Cost study on remote source solar lighting system in high-rise residential buildings in Hong Kong

Irene Wong; H.X. Yang

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Cost study on remote source solar lighting system in high-rise residential buildings in Hong Kong

机译：香港高层住宅楼宇远距离太阳能照明系统的成本研究

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Hong Kong is a densely populated metropolitan city with limited land supply. The land cost is high. Majority of the residential buildings are developed into high-rise with a central core design of enclosed lift lobbies without natural lighting. Electricity is required to provide illumination continuously for 24 h. A remote source solar lighting system using side-emitting fiber optic as illuminators is designed to reduce the emission of greenhouse gases for providing illumination to these lift lobbies. Experiment was carried out to test the performance of the daylighting system and proved that the remote source solar lighting system could displace an average of 3 h of electric lighting in a day and reduce 6.7 × 10~6 kg of carbon dioxide emission in a year. A study on the cost of the remote source solar lighting system was conducted and compared to the cost of the conventional lighting systems. Both the maintenance cost and environmental benefit that could be offered by the remote source solar lighting system were also studied in detail. Although the side-emitting technology of fiber optic is still primitive, further development can improve the emission efficiency and allow the remote source solar lighting system to operate more effectively. The potential of applying the remote source solar lighting system to conserve environment is promising.

机译：香港是一个人口稠密的大城市，土地供应有限。土地成本高。大多数住宅建筑已发展成高层建筑，其核心核心设计是封闭的电梯大堂，没有自然采光。需要电才能持续提供照明24小时。使用侧向发射光纤作为照明器的远程源太阳能照明系统旨在减少温室气体的排放，从而为这些电梯大堂提供照明。进行了实验以测试日光照明系统的性能，并证明了远程光源太阳能照明系统每天平均可替换3小时的电照明设备，并每年减少6.7×10〜6 kg的二氧化碳排放量。对远程太阳能照明系统的成本进行了研究，并将其与常规照明系统的成本进行了比较。还详细研究了远程太阳能照明系统可以提供的维护成本和环境效益。尽管光纤的侧向发射技术仍然很原始，但进一步的发展可以提高发射效率，并使远程光源的太阳能照明系统更有效地运行。将远程源太阳能照明系统应用于保护环境的潜力是有希望的。

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《Building and Environment》 |2013年第9期|231-239|共9页
作者
Irene Wong; H.X. Yang;
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作者单位

Renewable Energy Research Group (RERG), Department of Building Services Engineering, The Hong Kong Polytechnic University, Kowloon. Hong Kong;

Renewable Energy Research Group (RERG), Department of Building Services Engineering, The Hong Kong Polytechnic University, Kowloon. Hong Kong;

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正文语种 eng
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Remote source solar lighting system; High-rise residential buildings; Central core design; Enclosed lift lobby; Side-emitting fiber optic;

机译：远程光源太阳能照明系统;高层住宅建筑;中央核心设计;封闭的电梯大堂;侧面发射光纤;

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专利

1. Study on remote source solar lighting system application in high-rise residential buildings in Hong Kong [J] . Irene Wong, H.X. Yang Energy and Buildings . 2013,第may期

机译：远程光源太阳能照明系统在香港高层住宅中的应用研究
2. Potential application of a centralized solar water-heating system for a high-rise residential building in Hong Kong [J] . T.T. Chow, K.F. Fong, A.L.S. Chan, Applied Energy . 2006,第1期

机译：集中式太阳能热水系统在香港高层住宅中的潜在应用
3. Simulation and experimental studies on natural lighting in enclosed lift lobbies of highrise residential buildings by remote source solar lighting [J] . Irene Wong, H.L Choi, H. Yang Applied Energy . 2012,第期

机译：高层住宅建筑封闭式电梯大厅采用远距离太阳能照明的自然照明模拟和实验研究
4. An exhaustive parametric study on major passive design strategies of a typical high-rise residential building in Hong Kong [C] . Xi Chen, Hongxing Yang Applied Energy Symposium and Summit . 2016

机译：香港典型高层住宅楼的主要被动设计策略的详尽参数研究
5. Integration of a Remote Source Solar Lighting System into the Architectural Design of Enclosed Lift Lobbies in High-rise Residential Buildings. [D] . Wong, Irene. 2012

机译：将远程光源太阳能照明系统集成到高层住宅建筑中封闭式电梯大厅的建筑设计中。

Cost study on remote source solar lighting system in high-rise residential buildings in Hong Kong

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