Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India
Buildings in India consume over one-third of the country’s total electricity consumption and out of which about 28% and 25% are accounted for lighting energy in the residential and commercial buildings, respectively. Passive daylighting system using tubular daylight-pipe is a promising technique to...
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sg-ntu-dr.10356-1647232023-02-13T02:06:05Z Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India Azad, Abdus Salam Donthu, Eswara V. S. K. K. Wan, Man Pun Kaushik, S. C. Rakshit, Dibakar School of Mechanical and Aerospace Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Mechanical engineering::Energy conservation Daylighting Lighting Energy Buildings in India consume over one-third of the country’s total electricity consumption and out of which about 28% and 25% are accounted for lighting energy in the residential and commercial buildings, respectively. Passive daylighting system using tubular daylight-pipe is a promising technique to save lighting energy by illuminating deep building interiors that have no daylight access through exterior windows. In this study, an innovative daylight-pipe has been designed and developed for enhanced daylighting performance by optimizing configurations of single and dual reflectors at its receiver. A detailed daylight assessment has been carried out using controlled experimentation while varying the reflectors position and orientation inside the hemispherical receiver of the daylight-pipe. It has been found that the single reflector oriented toward south has the best performance with a light transmission efficiency of 35.6%. Furthermore, monthly electrical energy savings due to the advanced daylight-pipe along with various supplementary electrical lighting options such as incandescent bulb, compact fluorescent lamp (CFL), and light emitting diode (LED) were estimated and compared for various climatic locations of India. From these evaluations, a lighting energy saving up to 23% has been observed in the summer month of May for temperate climate of Pune and hot-dry climate of Jodhpur. 2023-02-13T02:06:05Z 2023-02-13T02:06:05Z 2022 Journal Article Azad, A. S., Donthu, E. V. S. K. K., Wan, M. P., Kaushik, S. C. & Rakshit, D. (2022). Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India. Journal of Solar Energy Engineering, 144(5), 051011-. https://dx.doi.org/10.1115/1.4054470 0199-6231 https://hdl.handle.net/10356/164723 10.1115/1.4054470 2-s2.0-85144543584 5 144 051011 en Journal of Solar Energy Engineering © 2022 by ASME. All rights reserved. |
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Engineering::Mechanical engineering::Energy conservation Daylighting Lighting Energy |
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Engineering::Mechanical engineering::Energy conservation Daylighting Lighting Energy Azad, Abdus Salam Donthu, Eswara V. S. K. K. Wan, Man Pun Kaushik, S. C. Rakshit, Dibakar Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India |
| description |
Buildings in India consume over one-third of the country’s total electricity consumption and out of which about 28% and 25% are accounted for lighting energy in the residential and commercial buildings, respectively. Passive daylighting system using tubular daylight-pipe is a promising technique to save lighting energy by illuminating deep building interiors that have no daylight access through exterior windows. In this study, an innovative daylight-pipe has been designed and developed for enhanced daylighting performance by optimizing configurations of single and dual reflectors at its receiver. A detailed daylight assessment has been carried out using controlled experimentation while varying the reflectors position and orientation inside the hemispherical receiver of the daylight-pipe. It has been found that the single reflector oriented toward south has the best performance with a light transmission efficiency of 35.6%. Furthermore, monthly electrical energy savings due to the advanced daylight-pipe along with various supplementary electrical lighting options such as incandescent bulb, compact fluorescent lamp (CFL), and light emitting diode (LED) were estimated and compared for various climatic locations of India. From these evaluations, a lighting energy saving up to 23% has been observed in the summer month of May for temperate climate of Pune and hot-dry climate of Jodhpur. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Azad, Abdus Salam Donthu, Eswara V. S. K. K. Wan, Man Pun Kaushik, S. C. Rakshit, Dibakar |
| format |
Article |
| author |
Azad, Abdus Salam Donthu, Eswara V. S. K. K. Wan, Man Pun Kaushik, S. C. Rakshit, Dibakar |
| author_sort |
Azad, Abdus Salam |
| title |
Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India |
| title_short |
Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India |
| title_full |
Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India |
| title_fullStr |
Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India |
| title_full_unstemmed |
Energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of India |
| title_sort |
energy savings of an optimized daylight-pipe system with single and dual reflectors in tropical climates of india |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164723 |
| _version_ |
1759058804840857600 |