Performance evaluation of compact solar water heater with black chromium coating
Having blessed with abundance sunlight and high solar radiation level, Malaysian is tempted to the' green' solar technology. Yet, application of solar water heating system in Malaysia is not so popular. Facing with the unique Malaysian climate, hot and humid, more cloudy and rainy than cle...
Saved in:
Main Author: | |
---|---|
Format: | Thesis |
Language: | English |
Published: |
2007
|
Subjects: | |
Online Access: | https://eprints.ums.edu.my/id/eprint/6369/1/mt0000000143.pdf |
Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
id |
my-ums-ep.6369 |
---|---|
record_format |
uketd_dc |
institution |
Universiti Malaysia Sabah |
collection |
UMS Institutional Repository |
language |
English |
topic |
TH Building construction |
spellingShingle |
TH Building construction Dg. Nooremah Ag. Said Performance evaluation of compact solar water heater with black chromium coating |
description |
Having blessed with abundance sunlight and high solar radiation level, Malaysian is tempted to the' green' solar technology. Yet, application of solar water heating system in Malaysia is not so popular. Facing with the unique Malaysian climate, hot and humid, more cloudy and rainy than clear day and of course, a high initial cost, designers and engineers are challenged to come out with a cost efficient Solar Water Heater (SWH). In this study, a compact SWH prototype has been developed and tested. This unit is equipped with a perforated tube (inserted in the lower header tube) which has different number of hole (in ascending order) in each opening to riser tubes, intended to curb the bottleneck problem. The water circulates by thermosiphon principles. During the heating process, the water flow in the riser tube is more uniform with the presence of the perforated tube. In addition, the absorber plate is coated with black chromium selective coating which enhances the thermal radiation absorption (J.Idris et.al., 2003). Problem that often occurs which reduces the efficiency is the heat loss through solar collector panel (especially the top panel) and connecting pipes. The developed compact prototype not only reduces the heat losses but also reduces the usage of material and hence cost. Experimental results showed that the UTM IV prototype has overall heat loss coefficient reduced from 6.91 to 6.83 W/m2K, and instantaneous efficiency rise from 69.4% to 82%, an increase about 12.6%, compared to the UTM II prototype. |
format |
Thesis |
qualification_level |
Master's degree |
author |
Dg. Nooremah Ag. Said |
author_facet |
Dg. Nooremah Ag. Said |
author_sort |
Dg. Nooremah Ag. Said |
title |
Performance evaluation of compact solar water heater with black chromium coating |
title_short |
Performance evaluation of compact solar water heater with black chromium coating |
title_full |
Performance evaluation of compact solar water heater with black chromium coating |
title_fullStr |
Performance evaluation of compact solar water heater with black chromium coating |
title_full_unstemmed |
Performance evaluation of compact solar water heater with black chromium coating |
title_sort |
performance evaluation of compact solar water heater with black chromium coating |
granting_institution |
Universiti Teknologi Malaysia |
granting_department |
Faculty of Mechanical Engineering |
publishDate |
2007 |
url |
https://eprints.ums.edu.my/id/eprint/6369/1/mt0000000143.pdf |
_version_ |
1747836324824481792 |
spelling |
my-ums-ep.63692017-10-11T02:35:39Z Performance evaluation of compact solar water heater with black chromium coating 2007 Dg. Nooremah Ag. Said TH Building construction Having blessed with abundance sunlight and high solar radiation level, Malaysian is tempted to the' green' solar technology. Yet, application of solar water heating system in Malaysia is not so popular. Facing with the unique Malaysian climate, hot and humid, more cloudy and rainy than clear day and of course, a high initial cost, designers and engineers are challenged to come out with a cost efficient Solar Water Heater (SWH). In this study, a compact SWH prototype has been developed and tested. This unit is equipped with a perforated tube (inserted in the lower header tube) which has different number of hole (in ascending order) in each opening to riser tubes, intended to curb the bottleneck problem. The water circulates by thermosiphon principles. During the heating process, the water flow in the riser tube is more uniform with the presence of the perforated tube. In addition, the absorber plate is coated with black chromium selective coating which enhances the thermal radiation absorption (J.Idris et.al., 2003). Problem that often occurs which reduces the efficiency is the heat loss through solar collector panel (especially the top panel) and connecting pipes. The developed compact prototype not only reduces the heat losses but also reduces the usage of material and hence cost. Experimental results showed that the UTM IV prototype has overall heat loss coefficient reduced from 6.91 to 6.83 W/m2K, and instantaneous efficiency rise from 69.4% to 82%, an increase about 12.6%, compared to the UTM II prototype. 2007 Thesis https://eprints.ums.edu.my/id/eprint/6369/ https://eprints.ums.edu.my/id/eprint/6369/1/mt0000000143.pdf text en public masters Universiti Teknologi Malaysia Faculty of Mechanical Engineering Adnan Shariah and Bassarn Shalabi (1997). "Optimal Design For A Therrnosyphon Solar Water Heater." Journal of Renewable Energy. Alias Mohd. Noor, Farid Nasir Ani and Kannan, K.S. (1999). "Renewable Energy Scenario In Malaysia." Proc. Of ISREPA 99. Skudai, Malaysia. Arakawa lunji (2001). "Solar Water Heater." (lP 2001091060). Arakawa Junji (2001). "Solar Water Heater with Floats." (JP 2001091061). Arakawa Junji (2001). "Solar Water Heater and Hot Water Collecting Pipe." (JP 2001091062). American Society of Heating and Air-Conditioning Engineers. Testing Procedure for Thermal Performance Calculation. ASHRAE 93. 1986 American Society of Heating and Air-Conditioning Engineers. Solar Water Heater Components Testing Procedures - Solar Collector Panel and Storage Tank. ASH RAE 95. 1987 Asrul Effendy Suhaimi (2001). Pengoptimuman Salutan Kromium Hitarn untuk Aplikasi Terma Tenaga Suria. Universiti Teknologi Malaysia: BEng. Thesis. Australian Standard Institute. Tests Procedure for Solar Water Heating Systems. Australia Standard 2984. 1987 Bansal, N.K. and Sharma, V.K. (1985). "Glazing Materials for Solar Collectors." in Garg, H. P. (Ed) "Solar Water Heating Systems." Proc. of the Workshop on Solar Water Heating Systems. New Delhi, India: D. Reidel Publishing Company. British Standards Institution. Solar Heating Systems - Testing Procedures. London, BS 5918. 1989 British Standards Institution. Thermal Performance of Solar Collector. London, BS 6757.1989 Chee Moh Lin (2003). Kajian Tentang Sistem Termosifon Aktif bagi Pemanas Air Suria dengan Menggunakan Salutan Kromium Hitarn. Universiti Teknologi Malaysia: BEng. Thesis. David Faiman, Haim Hazan And Ido Laufer (2001). "Reducing The Heat Loss At Night From Solar Water Heaters Of The Integrated Collector-Storage Variety." Journal of Renewable Energy. Duffie, J .A. and W.A. Beckman (1991). "Solar Engineering of Thermal Process" New York: Wiley. 184-190,250-327. Experimental Building Station, Departmental of Construction (1976). "Domestic Solar Water Heating." Brisbane: (NSB 143). Garg, H. P. (1982). "Treatise on Solar Energy: Fundamentals of Solar Energy." New Delhi, India: John Wiley and Sons Ltd. Vol. 1. Garg, H. P. (Ed) (1985). "Solar Water Heating Systems." Proc. of the Workshop on Solar Water Heating Systems. New Delhi, India: D. Reidel Publishing Company. Gurmit Singh K. S. and Foo Hee Boon (1996). "Blowing in the Wind: Malaysia's Renewable Energy Scene." Petaling Jaya: Centre for Environment, Technology and Development Malaysia (CETDEM). Haslina Aarif (2003). Study of Thermosiphon Solar Water Heater System with Passive Design Using Black Chromium Coating. Universiti Teknologi Malaysia: BEng. Thesis. Hazlinda Kamarudin (2007). A Study on Properties and Performance of Newly Improved Formulation Black Chromium Coating for Solar Water Heater. Universiti Teknologi Malaysia. MEng. Thesis. Unpublished. Hollands K. G. T. (1965). "Honeycomb Devices in Flat Plate Collectors." Journal a/Solar Energy. 9. 159. J. Idris, H. Kamarudin and DNA Said (2002). "New Design Solar thermal System with Black Chromium Coating", Abstract & Poster for Expo Science & Technology 2002, Kuala Lumpur. 1. Idris, H. Kamarudin and DNA Said (2003). "New Black Chromium Selective Coating for Solar Water Heating System". Abstract & Poster for 31 SI International Exhibition of Invention, New Techniques and Products of Geneva. Jamaliah Idris and Dg. Nooremah Ag. Said (2005). "New Black Chromium Selective Coating for Solar Water Heating System". Abstract & Poster for Industrial Art & Technology Exhibition, INATEX 2005. Loh Swee Keong (2002). Effect of Barium Sulphate Deposition on the Optical Properties of Black Chromium Coating. Universiti Teknologi Malaysia: BEng. Thesis. Malaysian Meteorological Service - MMS (2004). http://www.kjc.gov.my. Martin Andrew s/o Arlando (2001). Development of Solar Panel System for Thermal Energy Application. Universiti Teknologi Malaysia: BEng. Thesis. Mathur, S.S. and Bansal, N.K. (1985). "Domestic Thermosyphon Water Heating Systems." in Garg, H. P. (Ed) "Solar Water Heating Systems." Proc.ofthe Workshop on Solar Water Heating Systems. New Delhi, India: D. Reidel Publishing Company. Michael Glover (Ed) (1979). "Corrosion Prevention in Solar Water Heating Systems." Quebec, Canada: Canadian Government Publishing Centre. Minardi J.E. and Chuang, H.N. (1975). "Performance of a Black Liquid Flat-Plate Solar Collector." Journal of Solar Energy. 17. 179 Mohd Nazri Sharum (2002). The Effect ofBaS04 on Black Chromium Optical Properties on Copper Substrate. Universiti Teknologi Malaysia: BEng. Thesis. Mohd. Yusof Hj. Othman (1996). "Penjanaan Tenaga Kesinambungan yang Meyakinkan." Bangi: Penerbit Universiti Kebangsaan Malaysia. 90 Montgomery, R.H. and Livingstone, J.L. (1986). "The Solar Water Heater Handbook: a Guide to Residential Solar Water Heaters." Canada: John Wiley & Sons Inc. Morrison G. L. (1997). "Developments in Solar Water Heating." ASME (Singapore) Yearbook. 45-54. Morrison G. L., Behnia M., Cook M., Groenhout N. And Mills D. R. (1999). "Optimal Design of Advanced Solar Water Heaters." Proc. of the Sixth Australian Natural Convection Workshop. Morrison G. L. and Wood B. D. (2000). "Packaged Solar Water Heating Technology, Twenty Years of Progress." Renewable Energy World Review Issue 2000 - 2001, 170-183. Nizamil Fairuz Yahya (2001). Optimisation of Plating Parameters and Performance Analysis of Black Chromium Coating for Solar Thermal Energy Applications. Universiti Teknologi Malaysia: MEng. Thesis. Norhalilah Kasauk (2000). Membuat, Mereka bentuk dan Menguji Pemanas Air Tenaga Suria untuk Sistem Penyejukan. Universiti Teknologi Malaysia: BEng. Thesis. Ong, K.S. (1994). "Solar Water Heater - Engineering And Application." Kuala Lumpur: University Malaya Publication. Plante, Russell Howard (1983). " Solar Domestic Hot Water: Practical Guide to Installation and Understanding." Canada: John Wiley & Sons Inc. Rohani Ngandi (2002). Formula Baru Salutan Kromium Hitam untuk Aplikasi Terma Tenaga Suria. Universiti Teknologi Malaysia: BEng. Thesis. Romizal Amir Rosdi (2001). Pembangunan Panel Suria untuk Pemanas Air Tenaga Suria Menggunakan Salutan Kromiurn Hitam. Universiti Teknologi Malaysia: BEng. Thesis. Saiful Bari (2000). "Optimum Orientation of Domestic Solar Water Heaters for the Low Latitude Countries." Journal of Solar Energy. Shalee d/o Ramakrishnan (2000). The Microstructures and Optical Properties of Black Chromium Coating on Solar Panel Materials. Universiti Teknologi Malaysia: BEng. Thesis. Sinson D.A. (1979). "How to Build a Solar Water Heater." Quebec, Canada: Brace Research Institute. Solar Research Design Sdn. Bhd. (Microsolar Malaysia - 2003) http://www.microsolarsystem.com Souka A.F. (1976). "Double Exposure Flat-Plate Collector." Journal of Solar Energy. 9. 11 7 Sukhatme, S. P. (1990). "Solar Energy: Principles of Thermal Collection and Storage." New Delhi: Tata McGraw Hill Publishing Company Limited. Suppah Rao s/o Ramanaidu (2000). The Optical Properties and Microstructures of Black Chromium Coating for Solar Thermal Energy Application. Universiti Teknologi Malaysia: BEng. Thesis. Swartman R.K. and Ogunlade 0. (1966). "An Investigation on Packed-Bed Collectors." Journal of Solar Energy. 10. 106. Teoh, Siang Teik (2000). "Tubular Heating Pipe Solar Water Heating System with Integral Tank." (US 6014968). Thomason H.E. and Thomason H.J.L. Jr. (1976). "Solar Heat Collector." (US 3989031). |