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Chart Chiemchaisri
Researcher at Kasetsart University
Publications - 160
Citations - 3783
Chart Chiemchaisri is an academic researcher from Kasetsart University. The author has contributed to research in topics: Leachate & Membrane bioreactor. The author has an hindex of 32, co-authored 142 publications receiving 3071 citations. Previous affiliations of Chart Chiemchaisri include University of Tokyo & Kumoh National Institute of Technology.
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Journal ArticleDOI
Greenhouse gas emission in constructed wetlands for wastewater treatment: A review
Ülo Mander,Gabriela Dotro,Yoshitaka Ebie,Sirintornthep Towprayoon,Chart Chiemchaisri,Sandra Furlan Nogueira,Baasansuren Jamsranjav,Kuno Kasak,Jaak Truu,Julien Tournebize,William J. Mitsch +10 more
TL;DR: A literature analysis of 158 papers published in international peer-reviewed journals indexed by the Thomson Reuters Web of Knowledge from 1994 to 2013 showed that CO2 C emission was significantly lower in free water surface (FWS) constructed wetlands (CWs) than in subsurface flow (SF) CWs as mentioned in this paper.
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Organic Stabilization and Nitrogen Removal in Membrane Separation Bioreactor for Domestic Wastewater Treatment
TL;DR: In this article, a household type hollow fiber membrane separation bioreactor of 6 2 1 volume was used to achieve organic stabilization and nitrogen removal in a sludge aeration tank.
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Phytoremediation and rehabilitation of municipal solid waste landfills and dumpsites: A brief review
TL;DR: This review is an attempt to understand the dynamics and dimensions of landfill and dumpsite rehabilitation in many developed and developing countries.
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Household Membrane Bioreactor in Domestic Wastewater Treatment
TL;DR: In this article, the activated sludge process coupled with hollow fiber membrane for solid-liquid separation was applied to treat low strength domestic wastewater, and good stability of the process was achieved which was shown by the consistency in treated water quality.
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Municipal solid waste management in Thailand and disposal emission inventory.
TL;DR: The methane emission forecast of 339 Gg/year by 2020 (based on LandGEM methodology) provides a stimulus to create a comprehensive plan to capture and utilize methane as an energy source.