|
Title |
Associate Professor |
|
Laboratory Address |
Laboratory of Rural Environmental Engineering (http://nodaiweb.university.jp/ree/) |
|
Contact information |
|
|
External Link |
|
|
|
TOUCH Narong Associate Professor |
From School 【 display / non-display 】
-
Hiroshima University Faculty of Engineering Graduated
2006.04 - 2008.03
Country:Japan
-
Institute of Technology of Cambodia Faculty of Engineering Civil Engineering Graduated
1999.11 - 2002.08
Country:Cambodia
From Graduate School 【 display / non-display 】
-
Hiroshima University Graduate School, Division of Engineering Doctor Course Completed
2010.04 - 2013.03
-
Hiroshima University Graduate School, Division of Engineering Master Course Completed
2008.04 - 2010.03
Country:Japan
Degree 【 display / non-display 】
-
Doctor (Engineering) ( 2013.03 Hiroshima University )
-
Master (Engineering) ( 2010.03 Hiroshima University )
Employment Record in Research 【 display / non-display 】
-
Tokyo University of Agriculture Faculty of Regional Environment Science Department of Bioproduction and Environment Engineering Associate Professor
2021.04
-
Tokyo University of Agriculture Faculty of Regional Environment Science Department of Bioproduction and Environment Engineering Assistant Professor
2018.10 - 2021.03
External Career 【 display / non-display 】
-
Hiroshima University Graduate School of Engineering Assistant Professor
2013.04 - 2018.09
Country:Japan
-
Japan Society for the Promotion of Science Researcher
2010.04 - 2013.03
Country:Japan
Professional Memberships 【 display / non-display 】
-
The Japanese Society of Irrigation, Drainage and Rural Engineering
2019.04
-
Japan Society of Material Recycles and Waste Management
2017.04
-
Japan Society of Civil Enginneers
2008.04
Research Areas 【 display / non-display 】
-
Social Infrastructure (Civil Engineering, Architecture, Disaster Prevention) / Hydroengineering
-
Environmental Science/Agriculture Science / Environmental load and risk assessment
-
Environmental Science/Agriculture Science / Social-ecological systems
-
Environmental Science/Agriculture Science / Environmental materials and recycle technology
-
Social Infrastructure (Civil Engineering, Architecture, Disaster Prevention) / Environmental systems for civil engineering
Research Interests 【 display / non-display 】
-
soil and water environments
-
wastewater treatment
-
renewable energy
-
waste recycle
-
Littoral region-ecosystem restoration
Papers 【 display / non-display 】
-
Movement and retention behaviors of sediment in sand beds
TOUCH NARONG
博士論文 2013.03
Authorship:Lead author Language:English Publishing type:Doctoral thesis
地盤内での物質輸送は土壌環境や地下水質等の分野で必要とされ,本論文では砂地盤内での汚泥粒子の輸送機構を明らかにするとともに,汚泥粒子の残留量を推定するモデルおよび測定方法,残留に伴う地盤の透水性低下量を推定するモデル等について示した.
-
An experimental study on organic fine particles movement inside sand layer
TOUCH NARONG
修士論文 2010.03
Authorship:Lead author Language:English Publishing type:Master’s thesis
本論文では,生態環境が悪化した干潟の再生や豊かな生態環境を有する人工干潟の造成を行うために,砂層内での有機微細粒子(有機物が付着した土粒子)の移動に関する輸送機構,測定方法,および推定モデルについて示した.
-
Introduction: Sustainability as an agroecological strategy toward resilience in agricultural systems Reviewed
Gheorghe Cristian Popescu, Monica Popescu, Silvia Pampana, Moniruzzaman Khondker, Mikihisa Umehara, Hisayoshi Hayashi, Narong Touch
Agronomy Journal 115 ( 6 ) 2657 - 2664 2023.12
Authorship:Last author Language:English Publishing type:Research paper (scientific journal)
本論文では森林,作物,農業システム,動物生産に関連する特定の問題を特製し,最新の農業ツール,天然資源の効率的な使用,およびスマートデバイス技術を適用することで改善され,回復力を高めることができることが示唆された.
DOI: 10.1002/agj2.21483
-
Proposal of the structure of anode chamber of sleelmaking slag and food waste-used sediment microbial fuel cell Reviewed
SHIGETOMI Kota, TOUCH NARONG, NAKAMURA Takahiko, XIAO XIAO
Proceedings of the Annual Conference of Japan Society of Material Cycles and Waste Management 34 ( 0 ) 301 - 302 2023.09
Authorship:Corresponding author Language:Japanese Publishing type:Research paper (conference, symposium, etc.) Publisher:Japan Society of Material Cycles and Waste Management
<p>To date, we have focused on the utilization food waste that has low recycle rate, namely the use of food waste as fuel for steelmaking slag-used sediment microbial fuel cells (SS-SMFC). In this study, we aimed to propose the structure of anode chamber of SS-SMFC using food waste, which can produce high performance of electricity power generation. Based on the experimental results, the anode structure of SS-SMFC using food waste was established for practical use. However, the water quality of the cathode chamber deteriorated with time passing, and the power generation performance decreased after 6 days in the case of our experimental scale. In the future, it is necessary to consider the structure of the cathode chamber that can maintain the power generation or a method that can prevent the deterioration of the water quality.</p>
-
Increasing Productivity with solar cell-powered electrokinetic treatment Reviewed
TOUCH NARONG, Ogawa Kohei, Nakamura Takahiko
Proceedings of the Annual Conference of Japan Society of Material Cycles and Waste Management 34 ( 0 ) 235 - 236 2023.09
Authorship:Lead author Language:Japanese Publishing type:Research paper (conference, symposium, etc.) Publisher:Japan Society of Material Cycles and Waste Management
<p>In this study, an electrokinetic method using a 6 V solar cell was applied to saturated black soil mixed with cow manure compost (compost-mixing ratio was 47%), and a cultivation test of Japanese mustard spinach was conducted to confirm changes in productivity due to the application. As a result, the effect of oxidation reaction at the anode on the plant growth was extremely low. On the other hand, it was found out that the reduction reaction at the cathode significantly affected the plant growth. Specifically, the productivity in the soil within 40 cm from the anode was increased. In addition, the productivity in the soil around 20 cm from the cathode was affected by the reduction reaction. In the future, it is necessary to verify the effect of this technology under field conditions (drainage irrigation).</p>
Books and Other Publications 【 display / non-display 】
-
応用細胞資源利用学ー細胞機能によるエネルギー生産と利用ー
日比野 忠史,TOUCH NARONG( Role: Joint author , 第5章 ヘドロを浄化する微生物燃料電池‐開発と実用‐ )
太陽書房 2020.01
Responsible for pages:53-89 Language:Japanese Book type:Scholarly book
本書では微生物燃料電池の発電機構を取りまとめるとともに,沿岸域堆積物の浄化を対象とした高性能の微生物物燃料電池の開発について総説した.また,現地での実証実験により,開発した技術の実用性を示した.
-
微生物燃料電池による廃水処理システム最前線
日比野忠史, トウ ナロン( Role: Joint author)
NTS出版社 2013.10
Language:Japanese Book type:Scholarly book
有機物分解に伴う有機泥の有機性状変化および有機泥の有機性状を特定する手法が示されて いる.さらに,有機泥を燃料とした微生物燃料電池の性能評価方法,微生物燃料電池による ヘドロ浄化,およびヘドロ浄化システムの 将来性が記載されている.
Industrial Property Rights 【 display / non-display 】
-
土壌における不可給態リン酸を可給態リン酸に変換するシステムとその利用
トウ ナロン
Announcement no:特開2023-154919(P2023-154919A) Date announced:2023.10
Country of applicant:Domestic Country of acquisition:Domestic
Other research activities 【 display / non-display 】
-
International Journal of Environmental and Rural Development
2020.11
Reviewer
-
International Society of Environmental and Rural Development
2020.01
Managing Editor
-
International Journal of Hydrogen Energy
2019.07
Reviewer
-
Environmental Technology & Inovation
2018.10
Reviewer
-
International Conference on Agricultural and Biological Sciences
2018.10
Technical Program Committee
Honours, Awards and Prizes 【 display / non-display 】
-
Award of Excellent Paper
2024.03 International Society of Environmental and Rural Development
Award type:International academic award (Japan or overseas) Country:Japan
-
Award of Excellent Poster Presentation
2023.03 International Society of Environmental and Rural Development
Award type:International academic award (Japan or overseas) Country:Japan
-
Award of Excellent Poster
2021.03 International Society of Environmental and Rural Development
Award type:International academic award (Japan or overseas) Country:Japan
-
Award of Excellent Paper
2020.02 International Society of Environmental and Rural Development
Award type:International academic award (Japan or overseas) Country:Japan
-
Award of Excellent Paper
2019.02 International Society of Environmental and Rural Development
Award type:International academic award (Japan or overseas) Country:Japan
Scientific Research Funds Acquisition Results 【 display / non-display 】
-
食品系廃棄物を燃料とした実用型微生物燃料電池の開発
2023.04 - 2026.03
科学研究費補助金 基盤研究(C)
Authorship:Principal investigator
-
底泥有機物の電気化学特性の測定法、解析法の確立と底泥の燃料としての活用
2021.04 - 2024.03
科学研究費補助金 基盤研究(B)
日比野 忠史
Authorship:Coinvestigator(s)
-
Establishment of electrochemical method for recycling sediment
2016.04 - 2018.03
Grant-in-Aid for Scientific Research Young Person Research (B)
TOUCH NARONG
Authorship:Principal investigator
-
堆積有機物を燃料として発電するヘドロ燃料電池の汎用化技術の開発
2016.04 - 2019.03
科学研究費補助金 基盤研究(B)
日比野 忠史
Authorship:Coinvestigator(s)
-
微生物活性によって堆積汚泥を資源化する乳酸菌入灰分造粒物の開発
2016.04 - 2018.03
科学研究費補助金 挑戦的萌芽研究
日比野 忠史
Authorship:Coinvestigator(s)
Presentations 【 display / non-display 】
-
Enhancing Plant Growth using a 6 V Solar Cell–Powered Electrokinetic Treatment International conference
Narong TOUCH
The 15th International Conference on Environmental and Rural Development 2024.03
Event date: 2024.03
Language:English Presentation type:Oral presentation (general)
-
太陽電池を用いた動電学的 手法による作物生産性向上の検討
TOUCH NARONG
第34回廃棄物資源循環学会研究発表会 2023.09
Event date: 2023.09
Language:Japanese Presentation type:Oral presentation (general)
-
Reuse of Unavailable Phosphate in Soils Using Solar Cell-Powered Electrokinetic Treatment International conference
Narong TOUCH
The 14th International Conference on Environmental and Rural Development 2023.03
Event date: 2023.03
Language:English Presentation type:Oral presentation (general)
-
太陽電池を用いた土壌内のリン酸生成システムの提案
TOUCH NARONG
第33回廃棄物資源循環学会研究発表会 2022.09
Event date: 2022.09
Language:Japanese Presentation type:Oral presentation (general)
-
Benefits of applying microbial fuel cell technology in organic farming for sustainable agriculture International conference
Narong TOUCH
The 13rd International Conference on Environmental and Rural Development 2022.03
Event date: 2022.03
Language:English Presentation type:Oral presentation (general)
Attractiveness of Research 【 display / non-display 】
-
Researches related to the advanced use of microbial fuel cell technology are conducting to find countermeasures for solving global energy, resource, and environment issues.