Composting of tobacco plant waste by manual turning and forced aeration system

The efficiency of tobacco plant waste composting, by the manual turning and the forced aeration system, was compared. Tobacco plant waste, cow manure, urea fertiliser, and a compost inoculum mixture at a 100:10:0.2:0.01 ratio respectively, with 60% (w/v) moisture content, were set up in piling forms...

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Main Authors: Nonglak Saithep, Srisulak Dheeranupatana, Panalak Sumrit, Somsak Jeerat, Sukanya Boonchalearmkit, Janewit Wongsanoon, Chaiwat Jatisatienr
Format: Journal
Published: 2018
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/49482
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-494822018-08-16T02:19:19Z Composting of tobacco plant waste by manual turning and forced aeration system Nonglak Saithep Srisulak Dheeranupatana Panalak Sumrit Somsak Jeerat Sukanya Boonchalearmkit Janewit Wongsanoon Chaiwat Jatisatienr Multidisciplinary The efficiency of tobacco plant waste composting, by the manual turning and the forced aeration system, was compared. Tobacco plant waste, cow manure, urea fertiliser, and a compost inoculum mixture at a 100:10:0.2:0.01 ratio respectively, with 60% (w/v) moisture content, were set up in piling forms. The piles of the manual turning system were provided with turning aeration by hand at intervals of 7 days during the composting process. For the forced aeration system, each pile was aerated by a 3-HP air pump with a flow rate of 19 litres min-1for 15 minutes every morning and evening. The completely randomised design of turned and force-aerated piles was performed in triplicate. The composting activity of both systems during the composting period was measured by several parameters: temperature, pH, moisture content, C/N ratio, growth of microorganisms, cellulase activity, and nicotine degradation in the set-up piles. Both systems had similar temperature, pH, and moisture content conditions in the piles during the composting process. However, the forced aeration system was more advantageous for the growth of mesophilic and thermophilic microorganisms, for cellulase activity from cellulase-producing microorganisms, and for nicotine degradation, when compared to the manual turning system. In conclusion, the forced aeration system was more efficient than the manual turning system in composting and is a viable alternative method for the composting process. © 2009 by Maejo University. 2018-08-16T02:19:19Z 2018-08-16T02:19:19Z 2009-12-01 Journal 19057873 2-s2.0-80555129992 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=80555129992&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/49482
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Multidisciplinary
spellingShingle Multidisciplinary
Nonglak Saithep
Srisulak Dheeranupatana
Panalak Sumrit
Somsak Jeerat
Sukanya Boonchalearmkit
Janewit Wongsanoon
Chaiwat Jatisatienr
Composting of tobacco plant waste by manual turning and forced aeration system
description The efficiency of tobacco plant waste composting, by the manual turning and the forced aeration system, was compared. Tobacco plant waste, cow manure, urea fertiliser, and a compost inoculum mixture at a 100:10:0.2:0.01 ratio respectively, with 60% (w/v) moisture content, were set up in piling forms. The piles of the manual turning system were provided with turning aeration by hand at intervals of 7 days during the composting process. For the forced aeration system, each pile was aerated by a 3-HP air pump with a flow rate of 19 litres min-1for 15 minutes every morning and evening. The completely randomised design of turned and force-aerated piles was performed in triplicate. The composting activity of both systems during the composting period was measured by several parameters: temperature, pH, moisture content, C/N ratio, growth of microorganisms, cellulase activity, and nicotine degradation in the set-up piles. Both systems had similar temperature, pH, and moisture content conditions in the piles during the composting process. However, the forced aeration system was more advantageous for the growth of mesophilic and thermophilic microorganisms, for cellulase activity from cellulase-producing microorganisms, and for nicotine degradation, when compared to the manual turning system. In conclusion, the forced aeration system was more efficient than the manual turning system in composting and is a viable alternative method for the composting process. © 2009 by Maejo University.
format Journal
author Nonglak Saithep
Srisulak Dheeranupatana
Panalak Sumrit
Somsak Jeerat
Sukanya Boonchalearmkit
Janewit Wongsanoon
Chaiwat Jatisatienr
author_facet Nonglak Saithep
Srisulak Dheeranupatana
Panalak Sumrit
Somsak Jeerat
Sukanya Boonchalearmkit
Janewit Wongsanoon
Chaiwat Jatisatienr
author_sort Nonglak Saithep
title Composting of tobacco plant waste by manual turning and forced aeration system
title_short Composting of tobacco plant waste by manual turning and forced aeration system
title_full Composting of tobacco plant waste by manual turning and forced aeration system
title_fullStr Composting of tobacco plant waste by manual turning and forced aeration system
title_full_unstemmed Composting of tobacco plant waste by manual turning and forced aeration system
title_sort composting of tobacco plant waste by manual turning and forced aeration system
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=80555129992&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/49482
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