Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement

For decades, the inclusion of activated carbon (AC) adsorption technique through filtration has gained significant interest on improvement of indoor air quality (IAQ) by reducing level of pollutant. The interest of reseachers in palm shell AC (PSAC) keep increase owing to the fact that this material...

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Main Author: Zakaria@Jawahir, Supa'at
Format: Thesis
Language:English
English
English
Published: 2018
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spelling my.uthm.eprints.75652022-08-21T01:45:53Z http://eprints.uthm.edu.my/7565/ Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement Zakaria@Jawahir, Supa'at TD Environmental technology. Sanitary engineering TD878-894 Special types of environment, Including soil pollution, air pollution, noise pollution For decades, the inclusion of activated carbon (AC) adsorption technique through filtration has gained significant interest on improvement of indoor air quality (IAQ) by reducing level of pollutant. The interest of reseachers in palm shell AC (PSAC) keep increase owing to the fact that this material has superior characteristic as compared to commercial AC. However, the investigation of PSAC performance for air filtration are still limited and no research could be found on relating the effect of burner for carbonization on PSAC properties. Therefore, the current research was focused on producing PSAC by using new fabricated burner, exploring the effect of combination of physical and chemical activation towards PSAC properties and investigating of PSAC air filter performance used in Mechanical Ventilation Air Conditioning (MY AC) system. Preliminary studies began with IAQ monitoring in different building condition. The present data revealed that at certain situation, the buildings environment was below than satisfactory level and required mitigation plan by introducing new air filtration media in MY AC system. The best quality of charcoal was obtained by Horizontal burner with less fume formation during carbonization process compare to other design. The physical properties analysis of palm shell charcoal showed the carbonization time (CT) 2 hours gained better charcoal properties and highly recommended to continue into the activation process. After the activation process, PSAC physical+chemical shows significantly higher pore development, surface area and adsorption capacity compare to the other process. The lowest density and the highest porosity up to 0.4632 g/cm3 and 7.11 % was calculated while the highest Iodine number of 1091.05 mg/g and BET surface area of 713.7 m2/g was obtained respectively in PSAC physical+chemical. Meanwhile, microstructure and composition analysis shows that, PSAC physical+chemical fully produced honeycomb fonn of porosity and comprised of C, 0, K and Ca contents for high adsorption capacity. The improvement of IAQ in the buildings was achieved with the application of PSAC air filter which shows low concentration of CO2 with 302 ppm, CO with 0.4 ppm , TVOC with 0.1 ppm and PM 10 with 0.02mg/m3 respectively compare to the commercial filter. 2018-05 Thesis NonPeerReviewed text en http://eprints.uthm.edu.my/7565/2/24p%20SUPA_AT%20ZAKARIA%20%40%20JAWAHIR.pdf text en http://eprints.uthm.edu.my/7565/1/SUPA_AT%20ZAKARIA%20%40%20JAWAHIR%20COPYRIGHT%20DECLARATION.pdf text en http://eprints.uthm.edu.my/7565/3/SUPA_AT%20ZAKARIA%20%40%20JAWAHIR%20WATERMARK.pdf Zakaria@Jawahir, Supa'at (2018) Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement. Doctoral thesis, Universiti Tun Hussein Onn Malaysia.
institution Universiti Tun Hussein Onn Malaysia
building UTHM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tun Hussein Onn Malaysia
content_source UTHM Institutional Repository
url_provider http://eprints.uthm.edu.my/
language English
English
English
topic TD Environmental technology. Sanitary engineering
TD878-894 Special types of environment, Including soil pollution, air pollution, noise pollution
spellingShingle TD Environmental technology. Sanitary engineering
TD878-894 Special types of environment, Including soil pollution, air pollution, noise pollution
Zakaria@Jawahir, Supa'at
Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
description For decades, the inclusion of activated carbon (AC) adsorption technique through filtration has gained significant interest on improvement of indoor air quality (IAQ) by reducing level of pollutant. The interest of reseachers in palm shell AC (PSAC) keep increase owing to the fact that this material has superior characteristic as compared to commercial AC. However, the investigation of PSAC performance for air filtration are still limited and no research could be found on relating the effect of burner for carbonization on PSAC properties. Therefore, the current research was focused on producing PSAC by using new fabricated burner, exploring the effect of combination of physical and chemical activation towards PSAC properties and investigating of PSAC air filter performance used in Mechanical Ventilation Air Conditioning (MY AC) system. Preliminary studies began with IAQ monitoring in different building condition. The present data revealed that at certain situation, the buildings environment was below than satisfactory level and required mitigation plan by introducing new air filtration media in MY AC system. The best quality of charcoal was obtained by Horizontal burner with less fume formation during carbonization process compare to other design. The physical properties analysis of palm shell charcoal showed the carbonization time (CT) 2 hours gained better charcoal properties and highly recommended to continue into the activation process. After the activation process, PSAC physical+chemical shows significantly higher pore development, surface area and adsorption capacity compare to the other process. The lowest density and the highest porosity up to 0.4632 g/cm3 and 7.11 % was calculated while the highest Iodine number of 1091.05 mg/g and BET surface area of 713.7 m2/g was obtained respectively in PSAC physical+chemical. Meanwhile, microstructure and composition analysis shows that, PSAC physical+chemical fully produced honeycomb fonn of porosity and comprised of C, 0, K and Ca contents for high adsorption capacity. The improvement of IAQ in the buildings was achieved with the application of PSAC air filter which shows low concentration of CO2 with 302 ppm, CO with 0.4 ppm , TVOC with 0.1 ppm and PM 10 with 0.02mg/m3 respectively compare to the commercial filter.
format Thesis
author Zakaria@Jawahir, Supa'at
author_facet Zakaria@Jawahir, Supa'at
author_sort Zakaria@Jawahir, Supa'at
title Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
title_short Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
title_full Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
title_fullStr Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
title_full_unstemmed Application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
title_sort application of palm shell activated carbon filter as a medium of indoor air contaminant adsorbent for indoor air quality improvement
publishDate 2018
url http://eprints.uthm.edu.my/7565/2/24p%20SUPA_AT%20ZAKARIA%20%40%20JAWAHIR.pdf
http://eprints.uthm.edu.my/7565/1/SUPA_AT%20ZAKARIA%20%40%20JAWAHIR%20COPYRIGHT%20DECLARATION.pdf
http://eprints.uthm.edu.my/7565/3/SUPA_AT%20ZAKARIA%20%40%20JAWAHIR%20WATERMARK.pdf
http://eprints.uthm.edu.my/7565/
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score 13.214268