대한 저에너지 냉방 시스템의 개요를완벽히 제공한다. 건물 하중 혹은 태양열 냉방 효율성들과 같은 냉방성능에 관한 훌륭한 데이터 자료는 건물 서비스와 재생에너지 엔지니어들 그리고 지속가능한 디자인을 다루는 연구자들을 위해서 필수적인 독서 자료이다.
이 책은 구체화된 실험실과 시뮬레이션 분석뿐만 아니라 실제 건물과 에너지 발전소를 다년간 관찰한 실험적인 결과의 큰 집합을 포함하는 유일무이한 것이다. 또한 책의 본문에서는 건물 안에서 시스템이 실제로 작동하는 것, 실제 비용이 무엇인지 그리고 어떻게 작동이 완벽하게 활용 될 수 있는지 – 빌딩 구역에서 새로운 공업기술을 사용하는 것의 신뢰를 얻기 위한 계획자들, 건축가들 그리고 설계사들을 위한 결정적인 정보를 알려준다.