Development of quantitative SHE index for waste to energy technology selection

Municipal solid waste (MSW) conversion to energy through waste-to-energy technologies (WtE) is promising in offering sustainable and environmentally friendly answers to MSW disposal problems. This paper proposes a quantitative safety, health and environmental (SHE) index for WtE selection. This tech...

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Main Authors: Ahmad, Syaza I., Ho, Wai Shin, Hassim, Mimi H., Elagroudy, Sherien, Abdul Kohar, Rabiatul Adawiyyah, Bong, Cassendra Phun Chien, Hashim, Haslenda, Rashid, Roslina
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Published: Elsevier Ltd 2020
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Online Access:http://eprints.utm.my/id/eprint/89783/
http://dx.doi.org/10.1016/j.energy.2019.116534
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spelling my.utm.897832021-03-04T02:45:44Z http://eprints.utm.my/id/eprint/89783/ Development of quantitative SHE index for waste to energy technology selection Ahmad, Syaza I. Ho, Wai Shin Hassim, Mimi H. Elagroudy, Sherien Abdul Kohar, Rabiatul Adawiyyah Bong, Cassendra Phun Chien Hashim, Haslenda Rashid, Roslina TP Chemical technology Municipal solid waste (MSW) conversion to energy through waste-to-energy technologies (WtE) is promising in offering sustainable and environmentally friendly answers to MSW disposal problems. This paper proposes a quantitative safety, health and environmental (SHE) index for WtE selection. This technique compares WtE technologies according to SHE hazards posed by the chemicals produced. Scores representing the level of hazards expected is assigned to SHE parameters through the implementation of the logistic function. These scores are then added to produce a single score representing the technologies called the Safety, Health and Environmental Total Score (SHETS). Technologies with a lower score are more preferable than a higher score. This technique was applied to a case study of landfill gas recovery system, incineration, gasification, and anaerobic digestion. Incineration is evaluated as the least preferred technology with SHETS value of 54.74 mainly due to the existence of sulfur dioxide which has high atmospheric toxicity and acidification potential while gasification is the most preferred waste-to-energy technology with SHETS value of 50.82. The developed index provides insight on SHE hazards of the chemicals produced allowing the adoption of preventive measures for the development of WtE technology that is efficient in energy production, safer, healthier and environmentally friendlier. Elsevier Ltd 2020-01-15 Article PeerReviewed Ahmad, Syaza I. and Ho, Wai Shin and Hassim, Mimi H. and Elagroudy, Sherien and Abdul Kohar, Rabiatul Adawiyyah and Bong, Cassendra Phun Chien and Hashim, Haslenda and Rashid, Roslina (2020) Development of quantitative SHE index for waste to energy technology selection. Energy, 191 . ISSN 0360-5442 http://dx.doi.org/10.1016/j.energy.2019.116534 DOI:10.1016/j.energy.2019.116534
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Ahmad, Syaza I.
Ho, Wai Shin
Hassim, Mimi H.
Elagroudy, Sherien
Abdul Kohar, Rabiatul Adawiyyah
Bong, Cassendra Phun Chien
Hashim, Haslenda
Rashid, Roslina
Development of quantitative SHE index for waste to energy technology selection
description Municipal solid waste (MSW) conversion to energy through waste-to-energy technologies (WtE) is promising in offering sustainable and environmentally friendly answers to MSW disposal problems. This paper proposes a quantitative safety, health and environmental (SHE) index for WtE selection. This technique compares WtE technologies according to SHE hazards posed by the chemicals produced. Scores representing the level of hazards expected is assigned to SHE parameters through the implementation of the logistic function. These scores are then added to produce a single score representing the technologies called the Safety, Health and Environmental Total Score (SHETS). Technologies with a lower score are more preferable than a higher score. This technique was applied to a case study of landfill gas recovery system, incineration, gasification, and anaerobic digestion. Incineration is evaluated as the least preferred technology with SHETS value of 54.74 mainly due to the existence of sulfur dioxide which has high atmospheric toxicity and acidification potential while gasification is the most preferred waste-to-energy technology with SHETS value of 50.82. The developed index provides insight on SHE hazards of the chemicals produced allowing the adoption of preventive measures for the development of WtE technology that is efficient in energy production, safer, healthier and environmentally friendlier.
format Article
author Ahmad, Syaza I.
Ho, Wai Shin
Hassim, Mimi H.
Elagroudy, Sherien
Abdul Kohar, Rabiatul Adawiyyah
Bong, Cassendra Phun Chien
Hashim, Haslenda
Rashid, Roslina
author_facet Ahmad, Syaza I.
Ho, Wai Shin
Hassim, Mimi H.
Elagroudy, Sherien
Abdul Kohar, Rabiatul Adawiyyah
Bong, Cassendra Phun Chien
Hashim, Haslenda
Rashid, Roslina
author_sort Ahmad, Syaza I.
title Development of quantitative SHE index for waste to energy technology selection
title_short Development of quantitative SHE index for waste to energy technology selection
title_full Development of quantitative SHE index for waste to energy technology selection
title_fullStr Development of quantitative SHE index for waste to energy technology selection
title_full_unstemmed Development of quantitative SHE index for waste to energy technology selection
title_sort development of quantitative she index for waste to energy technology selection
publisher Elsevier Ltd
publishDate 2020
url http://eprints.utm.my/id/eprint/89783/
http://dx.doi.org/10.1016/j.energy.2019.116534
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