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Sharma, Karanvir
- Study and Analysis of Laser Cut Panel
Abstract Views :209 |
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Authors
Affiliations
1 Department of Mechanical Engineering, Punjabi University, Patiala, IN
2 CSIO, Chandigarh, IN
3 Mechanical Engineering, Punjabi University, Patiala, IN
1 Department of Mechanical Engineering, Punjabi University, Patiala, IN
2 CSIO, Chandigarh, IN
3 Mechanical Engineering, Punjabi University, Patiala, IN
Source
Research Cell: An International Journal of Engineering Sciences, Vol 30, No SP (2018), Pagination: 99-106Abstract
Bringing sun light into deep area of office or residential house rooms with simple arrangement of basic windows or sky facing windows is unattainable. To solve this problem light transport framework are important to bring sun light into the profound centres of structures. The main motive of this paper is to upgrade the performance of light transporting media (Horizontal transporting system) and Laser cut panel (LCP) as collector by simulation and study the performance of the various types of LCPs in which cuts are to be made on different angles(θ) i.e. 0°,5°,7°,8° and compare the performance of various LCPs of acrylic for South and East façade of the building in CSIO Chandigarh. It is cleared from the simulation that LCPs are location specific and its performance is depending upon the angle of cut (θ), aspect ratio(A), Refractive index.Keywords
Laser Cut Panel(LCP), Mirrored Light Pipe (MLP), Total Internal Reflection (TIR), Aspect Ratio (A).References
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- I. Edmonds, G. Moore, G. Smith, and P. Swift, "Daylighting enhancement with light pipes coupled to laser-cut light-deflecting panels," International Journal of Lighting Research and Technology, vol. 27, pp. 27-35, 1995.
- V. Garcia Hansen and I. Edmonds, "Natural illumination of deep-plan office buildings: light pipe strategies," 2003.
- P. Greenup and I. Edmonds, "Novel technologies for improved daylighting of high rise office buildings," Solar Energy, pp. 195-202, 2000.
- Daylight System Using a New Fresnel Lens Design
Abstract Views :226 |
PDF Views:0
Authors
Affiliations
1 Department of Mechanical Engineering, Punjabi University, Patiala, IN
2 CSIO-CSIR, Chandigarh, IN
1 Department of Mechanical Engineering, Punjabi University, Patiala, IN
2 CSIO-CSIR, Chandigarh, IN
Source
Research Cell: An International Journal of Engineering Sciences, Vol 30, No SP (2018), Pagination: 107-115Abstract
A Fresnel lens is designed for redirecting the light for further use. Fresnel lens have short focal length, less volume, large acceptance and higher efficiency as compared to ordinary lenses.It is designed for area focus to achieve uniform illumination and less temperature at entrance of optical fiber bundle. The Fresnel lensis made up of polymethyl methacrylate (PMMA). It is a compilation of number of small square blocks, whereeach block is uniquely designed.Their ray trajectory is analyzed by using Trace-Pro software.Keywords
Fresnel Lens, Transportation Device, Blocks, Uniform Illumination, Optical Fiber.References
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- https://www.epa.gov/ghgemissions/global-greenhouse-gas-emissions-data
- Singh, Ravinder, GaganBaradia, and Ankur Gupta. "Hybrid Solar Lighting System for Energy Conservation: A Review."
- Tripanagnostopoulos, Y., ChSiabekou, and J. K. Tonui. "The Fresnel lens concept for solar control of buildings." Solar Energy 81, no. 5 (2007): 661-675.
- Ullah, Irfan, and Allen Jong-Woei Whang. "Development of optical fiber-based daylighting system and its comparison." Energies 8, no. 7 (2015): 7185-7201
- Garcia-Hansen, Veronica Ruth. "Innovative daylighting systems for deep-plan commercial buildings." PhD diss., Queensland University of Technology, 2006.
- Nair, M. G., A. R. Ganesan, and K. Ramamurthy. "Conceptual design and assessment of a profiled Fresnel lens daylight collector." Lighting Research & Technology 47, no. 5 (2015): 533-547.
- Davis, Arthur, and Frank Kühnlenz. "Optical design using Fresnel lenses." Optik&Photonik 2, no. 4 (2007): 52-55.
- Song, Jifeng, Zhou Jin, Yong Zhu, Zili Zhou, and Yongping Yang. "Development of a fiber daylighting system based on the parallel mechanism and direct focus detection." Solar Energy 115 (2015): 484-493.
- Song, Jifeng, Yong Zhu, Kai Tong, Yongping Yang, and M. A. Reyes-Belmonte. "A note on the optic characteristics of daylighting system via PMMA fibers." Solar Energy 136 (2016): 32-34.
- http://www.genuineholographics.com/
- Ryu, Kwangsun, Jin-Geun Rhee, Kang-Min Park, and Jeong Kim. "Concept and design of modular Fresnel lenses for concentration solar PV system." Solar energy 80, no. 12 (2006): 1580-1587.
- Kischkoweit-Lopin, Martin. "An overview of daylighting systems." Solar Energy 73, no. 2 (2002): 77-82.
- Akisawa, Atsushi, Takayuki Sato, Takahiko Miyazaki, Takao Kashiwagi, and Masao Hiramatsu. "High concentration non-imaging Fresnel lens design with flat upper surface." In High and Low Concentration for Solar Electric Applications II, vol. 6649, p. 66490F. International Society for Optics and Photonics, 2007.
- Xie, W. T., Y. J. Dai, R. Z. Wang, and K. Sumathy. "Concentrated solar energy applications using Fresnel lenses: A review." Renewable and Sustainable Energy Reviews 15, no. 6 (2011): 2588-2606.
- Wang, Chen, H. Abdul-Rahman, and S. P. Rao. "Daylighting can be fluorescent: Development of a fiber solar concentrator and test for its indoor illumination." Energy and Buildings 42, no. 5 (2010): 717-727.
- Mayhoub, M. S., and D. J. Carter. "Towards hybrid lighting systems: A review." Lighting Research & Technology 42, no. 1 (2010): 51-71.
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- Singh, R., Baradia, G. and Gupta, A., Hybrid Solar Lighting System for Energy Conservation: A Review.
- Vu, N.H. and Shin, S., 2016. Cost-effective optical fiber daylighting system using modified compound parabolic concentrators. Solar Energy, 136, pp.145-152.
- Eun-Cheol Kang, Yong-Yeon Choi, Yoon Kwang-Shik and Yi Joon Lee, 2011. A Study on Performance Evaluation of Circular Fresnel Concentrating POF Daylighting System. Journal of the Korean Solar Energy Society, 31 (1), pp.31-35