Updated on 2024/12/04

写真a

 
EGUSA Nobuyuki
 
Name of department
Faculty of Systems Engineering, Environmental Science
Job title
Professor
Mail Address
E-mail address
Homepage
External link

Education

  • 1993
    -
    1996

    九州大学大学院   工学研究科   水工土木学専攻 博士後期課程  

  • 1991
    -
    1993

    九州大学大学院   工学研究科   水工土木学専攻 修士課程  

  • 1987
    -
    1991

    Kyushu University   School of Engineering   水工土木学科  

Degree

  • Doctor of Engineering

Academic & Professional Experience

  • 2013.04
    -
    Now

    Wakayama University   Professor

  • 2007.04
    -
    2013.03

    Wakayama University

  • 2000.10
    -
    2007.03

    Wakayama University

  • 1999.04
    -
    2000.10

    Wakayama University

  • 1996.04
    -
    1999.04

    Wakayama University

Association Memberships

  • 地盤工学会

  • 日本水環境学会

  • IAHS

  • 日本地下水学会

  • 環境情報科学センター

  • 水文・水資源学会

  • 土木学会

▼display all

Research Areas

  • Social infrastructure (civil Engineering, architecture, disaster prevention) / Civil engineering (environmental systems)

  • Social infrastructure (civil Engineering, architecture, disaster prevention) / Geotechnical engineering

  • Social infrastructure (civil Engineering, architecture, disaster prevention) / Hydroengineering

Classes (including Experimental Classes, Seminars, Graduation Thesis Guidance, Graduation Research, and Topical Research)

  • 2023   Disaster Science   Liberal Arts and Sciences Subjects

  • 2023   Introduction to Latest Information Technology   Specialized Subjects

  • 2023   Seminar in Environmental Science   Specialized Subjects

  • 2023   Graduation Research   Specialized Subjects

  • 2023   Disaster Information Engineering   Specialized Subjects

  • 2023   Soil and Water Environmental EngineeringB   Specialized Subjects

  • 2023   Hydraulics   Specialized Subjects

  • 2023   Geotechnical Engineering   Specialized Subjects

  • 2022   Introduction to Majors 1   Specialized Subjects

  • 2022   Disaster Science   Liberal Arts and Sciences Subjects

  • 2022   Geotechnical Engineering   Specialized Subjects

  • 2022   Graduation Research   Specialized Subjects

  • 2022   Soil and Water Environmental EngineeringB   Specialized Subjects

  • 2022   Disaster Information Engineering   Specialized Subjects

  • 2022   Seminar in Environmental Science   Specialized Subjects

  • 2022   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2021   Geotechnical Engineering   Specialized Subjects

  • 2021   Disaster Prevention Engineering   Specialized Subjects

  • 2021   Seminar in Environmental Science   Specialized Subjects

  • 2021   Soil and Water Environmental Engineering   Specialized Subjects

  • 2021   Graduation Research   Specialized Subjects

  • 2021   Hydraulics   Specialized Subjects

  • 2021   Disaster Information Engineering   Specialized Subjects

  • 2021   Mathematical Analysis for Environmental Science B   Specialized Subjects

  • 2021   Disaster Science   Liberal Arts and Sciences Subjects

  • 2021   Introduction to Majors 1   Specialized Subjects

  • 2020   Introduction to Majors 1   Specialized Subjects

  • 2020   Graduation Research   Specialized Subjects

  • 2020   Disaster Information Engineering   Specialized Subjects

  • 2020   Seminar in Environmental Science   Specialized Subjects

  • 2020   Hydraulics   Specialized Subjects

  • 2020   Soil and Water Environmental Engineering   Specialized Subjects

  • 2020   Mathematical Analysis for Environmental Science B   Specialized Subjects

  • 2020   Disaster Prevention Engineering   Specialized Subjects

  • 2020   Geotechnical Engineering   Specialized Subjects

  • 2020   Disaster Science   Liberal Arts and Sciences Subjects

  • 2019   Introduction to Majors 1   Specialized Subjects

  • 2019   Introduction to Majors 1   Specialized Subjects

  • 2019   Graduation Research   Specialized Subjects

  • 2019   Disaster Information Engineering   Specialized Subjects

  • 2019   Seminar in Environmental Science   Specialized Subjects

  • 2019   Hydraulics   Specialized Subjects

  • 2019   Soil and Water Environmental Engineering   Specialized Subjects

  • 2019   Mathematical Analysis for Environmental Science B   Specialized Subjects

  • 2019   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2019   Risk Management   Specialized Subjects

  • 2019   Disaster Prevention Engineering   Specialized Subjects

  • 2019   Geotechnical Engineering   Specialized Subjects

  • 2018   Graduation Research   Specialized Subjects

  • 2018   Mathematical Analysis for Environmental Science B   Specialized Subjects

  • 2018   Introduction to Majors 1   Specialized Subjects

  • 2018   Seminar in Environmental Science   Specialized Subjects

  • 2018   Hydraulics   Specialized Subjects

  • 2018   Soil and Water Environmental Engineering   Specialized Subjects

  • 2018   Introduction to Majors 1   Specialized Subjects

  • 2018   Risk Management   Specialized Subjects

  • 2018   Disaster Prevention Engineering   Specialized Subjects

  • 2018   Geotechnical Engineering   Specialized Subjects

  • 2017   Graduation Research   Specialized Subjects

  • 2017   Hydraulics   Specialized Subjects

  • 2017   Soil and Water Environmental Engineering   Specialized Subjects

  • 2017   Mathematical Analysis for Environmental Science B   Specialized Subjects

  • 2017   Introduction to Majors 1   Specialized Subjects

  • 2017   Introduction to Majors 1   Specialized Subjects

  • 2017   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2017   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2017   Risk Management   Specialized Subjects

  • 2017   Disaster Prevention Engineering   Specialized Subjects

  • 2017   Geotechnical Engineering   Specialized Subjects

  • 2016   NA   Specialized Subjects

  • 2016   Disaster Prevention Engineering   Specialized Subjects

  • 2016   Introduction to Majors 1   Specialized Subjects

  • 2016   Introduction to Majors 1   Specialized Subjects

  • 2016   Graduation Research   Specialized Subjects

  • 2016   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2016   Environmental Hydraulics   Specialized Subjects

  • 2016   Geotechnical Engineering   Specialized Subjects

  • 2016   Risk Management   Specialized Subjects

  • 2016   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2016   Water Environmental Science   Specialized Subjects

  • 2015   Graduation Research   Specialized Subjects

  • 2015   Water Environmental Science   Specialized Subjects

  • 2015   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2015   Introduction to Majors 1   Specialized Subjects

  • 2015   Introduction to Majors 1   Specialized Subjects

  • 2015   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2015   Geotechnical Engineering   Specialized Subjects

  • 2015   Natural disaster and disaster management   Liberal Arts and Sciences Subjects

  • 2015   Environmental Hydraulics   Specialized Subjects

  • 2015   Seminar in Environmental Information Processing   Specialized Subjects

  • 2015   Seminar in Environmental Information Processing   Specialized Subjects

  • 2015   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2014   Graduation Research   Specialized Subjects

  • 2014   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2014   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2014   Risk Management   Specialized Subjects

  • 2014   Basic Mathematics 1   Specialized Subjects

  • 2014   Seminar in Environmental Information Processing   Specialized Subjects

  • 2014   Seminar in Environmental Information Processing   Specialized Subjects

  • 2014   Water Environmental Science   Specialized Subjects

  • 2014   Geotechnical Engineering   Specialized Subjects

  • 2014   Environmental Hydraulics   Specialized Subjects

  • 2013   Graduation Research   Specialized Subjects

  • 2013   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2013   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2013   Environmental Hydraulics   Specialized Subjects

  • 2013   Introductory Seminar   Liberal Arts and Sciences Subjects

  • 2013   Water Environmental Science   Specialized Subjects

  • 2013   Basic Mathematics 1   Specialized Subjects

  • 2013   Risk Management   Specialized Subjects

  • 2013   Seminar in Environmental Information Processing   Specialized Subjects

  • 2013   Seminar in Environmental Information Processing   Specialized Subjects

  • 2013   Geotechnical Engineering   Specialized Subjects

  • 2012   Graduation Research   Specialized Subjects

  • 2012   Water Environmental Science   Specialized Subjects

  • 2012   Basic Mathematics 1   Specialized Subjects

  • 2012   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2012   Geotechnical Engineering   Specialized Subjects

  • 2012   Environmental Hydraulics   Specialized Subjects

  • 2012   Seminar in Environmental Information Processing   Specialized Subjects

  • 2012   Seminar in Environmental Information Processing   Specialized Subjects

  • 2012   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2012   Risk Management   Specialized Subjects

  • 2011   Graduation Research   Specialized Subjects

  • 2011   Seminar in Environmental Information Processing   Specialized Subjects

  • 2011   Seminar in Environmental Information Processing   Specialized Subjects

  • 2011   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2011   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2011   Group seminar for graduation works   Specialized Subjects

  • 2011   Risk Management   Specialized Subjects

  • 2011   Basic Mathematics 1   Specialized Subjects

  • 2011   Water Environmental Science   Specialized Subjects

  • 2011   Geotechnical Engineering   Specialized Subjects

  • 2010   Graduation Research   Specialized Subjects

  • 2010   Water Environmental Science   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   Geotechnical Engineering   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   Group seminar for graduation works   Specialized Subjects

  • 2010   Risk Management   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2009   Graduation Research   Specialized Subjects

  • 2009   Group seminar for graduation works   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   Environmental and Disaster-preventing Risk Management   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   Geotechnical Engineering   Specialized Subjects

  • 2009   Seminar in Environmental Information Processing   Specialized Subjects

  • 2009   Seminar in Environmental Information Processing   Specialized Subjects

  • 2009   Water Environmental Science   Specialized Subjects

  • 2009   Environmental Hydraulics   Specialized Subjects

  • 2008   Group seminar for graduation works   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   Environmental and Disaster-preventing Risk Management   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   Geotechnical Engineering   Specialized Subjects

  • 2008   Seminar in Environmental Information Processing   Specialized Subjects

  • 2008   Seminar in Environmental Information Processing   Specialized Subjects

  • 2008   Water Environmental Science   Specialized Subjects

  • 2008   Environmental Hydraulics   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2007   Group seminar for graduation works   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   Environmental and Disaster-preventing Risk Management   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   Geotechnical Engineering   Specialized Subjects

  • 2007   Seminar in Environmental Information Processing   Specialized Subjects

  • 2007   Seminar in Environmental Information Processing   Specialized Subjects

  • 2007   Water Environmental Science   Specialized Subjects

  • 2007   Environmental Hydraulics   Specialized Subjects

  • 2007   Environmental Modelling   Specialized Subjects

  • 2007   NA   Specialized Subjects

▼display all

Satellite Courses

  • 2021   Kumano hometown study 2D   Cooperative Development Subjects

  • 2017   Kumano hometown study A   Liberal Arts and Sciences Subjects

  • 2014   Safety Science of life and CommunityB   Liberal Arts and Sciences Subjects

Independent study

  • 2016   和歌山県内で近年発生した台風による土砂災害の評価

  • 2015   和歌山県伊都郡かつらぎ町を対象とした土砂災害の実態と分析

  • 2010   水の硬度が料理に与える影響評価

Classes

  • 2023   Systems Engineering Project SeminarⅡB   Master's Course

  • 2023   Systems Engineering Project SeminarⅡA   Master's Course

  • 2023   Systems Engineering Project SeminarⅠB   Master's Course

  • 2023   Systems Engineering Project SeminarⅠA   Master's Course

  • 2023   Environmental Dynanic Analysis   Master's Course

  • 2023   Systems Engineering SeminarⅡB   Master's Course

  • 2023   Systems Engineering SeminarⅡA   Master's Course

  • 2023   Systems Engineering SeminarⅠB   Master's Course

  • 2023   Systems Engineering SeminarⅠA   Master's Course

  • 2022   Systems Engineering Project SeminarⅠB   Master's Course

  • 2022   Systems Engineering Project SeminarⅠA   Master's Course

  • 2022   Environmental Dynanic Analysis   Master's Course

  • 2022   Systems Engineering SeminarⅡB   Master's Course

  • 2022   Systems Engineering SeminarⅡA   Master's Course

  • 2022   Systems Engineering SeminarⅠB   Master's Course

  • 2022   Systems Engineering SeminarⅠA   Master's Course

  • 2021   Environmental Dynanic Analysis   Master's Course

  • 2021   Systems Engineering SeminarⅡB   Master's Course

  • 2021   Systems Engineering SeminarⅡA   Master's Course

  • 2021   Systems Engineering SeminarⅠB   Master's Course

  • 2021   Systems Engineering SeminarⅠA   Master's Course

  • 2020   Systems Engineering Project SeminarⅡB   Master's Course

  • 2020   Systems Engineering Project SeminarⅡA   Master's Course

  • 2020   Environmental Dynanic Analysis   Master's Course

  • 2020   Systems Engineering SeminarⅡB   Master's Course

  • 2020   Systems Engineering SeminarⅡA   Master's Course

  • 2020   Systems Engineering SeminarⅠB   Master's Course

  • 2020   Systems Engineering SeminarⅠA   Master's Course

  • 2019   Environmental Dynanic Analysis   Master's Course

  • 2019   Systems Engineering SeminarⅡB   Master's Course

  • 2019   Systems Engineering SeminarⅡA   Master's Course

  • 2019   Systems Engineering SeminarⅠB   Master's Course

  • 2019   Systems Engineering SeminarⅠA   Master's Course

  • 2019   Systems Engineering Project SeminarⅠB   Master's Course

  • 2019   Systems Engineering Project SeminarⅠA   Master's Course

  • 2018   Systems Engineering Project SeminarⅠB   Master's Course

  • 2018   Systems Engineering Project SeminarⅠA   Master's Course

  • 2018   Systems Engineering SeminarⅡB   Master's Course

  • 2018   Systems Engineering SeminarⅡA   Master's Course

  • 2018   Systems Engineering SeminarⅠB   Master's Course

  • 2018   Systems Engineering SeminarⅠA   Master's Course

  • 2018   Environmental Dynanic Analysis   Master's Course

  • 2017   Systems Engineering Advanced Research   Doctoral Course

  • 2017   Systems Engineering Advanced Research   Doctoral Course

  • 2017   Systems Engineering Project SeminarⅡB   Master's Course

  • 2017   Systems Engineering Project SeminarⅡA   Master's Course

  • 2017   Systems Engineering Project SeminarⅠB   Master's Course

  • 2017   Systems Engineering Project SeminarⅠA   Master's Course

  • 2017   Environmental Dynanic Analysis   Master's Course

  • 2017   Systems Engineering SeminarⅡB   Master's Course

  • 2017   Systems Engineering SeminarⅡA   Master's Course

  • 2017   Systems Engineering SeminarⅠB   Master's Course

  • 2017   Systems Engineering SeminarⅠA   Master's Course

  • 2016   Systems Engineering Advanced Research  

  • 2016   Systems Engineering Advanced Seminar Ⅱ  

  • 2016   Systems Engineering Advanced Seminar Ⅱ  

  • 2016   Systems Engineering Advanced Research  

  • 2016   NA  

  • 2016   NA  

  • 2016   NA  

  • 2016   Systems Engineering SeminarⅠB  

  • 2016   Systems Engineering SeminarⅡA  

  • 2016   Systems Engineering SeminarⅠA  

  • 2016   Environmental Dynanic Analysis  

  • 2015   NA  

  • 2015   Land Water Environment Engineering  

  • 2015   Systems Engineering Advanced Seminar Ⅰ  

  • 2015   Systems Engineering Advanced Research  

  • 2015   Systems Engineering SeminarⅡA  

  • 2015   Systems Engineering SeminarⅠA  

  • 2015   Systems Engineering Project SeminarⅡA  

  • 2015   Systems Engineering Advanced Seminar Ⅰ  

  • 2015   Systems Engineering Advanced Research  

  • 2015   Systems Engineering SeminarⅠB  

  • 2015   Systems Engineering Project SeminarⅡB  

  • 2014   Systems Engineering Advanced Research  

  • 2014   NA  

  • 2014   NA  

  • 2014   Land Water Environment Engineering  

  • 2014   NA  

  • 2014   NA  

  • 2013   Systems Engineering Advanced Research  

  • 2013   Systems Engineering Advanced Seminar Ⅱ  

  • 2013   Systems Engineering Advanced Seminar Ⅰ  

  • 2013   NA  

  • 2013   Land Water Environment Engineering  

  • 2013   NA  

  • 2013   NA  

  • 2012   NA  

  • 2012   NA  

  • 2012   NA  

  • 2012   NA  

  • 2012   Land Water Environment Engineering  

  • 2011   NA  

  • 2011   NA  

  • 2011   NA  

  • 2011   NA  

  • 2011   Land Water Environment Engineering  

  • 2010   Systems Engineering Advanced Research   Doctoral Course

  • 2010   Land Water Environment Engineering   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2009   Systems Engineering Advanced Research   Doctoral Course

  • 2009   NA   Doctoral Course

  • 2009   Land Water Environment Engineering   Master's Course

  • 2009   NA   Master's Course

  • 2009   NA   Master's Course

  • 2009   NA   Master's Course

  • 2009   NA   Master's Course

  • 2008   NA   Doctoral Course

  • 2008   Systems Engineering Advanced Research   Doctoral Course

  • 2008   Land Water Environment Engineering   Master's Course

  • 2008   NA   Master's Course

  • 2008   NA   Master's Course

  • 2008   NA   Master's Course

  • 2008   NA   Master's Course

  • 2007   Land Water Environment Engineering   Master's Course

  • 2007   NA   Master's Course

  • 2007   NA   Master's Course

  • 2007   NA   Master's Course

  • 2007   NA   Master's Course

▼display all

Satellite Courses

  • 2017   The disaster and environment in Kii Peninsula  

  • 2011   Kii Peninsula Study Ⅰ  

Research Interests

  • Basin Water Environment

  • Soil and Groundwater Contamination

  • Geohazard

Published Papers

  • A Transfer Learning Approach Based on Radar Rainfall for River Water-Level Prediction

    Futo Ueda, Hiroto Tanouchi, Nobuyuki Egusa, Takuya Yoshihiro

    Water   16 ( 4 ) 607   2024.02  [Refereed]

    DOI

  • 原位置不溶化処理地盤における汚染物質の挙動評価

    日野良太, 三浦俊彦, 福武健一, 西田憲司, 森下智貴, 日笠山徹巳, 江種伸之 (Part: Last author )

    地盤工学会誌   71 ( 9 ) 35 - 40   2023.09  [Refereed]

  • 移流分散方程式で用いられる遅延係数について

    江種伸之 (Part: Lead author, Corresponding author )

    地下水学会誌   64 ( 3 ) 215 - 223   2022.08  [Refereed]

  • A Numerical Simularion of Disaster Waste Disposal in Wakayama City by Using DHT Model

    Soichiro Asai, Tatsuya Akiyama, Hiroto Ttanouchi, Nobuyuki Egusa (Part: Last author )

    International Journal of GEOMATE ( International Journal of Geomate )  20 ( 80 ) 23 - 28   2021.04  [Refereed]

    DOI

  • A Retardation Factor Considering Solute Transfer Between Mobile and Immobile Water in Porous Media

    Nobuyuki Egusa, Kei Nakagawa, Tatemasa Hirata (Part: Lead author, Corresponding author )

    Environmental Modeling & Assessment ( Springer Science and Business Media LLC )  26 ( 1 ) 103 - 112   2021.02  [Refereed]

    DOI

  • 水銀およびふっ素によって汚染された地盤の原位置不溶化処理に伴う長期安定性に関する評価

    日野良太, 三浦俊彦, 福武健一, 西田憲司, 森下智貴, 日笠山徹巳, 江種伸之 (Part: Last author )

    地盤工学ジャーナル   15 ( 3 ) 563 - 571   2020.09  [Refereed]

  • Quantitative Evaluation of Water Pollutant Load from Kinokawa River Basin by High-Frequency Water Quality Observation

    Hiroto Tanouchi, Akihisa Imoto, Kouichi Ishiura, Nobuyuki Egusa (Part: Last author )

    International Journal of GEOMATE ( GEOMATE INT SOC )  18 ( 66 ) 105 - 110   2020.02  [Refereed]

     View Summary

    In the Kinokawa river basin, as same as other watersheds around the world, excess runoff of nutrients to the ocean mainly due to human activities has become an environmental issue. This study conducted high-frequency total nitrogen (TN) and total phosphorus (TP) monitoring at several monitoring posts set downstream of the Kinokawa river in the Kii peninsula, Japan in order to evaluate water pollutant load from the basin quantitatively. The water sampling has been conducted about 90 times for over a year from May in 2018 at the monitoring posts. In the calm or the drought periods, TN and TP concentrations at Kinokawa river mouth were basically about 0.8 similar to 1.1 mg/L and under 0.05 mg/L, respectively. However, TN concentrations was exceeded 5.0 mg/L after one of the most intense storms, it was shown the TN concentration had a tendency extremely to rise rapidly in flooding condition. This tendency was similar in TP. The result of pollutant load analysis showed that 65% of the nitrogen load and 80 % of the phosphorus load from the basin was generated during a few and heavy flooding which were included in 5 % flow exceedance probability. These results imply it is essential that to understand and to predict how nutrients runoff in short-term during flooding events in order to accurately grasp long-term nutrient runoff amount.

    DOI

  • テトラクロロエチレン及びその分解性生物の分解速度定数が到達距離に与える影響の基礎的検討

    保高徹生, 江種伸之 (Part: Last author )

    第13回環境地盤工学シンポジウム発表論文集     143 - 147   2019.09  [Refereed]

  • 原位置不溶化処理に伴う地盤内汚染物質の長期安定性に関する定量的評価

    日野良太, 三浦俊彦, 福武健一, 森下智喜, 西田憲司, 日笠山徹巳, 江種伸之 (Part: Last author )

    第13回環境地盤工学シンポジウム発表論文集     253 - 258   2019.09  [Refereed]

  • DEVELOPMENT OF A DISASTER WASTE DISPOSAL PLANNING MODEL AIMING AT SUPPORTING OF APPROPRIATE DECISION OF DISASTER WASTE TREATMENT

    SAKAGUCHI Naoya, TANOUCHI Hiroto, EGUSA Nobuyuki, OTSUKA Yoshikazu

    Journal of Japan Society of Civil Engineers, Ser. G (Environmental Research) ( Japan Society of Civil Engineers )  74 ( 5 ) I_195 - I_202   2018.09  [Refereed]

     View Summary

     In order to support planning of disaster waste disposal, a numerical model simulating disaster waste transportation and disposal was developed. The proposed model tracks the movement of disaster waste between originating region, temporary storage areas and final disposal site. A crushing/classification process at temporary storage areas, Number of vehicle as a carrier, transit route, a capacity of temporary storage areas and final disposal site are freely settable in the model. The model was applied for a city in Mie prefecture aiming at evaluating of actual disaster waste disposal plan at the time of the occurrence of Nankai Trough earthquake. The result of simulation indicated that a number of crushing/classification equipment and workers were required in order to execute disaster waste disposal.

    DOI

  • 1953年の7.18水害を対象とした斜面崩壊の素因分析

    田内裕人, 藤田三四郎, 江種伸之 (Part: Last author, Corresponding author )

    第9回土砂災害に関するシンポジウム論文集     13 - 18   2018.09  [Refereed]

  • APPLICATION OF THE HYPE MODEL FOR KINOKAWA RIVER BASIN AIMING AT WATER AND NUTRIENT RUNOFF ANALYSIS

    TANOUCHI Hiroto, NAKAMURA Makoto, NAKAMURA Yuki, EGUSA Nobuyuki (Part: Last author )

    Journal of Japan Society of Civil Engineers, Ser. G (Environmental Research) ( Japan Society of Civil Engineers )  74 ( 5 ) I_223 - I_232   2018.09  [Refereed]

     View Summary

     HYPE(hydrological predictions for the environment) model was applied for Kinokawa river basin in order to evaluate an applicability of HYPE for Japanese watershed. Firstly, a fundamental HYPE in Kinokawa was constructed by using landuse, soil, topology information based on Swedish HYPE. Secondly, a calibration based on Markov Chain Monte Carlo method was performed in order to improve prediction accuracy of Kinokawa river flow rate. Then, point and non-point sources of nitrogen and phosphorus were implemented aming at runoff analysis. According to the comparison of simulated and observed nutrient load, it was shown that the accuracy of nutrient load predicted by HYPE was reasonable. In conclusion, it was suggested that HYPE was available for Japanese watershed aiming at water and nutrient runoff analysis.

    DOI

  • An Integrated Support System for Disaster Prevention Map-Making Using Town-Walk Information Gathering.

    Sojo Enokida, Takashi Yoshino, Taku Fukushima, Kenji Sugimoto, Nobuyuki Egusa (Part: Last author )

    Proceedings of 10th International Conference CollabTech 2018     19 - 34   2018.09  [Refereed]

    DOI

  • Proposal of an Integrated Support System for Disaster-preparedness Map Making Through Town-walk Type of Gathering Information

    榎田 宗丈, 福島 拓, 吉野 孝, 杉本 賢二, 江種 伸之 (Part: Last author )

    情報処理学会論文誌   59 ( 3 ) 992 - 1004   2018.03  [Refereed]

     View Summary

    Throughout Japan, disaster-preparedness maps have been made by the method of town-walk. This method improves disaster-preparedness and allows for a greater understanding of the area. The making of disaster-preparedness maps increases the disaster awareness of the participants. Further, the involvement improves participants' ability of self-help and increases cooperation in local communities. Currently, there is a system to support the making of conventional disaster-preparedness maps, but no support system for maps made using the town-walk method. Therefore, we have proposed and developed an integrated support system for the making of disaster-preparedness maps by gathering information from the town-walk. We conducted a comparison experiment between the proposed system and the conventional system (using paper maps). This experiment demonstrated that a consistent support function would be effective in developing disaster-preparedness maps using the town-walk method. We also confirmed that the proposed system influences the improvement of disaster-preparedness awareness, the understanding of the area, and the conventional system.

  • AN ANALYSIS OF LANDSLIDE DISASTER INCENTIVES OCCURRED IN TYPHOON NO.12 IN 2011 ON THE POINT OF VIEW FROM RAINFALL PATTERN AND SOIL WATER INDEX

    田内 裕人, 中村 誠, 江種 伸之, 平田 健正 (Part: Corresponding author )

    土木学会論文集B1(水工学) ( 土木学会 )  73 ( 4 ) I_243 - I_248   2018.03  [Refereed]

  • EFFECT OF IN-SITE BIOREMEDIATION IN AN AQUIFER CONTAMINATED BY A LARGE VARIETY OF VOLATILE ORGANIC COMPOUNDS

    福永 翔太, 田内 裕人, 江種 伸之, 平田 健正, 川本 克也 (Part: Corresponding author )

    土木学会論文集B1(水工学) ( 土木学会 )  73 ( 4 ) I_61 - I_66   2018.03  [Refereed]

  • EVALUATION OF LANDSLIDE DISASTER BY PSEUDO GLOBAL WARMING EXPERIMENT RAINFALL AND SOIL WATER INDEX ON SHINGU RIVER BASIN, WAKAYAMA WITH TYPHOON T1204

    西岡 誠悟, 小林 健一郎, 奥 勇一郎, 江種 伸之, 田内 裕人

    土木学会論文集B1(水工学) ( 土木学会 )  73 ( 4 ) I_87 - I_92   2018.03  [Refereed]

  • 平成23年台風12号に伴う那智大社裏山の崩壊・土石流の実態

    矢野晴彦, 辻野裕之, 谷垣勝久, 石田優子, 後誠介, 田内裕人, 本塚智貴, 江種伸之 (Part: Last author )

    Kansai Geo-Symposium 2017論文集     250 - 253   2017.11  [Refereed]

  • Restraint Effects of 2-MIB Concentration Increases Due to Total Phosphorus Management in the Upper Kinokawa Watershed

    R. Hino, N. Egusa, Y. Wada, M. Ishizuka, T. Hirata (Part: Corresponding author )

    International Journal of GEOMATE ( GEOMATE INT SOC )  13 ( 37 ) 141 - 148   2017.09  [Refereed]

     View Summary

    The off-flavor taste of tap water due to 2-methylisoborneol (2-MIB) is caused by blue-green algae. This is one of the water quality problems associated with high nutrient loads, such as those found in the Kinokawa River, with drains the southwestern part of the Kii peninsula in Japan. Water quality monitoring data showed that 2-MIB tended to increase when total phosphorus (TP) concentration exceeded 0.02 mg/L. This study employed mass load and river water quality analyses coupled with water runoff analyses to examine ways of mitigating TP load in river water. In this study, it was revealed following things. (1) TP mass load could be reduced by approximately half if the industrial drainage volume standards defined in the Water Pollution Control Law were more stringent. (2) TP concentration could be decreased by 41% in response to TP mass load reduction and by 5% in response to an increase in river flow rate. (3) TP mass load reduction combined with an increase in river flow rate could reduce TP concentration to less than 0.015 mg/L and prevent increases in 2-MIB in tap water.

    DOI

  • Availability of Disaster Preparedness Awareness Improvement for Supplying Knowledge Using Microblog and Comic Expression.

    Sojo Enokida, Taku Fukushima, Takashi Yoshino, Tomoki Motozuka, Nobuyuki Egusa (Part: Last author )

    Proceedings of 9th International Conference Collab Tech 2017     37 - 52   2017.08  [Refereed]

    DOI

  • 災害時支援システム“あかりマップ”の地域住民による防災マップ作成への適用

    吉野孝, 濵村朱里, 福島拓, 江種伸之 (Part: Last author )

    情報処理学会論文誌   58 ( 1 ) 1 - 10   2017.01  [Refereed]

  • Assessment of Off-Flavor Tap Water due to Nutrient and River Flow Management Practices In the Upper Kinokawa River Watershed

    R.Hino, N.Egusa, Y.Wada, M.Ishizuka, T.Hirata (Part: Corresponding author )

    Second International Conference on Science, Engineering and Environment (SEE)     897 - 902   2016.12  [Refereed]

  • 平成23年台風12号により和歌山県東牟婁地域で発生した土砂災害の地理的特徴

    中村誠, 田内裕人, 江種伸之, 石田優子, 後誠介 (Part: Corresponding author )

    Kansai Geo-Symposium 2016論文集     37 - 42   2016.11  [Refereed]

  • 実効雨量と土壌雨量指数から見た平成23年台風12号による土砂災害現場の水文地質特性

    田内裕人, 江種伸之, 平田健正 (Part: Corresponding author )

    第8回土砂災害に関するシンポジウム論文集     19 - 24   2016.09  [Refereed]

  • 日常利用可能なオフライン対応型災害時避難支援システム”あかりマップ”の実環境における利用可能性

    濵村朱里, 福島拓, 吉野孝, 江種伸之 (Part: Last author )

    情報処理学会論文誌   57 ( 1 ) 319 - 330   2016.01  [Refereed]

  • Examined Plan of off-flavor of Tap Water by Nutrient Managements in the Upper of the Kinokawa River

    HINO Ryota, WADA Yasuhiro, EGUSA Nobuyuki (Part: Last author, Corresponding author )

    Papers on Environmental Information Science ( Center for Environmental Information Science )  29   183 - 188   2015.12  [Refereed]

     View Summary

    The off-flavor taste of tap water due to 2-methylisoborneol (2-MIB) derived from blue algae is one of the water quality problems associated with high nutrient loads in the Kinokawa River. Existing monitoring data showed that 2-MIB concentrations tended to increase when total phosphorus (TP) concentrations exceeded 0.02 mg/L. This study employed mass load and river water quality analyses to examine ways in which TP loads in river runoff could be mitigated. The results suggested that TP mass loads could be reduced by approximately half if the drainage volume standards defined in the Water Pollution Control Law were more stringent. In addition, halving current mass loads could reduce TP concentrations to less than 0.015 mg/L and limit any increases in the concentration of 2- MIB.

    DOI

  • 地域研究成果の地元住民への還元手法としてのジオツーリズムの検討

    本塚智貴, 江種伸之, 吉野孝, 平井千津子, 後誠介 (Part: Corresponding author )

    Kansai Geo-Symposium 2015論文集     141 - 146   2015.11  [Refereed]

  • 和歌山県東牟婁地域の熊野層群分布域における崩壊・土石流の実態と地形的特徴について

    辻野裕之, 江種伸之, 後誠介, 谷垣勝久, 岩瀬信行

    Kansai Geo-Symposium 2015論文集     147 - 150   2015.11  [Refereed]

  • 既存施設への薬品注入設備・傾斜管沈降装置導入による濁度改善効果

    和田安弘, 保田孝志, 江種伸之, 平田健正 (Part: Corresponding author )

    水道協会雑誌   84 ( 5 ) 15 - 25   2015.05  [Refereed]

  • あかりマップ:利用者の移動を考慮した平常時から利用可能な災害時避難支援システム

    濵村朱里, 福島拓, 吉野孝, 江種伸之 (Part: Last author )

    情報処理学会論文誌   56 ( 1 ) 185 - 195   2015.01  [Refereed]

  • 平成23年台風12号による和歌山県東牟婁地域における土石流災害

    江種伸之, 辻野裕之, 谷垣勝久, 泉並良二, 矢野晴彦, 加藤智久, 岩瀬信行, 石田優子, 藤本将光, 岩佐直人, 後誠介 (Part: Lead author, Corresponding author )

    Kansai Geo-Symposium 2014論文集     179 - 184   2014.11  [Refereed]

  • 地下水循環併用型原位置バイオレメディエー ションによる塩素化エチレン類の分解促進効果

    丸山裕嗣, 江種伸之, 平田健正, 川原恵一郎 (Part: Corresponding author )

    土木学会論文集B1(水工学)   70 ( 4 ) I_1117 - I_1122   2014.03  [Refereed]

  • Classic & contemporary papers of groundwater science (5) Ogata and Banks equation (1961): The best-known analytical solution of one dimensional advective-dispersive equation

    EGUSA Nobuyuki (Part: Lead author, Corresponding author )

    Suimontishitukenkyukaikaisi ( Japanese Association of Groundwater Hydrology )  56 ( 3 ) 251 - 256   2014  [Refereed]

    DOI

  • 平成23年台風12号による和歌山県内の土砂災害と雨量の関係

    鈴木梨加, 江種伸之, 矢野晴彦, 辻野裕之, 鍋島康之, 後誠介 (Part: Corresponding author )

    Kansai Geo-Symposium 2013論文集     87 - 90   2013.11  [Refereed]

  • 平成23年台風12号による和歌山県の河川災害について

    中西典明, 林和幸, 黒田美里, 泉並良二, 江種伸之 (Part: Last author )

    Kansai Geo-Symposium 2013論文集     90 - 96   2013.11  [Refereed]

  • 果樹園の月別窒素原単位に基づいた河川水質の季節変化特性に関する数値解析

    日野良太, 江種伸之, 石塚正秀, 平田健正 (Part: Corresponding author )

    土木学会論文集B1   68 ( 4 ) I_607 - I_612   2012  [Refereed]

  • Effects of Aeration Treatment in Distributing Reservoir of Water Purification Plant on Trihalomethane Reduction

    WADA Yasuhiro, YAMAMOTO Tomohiro, OKAMOTO Masami, EGUSA Nobuyuki, HIRATA Tatemasa (Part: Corresponding author )

    PROCEEDINGS OF ENVIRONMENTAL AND SANITARY ENGINEERING RESEARCH ( Japan Society of Civil Engineers )  68 ( 7 ) III_651 - III_661   2012  [Refereed]

     View Summary

    The Takihata water purification plant started in August 2003. Trihalomethane concentration in drinking water has been the major issue since the start of the plant operation. Therefore, demonstration experiments were conducted in order to investigate the reduction of the trihalomethane concentration by aeration in a distributing reservoir of the plant. The experimental results showed that the trihalomethane concentration decreased exponentially with increased amount of aeration. Meanwhile, the aeration can not remove organic substances in clear water and so the trihalomethane concentration increases again in a water distribution network. This means that it is important to manage the concentration at the end of the network. Therefore, an estimating equation for the concentration in the network was developped using monitoring data. Model analysis using the estimating equation suggested that the aeration in the distributing reservoir enabled a water supply of good quality in the Takihata waterworks system.

    DOI

  • Influence of Industrial Mass Loads on Total Phosphorus Concentration in River Water:: Effects of the Fifth Regulation of Total Maximum Daily Loading

    WADA Yasuhiro, HINO Ryota, EGUSA Nobuyuki, HIRATA Tatemasa (Part: Corresponding author )

    Papers on Environmental Information Science ( Center for Environmental Information Science )  26   55 - 60   2012  [Refereed]

     View Summary

    Characteristics of total phosphorus (TP) concentrations in the Kinokawa River were clarified by using existing monitoring data. Numerical analysis to examine mass loads and river water quality were also conducted. The monitoring data showed that the TP concentrations increased markedly in the middle river reaches from 1996 to 2001. The numerical analysis also demonstrated large increases in industrial TP loads from 1996 to 1999, as well as decreases in TP due to reductions in industrial shipments and the promulgation of the fifth regulation of total maximum daily loading. The findings suggested that industrial TP loads and the river flow rate both affected TP concentrations in the river.

    DOI

  • Three-dimensional numerical simulation of groundwater contamination by organoarsenic compounds in Kamisu City, Japan

    S. Watanabe, N. Egusa, T. Hirata, N. Yokoyama, Y. Yamazato, M. Morita (Part: Corresponding author )

    IAHS Red Book Series : GROUNDWATER QUALITY MANAGEMENT IN A RAPIDLY CHANGING WORLD ( INT ASSOC HYDROLOGICAL SCIENCES )  342   171 - 175   2011  [Refereed]

     View Summary

    The transport processes of groundwater contamination by organoarsenic compounds was examined on a large scale in Kamisu City, Ibaraki Prefecture, Japan, using a three-dimensional numerical simulation. The results of the 3-D numerical simulation revealed that groundwater contamination had spread approx. 3 km downstream from the contaminant source and also that groundwater extraction from industrial wells located downstream of the study area had limited the spread of the groundwater contamination until the operation of some wells stopped.

  • 地下水揚水を併用した原位置封じ込め措置の土壌汚染の拡散防止効果

    江種伸之, 姜学妍, 峠和男, 西田憲司, 平田健正 (Part: Lead author, Corresponding author )

    地盤工学ジャーナル   6 ( 2 ) 297 - 304   2011  [Refereed]

    DOI

  • Primary Consideration in Calculation Method of Nutrient Emission Factors Based on Mass Balance in Orchard

    HINO Ryota, EGUSA Nobuyuki, HIRATA Tatemasa (Part: Corresponding author )

    Papers on Environmental Information Science ( Center for Environmental Information Science )  25   269 - 274   2011  [Refereed]

     View Summary

    This study investigates a method to calculate nutrient emission factors using existing in formation based on mass balance in orchard and also evaluated the applicability and availability of the calculated emission factors in the Kinokawa River Watershed. The results showed that it was possible to calculate emission factors for applying for a pollution load and river water quality analysis. Moreover, the advantage of this method is that emission factors could be simply calculated using an amount of fertilizer. That is why the calculation method of emission factors examined in this study makes it easy to estimate the reduction of nutrient runoff based on managing the amount of fertilizer.

    DOI

  • 茨城県神栖市で起きた有機ヒ素化合物による地下水汚染機構の解明に関する数値解析

    渡辺俊一, 江種伸之, 平田健正, 横山尚秀, 山里洋介, 森田昌敏 (Part: Corresponding author )

    地盤工学ジャーナル   6 ( 2 ) 383 - 394   2011  [Refereed]

  • 紀の川流域におけるエサキアメンボのパッチ占有モデルによるメタ個体群存続の予測

    江種伸之, 徳田裕二, 中尾史郎 (Part: Lead author, Corresponding author )

    環境システム研究論文集   38   43 - 52   2010  [Refereed]

  • 茨城県神栖市で起きた有機ヒ素化合物による地下水汚染の実態解明

    渡辺俊一, 江種伸之, 平田健正, 横山尚秀, 山里洋介, 森田昌敏 (Part: Corresponding author )

    地盤工学ジャーナル   5 ( 1 ) 147 - 157   2010  [Refereed]

    DOI

  • 帯水層中のメチロシスティス属M株の挙動とトリクロロエチレン分解に関する数値解析

    長谷川直紀, 江種伸之, 山本秀一, 川原恵一郎, 平田健正, 岩崎一弘, 矢木修身 (Part: Corresponding author )

    水工学論文集   54   613 - 618   2010  [Refereed]

  • 有機ヒ素化合物による地下水汚染の挙動解析

    渡辺俊一, 姜学妍, 江種伸之, 平田健正, 横山尚秀, 山里洋介, 森田昌敏 (Part: Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2009論文集     63 - 70   2009  [Refereed]

  • 紀の川流域の生息地におけるエサキアメンボLimnoporus esakiiの空間分布

    徳田裕二, 中尾史郎, 江種伸之 (Part: Last author, Corresponding author )

    環境システム研究論文集   37   39 - 47   2009  [Refereed]

  • 農業用水取水ルールを考慮した分布型水文流出モデルによる紀の川流出解析

    石塚正秀, 江種伸之 (Part: Last author )

    水工学論文集   52   391 - 396   2008  [Refereed]

    DOI

  • 太陽熱を利用した農地消毒時の土中温度の変化特性

    江種伸之, 加瀬広大, 山本秀一, 増田吉彦, 平田健正 (Part: Lead author, Corresponding author )

    土木学会論文集B   64 ( 4 ) 267 - 279   2008  [Refereed]

    DOI

  • 帯水層におけるメタン資化性細菌メチロシスティス属M株の挙動解析

    長谷川直紀, 江種伸之, 山本秀一, 川原恵一郎, 平田健正, 岩崎一弘, 矢木修身 (Part: Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2008論文集     103 - 106   2008  [Refereed]

  • 帯水層における塩素化エチレン類の自然減衰特性解析

    江種伸之, 丹波豊, 山本秀一, 平田健正 (Part: Lead author, Corresponding author )

    水工学論文集   51   493 - 498   2007  [Refereed]

  • Metapopulation structure of water-strider, Limnoporus esakii (insecta: gerridae) in the Kinokawa River Watershed

    中尾史郎, 江種伸之 (Part: Last author )

    Papers on environmental information science ( 環境情報科学センター )  21   99 - 104   2007  [Refereed]

    DOI

  • 太陽熱消毒におよぼす土中熱伝導性の影響

    加瀬広大, 江種伸之, 増田吉彦, 平田健正 (Part: Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2007論文集     68 - 73   2007  [Refereed]

  • PARALLELIZATION OF A SUBSURFACE MASS TRANSPORT NUMERICAL SIMULATION ON PC CLUSTER USING MPI

    EGUSA Nobuyuki, SAITO Shoichi, HIRATA Tatemasa (Part: Lead author, Corresponding author )

    Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering) ( Japan Society of Civil Engineers )  63 ( 1 ) 29 - 38   2007  [Refereed]

     View Summary

    Throughput of a personal computer (PC) cluster, which is a parallel processing system, is approaching a super computer level due to network speed and PC performance improvements. This study evaluated the availability of a PC cluster on a mass transport numerical simulation in subsurface. Method of Characteristic (MOC) was used as a numerical simulation method. The sequential program of MOC was parallelized using Message Passing Interface (MPI), which is a library specification for message-passing in a distributed memory system. The computing speed of eight node PC cluster was six times faster than that of sequential processing. These result in that the parallelization technique using MPI was effective in shortening of the subsurface mass transport simulation by MOC.

    DOI

  • ソイルセメント系連続地中壁の物理・力学特性と地震応答解析による耐震性能評価

    日置和昭, 平田健正, 西垣誠, 江種伸之, 櫛原信

    廃棄物学会論文誌   18 ( 4 ) 230 - 239   2007  [Refereed]

  • 土中熱伝導の水分依存性とその定式化

    加瀬広大, 江種伸之, 山本秀一, 増田吉彦, 平田健正 (Part: Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2006論文集     53 - 58   2006  [Refereed]

  • PREDICTION OF INFLUENCE RADIUS OF VACUUM PUMPING IN UNSATURATED SOIL AND EVALUATION OF AIR PERMEABILITY BY IN SITU VACUUM TEST

    HIBI Yoshihiko, JINNO Kenji, EGUSA Nobuyuki, KAWABATA Junichi, SIMOMURA Masanori

    Journal of Japan Society of Civil Engineers, Ser. C (Geosphere Engineering) ( Japan Society of Civil Engineers )  62 ( 2 ) 488 - 501   2006  [Refereed]

     View Summary

    The coefficient of air permeability and the influence radius are the important indices for the design of remediation of the polluted unsaturated soil. At present, several theoretical formulas have been proposed to estimate the air permeability. However, neither theoretical formulas for estimating air permeability nor the influence radius of vacuum test affected by the volumetric water content are clarified.<br>In the present paper, the solutions by theoretical formulas were compared with numerical solution by the finite element method which considers the compressibility of air and the spatial distribution of volumetric water content. It was revealed that the theoretical formulas were applicable to the actual unsaturated soil where the in situ vacuum test was conducted.

    DOI

  • 井戸からのガス吸引による土中空気の定常状態流れの理論解と有限要素法の数値解の比較

    日比義彦, 神野健二, 江種伸之, 川端淳一, 下村雅則

    土木学会論文集G   62 ( 4 ) 391 - 402   2006  [Refereed]

  • In-Situ Degradation Effects of Chlorinated Ethenes using Bioremediation

    N.Egusa, S.Yamamoto, T.Hirata, K.Kawahara, T.Ozawa, O.Nakasugi (Part: Lead author, Corresponding author )

    Journal of Hydroscience and Hydraulic Engineering   24 ( 1 ) 83 - 92   2006  [Refereed]

  • 帯水層における塩素化エチレン類の一次反応速度定数に関する考察

    丹波豊, 江種伸之, 山本秀一, 平田健正 (Part: Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2006論文集     63 - 66   2006  [Refereed]

  • Remediation of groundwater contaminated by trichloroethylene using groundwater extraction and effects of natural attenuation

    N.Egusa, T.Hirata, Y.Yoshioka, O.Nakasugi (Part: Lead author, Corresponding author )

    IAHS Red Book Series : Bringing Groundwater Quality Research to the Watershed Scale   297   433 - 438   2005  [Refereed]

  • FIELD TEST ON REMEDIATION OF GROUNDWATER CONTAMINATED BY TETRACHLOROETHYLENE USING IN-SITU BIOREMEDIATION

    EGUSA Nobuyuki, HIRATA Tatemasa, KAWAHARA Keiichirou, OZAWA Tetsushi, NAKASUGI Osami (Part: Lead author, Corresponding author )

    Doboku Gakkai Ronbunshuu B ( Japan Society of Civil Engineers )  49   145 - 150   2005  [Refereed]

     View Summary

    This paper evaluated the results of a field test for grou ndwater remediation by in-situ bioremediation at a site contaminated by tetrachloroethylene. The technique carried out in this test uses reductive dechlorination of contaminant in a subsurface environment. In the observation well during the field test, the percentages of daughter products like dichloroethylenes were observed to increase with the rise in reductive condition of the aquifer. Moreover, it was shown that the first order rate constants of all substances became greater than those of natural groundwater by more than a few orders. This meant that the reductive dechlorinataions could be accelerated during the field test.

    DOI

  • トリクロロエチレンの溶解特性に関する物質移動係数の特性

    江種伸之, 山本秀一, 平田健正 (Part: Lead author, Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2005論文集     25 - 28   2005  [Refereed]

  • バイオレメディエーション技術を用いた塩素化エチレン類の原位置分解効果

    江種伸之, 山本秀一, 平田健正, 川原恵一郎, 小沢哲史, 中杉修身 (Part: Lead author, Corresponding author )

    地盤の環境・計測技術に関するシンポジウム2005論文集     41 - 48   2005  [Refereed]

  • 揮発性有機化合物に汚染された地下水の揚水処理による浄化

    平田健正, 吉岡昌徳, 江種伸之, 中杉修身 (Part: Corresponding author )

    土木学会論文集   ( 762/VII-31 ) 91 - 99   2004  [Refereed]

  • 土地利用の異なる隣接した二流域の河川水質特性

    江種伸之, 三尾谷雅史, 鷲田勉, 平田健正 (Part: Lead author, Corresponding author )

    水工学論文集   48   1471 - 1476   2004  [Refereed]

  • Natural attenuation of trichloroethylene and dichloroethylene in groundwater remediation site

    N.Egusa, T.Kakuo, T.Hirata, Y.Yoshioka, O.Nakasugi (Part: Lead author, Corresponding author )

    Journal of Hydroscience and Hydraulic Engineering   22 ( 2 ) 105 - 110   2004  [Refereed]

  • The river water quality and estimation of pollutant loads in the Kinokawa catchments

    TANIGUCHI Masanobu, II Hiroyuki, EGUSA Nobuyuki, HIRATA Tatemasa, ARAKI Naoya

    Doboku Gakkai Ronbunshuu G ( Japan Society of Civil Engineers )  40   161 - 169   2003  [Refereed]

     View Summary

    Water quality of the Kinokawa River has not been satisfied with the Japanese environmental quality standard. Then, origins of pollution of Kinokwa River were analyzed by L-Q equation and pollutant load per unit production using a field survey result and previous data. As a result, BOD and T-N values calculated from L-Q method were in good agreement with those calculated from pollutant load unit production method. The difference of T-P values between two methods was twice. Pollutant load source was estimated by pollutant load per unit production method. Main sources of BOD, T-N, and T-P in Kinokawa catchments were estimated to be domestic sewage, orchard, and industrial wastewater respectively. Comparing lower and upper stream of Kinokawa catchments, main sources of BOD and T-P in the upper stream were forest. Main sources of BOD and T-P in the lower stream were domestic sewage and industrial wastewater. Main sources of T-N in both streams were orchards. Therefore, each main source was various and comprehensive plan is necessary for controlling river water quality.

    DOI

  • 地下水汚染浄化対策現場における揮発性有機化合物の自然減衰効果

    江種伸之, 角尾隆, 平田健正, 吉岡昌徳, 中杉修身 (Part: Lead author, Corresponding author )

    水工学論文集   47   307 - 312   2003  [Refereed]

  • 大阪府石川流域における河川水質と土地利用の関係について

    井伊博行, 平田健正, 江種伸之, 長谷部正彦, 坂本康, 粂川高徳, 西山幸治, 酒井信行

    河川技術論文集   8   523 - 527   2002  [Refereed]

  • 森林および果樹園からの無機イオン類の流出が河川水質に与える影響について

    江種伸之, 鷲田勉, 平田健正 (Part: Lead author, Corresponding author )

    水工学論文集   46   893 - 989   2002  [Refereed]

  • 水分飽和多孔体へ注入した空気の移動と溶解特性

    江種伸之, 中藤康拓, 生原功一, 平田健正 (Part: Lead author, Corresponding author )

    地下水学会誌   44 ( 4 ) 285 - 294   2002  [Refereed]

  • CHARACTERISTIC OF RIVER WATER CHEMISTRY IN THE YAMATOGAWA BASIN

    KUBOHARA Takuma, II Hiroyuki, HIRATA Tatemasa, EGUSA Nobuyuki, ISHIZUKA Masahide, ISE Tatsuo, MIYAGAWA Yuji

    Doboku Gakkai Ronbunshuu B ( Japan Society of Civil Engineers )  45   985 - 990   2001  [Refereed]

     View Summary

    The flux of NO<SUP>-</SUP><SUB>3</SUB> and BOD values in the Yamato river water directly increased with precipitation. Therefore, the NO<SUP>-</SUP><SUB>3</SUB> was considered to originate mainly from fertilizer (A) because it was reported that the flux of NO<SUP>-</SUP><SUB>3</SUB>in farmland drainage increased with precipitation, although domestic sewage (B) also contains a lot of NO<SUP>-</SUP><SUB>3</SUB>. As sediments in the river channels and drains containing organic compounds migrated on rainy days, river BOD values are considered to increase after rain. On the other hand, NO<SUP>-</SUP><SUB>3</SUB>origins in branch rivers of the Yamato river are various combinations of (A) and (B). The NO<SUP>-</SUP><SUB>3</SUB>origins of branch rivers were determined by whether the flux of NO<SUP>-</SUP><SUB>3</SUB> increased with the flow rate or not. On the other hand, CF concentration in the Yamato river water is considered to strongly depend on the amount of domestic sewage. Although the flow rate in the river changed remarkably due to heavy rains, the flux of CF remained unchanged because the volume of domestic sewage did not change even on a rainy day.

    DOI

  • 水分飽和多孔体へ注入した空気の移動に関する室内実験

    江種伸之, 中藤康拓, 平田健正 (Part: Lead author, Corresponding author )

    水工学論文集   45   319 - 324   2001  [Refereed]

  • Comparison of the Water Chemistry in the River Basin of Different Land Use and Geologic Structure. The Satsunai and Ishikawa River Basin.

    HASEBE Masahiko, KATO Tomomi, KUMEKAWA Takanori, HIRATA Tatemasa, II Hiroyuki, EGUSA Nobuyuki, SAKAMOTO Yasushi

    Doboku Gakkai Ronbunshu ( Japan Society of Civil Engineers )  2000 ( 663/II-53 ) 131 - 136   2000  [Refereed]

     View Summary

    It is important that it makes clear the cyclic process of water and water balance for the river basin. However water quality was changed by types of land use and geologic structure. In this study, we have compared the water chemistry of the Ishikawa river which land for housing makes rapid progress, with that of the Satsunai river which there are almost agricultural land. In the Satsunai river, the NO<sub>3</sub><sup>-</sup> concentration found in the middle stream water of farmland were thought to have come from fertilizer. The Cl<sup>-</sup> concentration is influenced the difference of population in the river basin. By analysis of oxygen and hydrogen isotopic ratios, the effect of geographic latitude is confirmed by comparing the Ishikawa river basin with the Satsunai river.

    DOI

  • 地下水中への空気注入による揮発性有機化合物の除去効果について

    江種伸之, 塩谷剛, 平田健正, 福浦清, 松下孝 (Part: Lead author )

    環境工学研究論文集   37   279 - 286   2000  [Refereed]

  • Long term field test on air sparging performance

    N. Egusa, T. Hirata, K. Fukuura, T. Matsushita (Part: Lead author, Corresponding author )

    Journal of Hydroscience and Hydraulic Engineering   18 ( 1 ) 39 - 44   2000  [Refereed]

  • 環境同位体及び化学組成からみた石川流域の河川水と地下水の起源について

    井伊博行, 平田健正, 長谷部正彦, 江種伸之, 坂本康, 粂川高徳, 西山幸治, 酒井信行, 堀井壮夫

    水工学論文集   43   205 - 210   1999  [Refereed]

  • 地下水中への長期間の空気注入による汚染物質濃度変化について

    江種伸之, 平田健正, 福浦清, 松下孝 (Part: Lead author, Corresponding author )

    水工学論文集   43   193 - 198   1999  [Refereed]

  • 土地利用特性の河川水質に及ぼす影響 -大阪府石川流域-

    平田健正, 井伊博行, 長谷部正彦, 江種伸之, 坂本康, 粂川高徳, 酒井信行, 岩崎宏和

    土木学会論文集   ( 614/II-46 )   1999  [Refereed]

  • 地下水中に注入された空気の移動特性および汚染物質の濃度変化について

    江種伸之, 平田健正, 福浦清, 松下孝 (Part: Lead author, Corresponding author )

    水工学論文集   42   349 - 354   1998  [Refereed]

  • A STUDY ON INVESTIGATION OF WATER CYCLE PROCESS IN THE ISHIKAWA RIVER

    HASEBE Masahiko, HIRATA Takemasa, II Hiroyuki, SAKAMOTO Yasusi, EGUSA Nobuyuki, KUMEKAWA Takaniri, NISHIYAMA Kouji, SAITOU Nobuhiko, NAMATAME Norikazu

    PROCEEDINGS OF HYDRAULIC ENGINEERING ( Japan Society of Civil Engineers )  42   307 - 312   1998  [Refereed]

     View Summary

    It is important that it makes clear cyclic process of water and water balance in urban river. But, the process of water cycle and water balance have not been made clear in the hydrologic system, because many factors are each other influenced complicatedly and that it is not elucidated in real basin.<BR>In this study, we attempt to clarity the process of water cycle in a watershed of the Ishikawa river with a discharge area of 220 km<SUP>2</SUP> by environmental isotope tracers. Both geochemical data which are EC, δ<SUP>18</SUP> O etc. and river discharge are directly measured at many points.<BR>As result, it is obvious that cyclic process of river water and water balance are grasped through geochemical data and field observation from macroscopic point.

    DOI

  • Cost efficiency of subsurface remediation using soil vapor extraction and groundwater extraction

    T. Hirata, N. Egusa, O. Nakasugi, S. Ishizaka, M. Murakami

    Water Science and Technology ( Elsevier Sci Ltd )  37 ( 8 ) 161 - 168   1998  [Refereed]

     View Summary

    The groundwater pollution due to volatile organochlorines like trichloroethylene and tetrachloroethylene has been a great environmental issue in Japan. The nation wide survey revealed on the basis of up to fifty-nine thousand samples collected until 1995 that 1.5% for trichloroethylene and 2.3% for tetrachloroethylene cannot meet the drinking water standard. In order to repair subsurface pollution and to establish the integrated procedure for cost-benefit remediation measure, physical remediation technologies of soil vapor extraction and groundwater extraction were applied to a study site contaminated with trichloroethylene. The results showed that the trichloroethylene amounts of 472 kg by soil vapor extraction and 1764 kg by groundwater extraction were removed during three-year operation. In addition experience with both technologies has demonstrated that the soil vapor extraction has been successful in removing 1 kg hr-1 of trichloroethylene at the initial stage of remediation, which shows one order as high as the groundwater extraction. However, the removal rate due to soil vapor extraction declines much earlier than groundwater extraction, and consequently the removal rates of both technologies develop inversely with the progress of remediation. Such remediation behavior of technologies raised the relative cost for soil vapor extraction 15 times as high as groundwater extraction.

    DOI

  • 地下水中へ注入された空気による水質回復の影響について

    江種伸之, 平田健正, 福浦清, 松下孝 (Part: Lead author, Corresponding author )

    地下水学会誌   40 ( 4 ) 417 - 428   1998  [Refereed]

  • 降雨浸透の影響を考慮した不飽和土壌中における有機塩素化合物の鉛直輸送特性について

    江種伸之, 平田健正, 唐常源 (Part: Lead author, Corresponding author )

    水工学論文集   41   569 - 574   1997  [Refereed]

  • Numerical simulation for transport of chlorinated hydrocarbons with gas advection and diffusion in unsaturated zone

    N.Egusa, K.Jinno (Part: Lead author )

    Journal of Hydroscience and Hydraulic Engineering   14 ( 2 ) 97 - 104   1996  [Refereed]

  • 土壌ガス吸引と地下水揚水を併用した地下環境汚染の修復

    平田健正, 江種伸之, 中杉修身, 石坂信也

    環境工学研究論文集   33   47 - 55   1996  [Refereed]

  • 不飽和土壌中でのガス流動を考慮した有機塩素化合物の輸送特性解析

    江種伸之, 神野健二 (Part: Lead author )

    水工学論文集   39   349 - 354   1995  [Refereed]

  • 土壌ガス吸引時における有機塩素化合物ガスの挙動について

    江種伸之, 神野健二 (Part: Lead author )

    地下水学会誌   37 ( 4 ) 245 - 254   1995  [Refereed]

  • ガス拡散を考慮した有機塩素化合物の不飽和-飽和領域における輸送特性解析

    江種伸之, 神野健二, 鷲見栄一 (Part: Lead author )

    土木学会論文集   ( 502/II-29 ) 167 - 176   1994  [Refereed]

  • A HYDROGEOLOGICAL STUDY OF GROUNDWATER POLLUTION BY TETRACHLOROETHYLENE

    N EGUSA, K JINNO, K NAKAMUTA, H HIRONAKA, Y MATSUFUJI, T ISHIBASHI (Part: Lead author )

    IAHS Red Book Series "TRACERS IN HYDROLOGY” ( INT ASSOC HYDROLOGICAL SCIENCES )  ( 215 ) 125 - 134   1993  [Refereed]

  • トリクロロエチレンの自然河床区間から地下水系への浸透特性について

    江種伸之, 神野健二, 籾井和朗, 鷲見栄一 (Part: Lead author )

    水工学論文集   36   391 - 396   1992  [Refereed]

▼display all

Books etc

  • 地下水解析入門

    江種伸之( Part: Sole author)

    Independently published (Amazon)  2024.11  ISBN: 9798300581299

  • 地下水の辞典

    公益社団法人日本地下水学会編集( Part: Contributor,  Work: pp.132-135,pp.575-576,pp.578-579,pp.587-589)

    朝倉書店  2024.10  ISBN: 9784254261806

  • 改訂版 地盤調査の方法と解説

    ( Part: Contributor,  Work: 第11編 地盤汚染調査の方法)

    地盤工学会  2013 

  • 最新の土壌・地下水汚染原位置浄化技術

    ( Part: Contributor,  Work: 第3章 原位置浄化の設計・評価における解析技術)

    シーエムシー出版  2012 

  • 地下水用語集

    ( Part: Contributor,  Work: 26語担当)

    理工図書  2011 

  • 入門シリーズ37 はじめて学ぶ土壌・地下水汚染

    ( Part: Contributor,  Work: 第6章 汚染の挙動解析法)

    地盤工学会  2010 

  • 日本の水環境行政(改訂版)

    ( Part: Contributor,  Work: 第7章 4.地下水・土壌汚染の対策)

    ぎょうせい  2009 

  • 図解 土壌・地下水汚染用語辞典

    ( Part: Contributor,  Work: 29用語担当)

    オーム社  2009 

  • 続・土壌・地下水汚染の調査・予測・対策

    ( Part: Contributor,  Work: 4.3 多相流の移動に関わる物性とその評価法,5.3.2 土壌ガス吸引とエアースパージング)

    地盤工学会  2008 

  • 水環境ハンドブック

    ( Part: Contributor,  Work: 5.2 地下水の水理)

    朝倉書店  2006 

  • 地下水・土壌汚染の基礎 -汚染物質の動態と調査・対策技術-

    ( Part: Contributor,  Work: 第5章 揮発性有機化合物・油の動態)

    理工図書  2006 

  • 地盤調査の方法と解説

    ( Part: Contributor,  Work: 第11編 地盤環境汚染)

    地盤工学会  2004 

  • 土壌・地下水汚染原位置浄化技術

    ( Part: Contributor,  Work: 第2編 第1章 3.エアースパージング)

    シーエムシー出版  2004 

  • 地圏の環境

    ( Part: Contributor,  Work: 第4章 土壌中の水と物質の移動)

    東京電機大出版局  2001 

  • 地下水中の物質輸送解析

    ( Part: Contributor,  Work: 第5章 土壌における多相流動解析)

    九州大学出版会  2001 

  • 地下水・土壌汚染の現状と対策

    ( Part: Contributor,  Work: 3.3.5 ガス移流を考慮した地下水汚染解析)

    環境技術協会  1995 

▼display all

Misc

  • 原位置浄化技術への再生可能エネルギー導入の可能性

    江種伸之, 田内裕人, 丸山裕嗣, 平田健正 (Part: Lead author, Corresponding author )

    第26回日本水環境学会シンポジウム     137 - 138   2023.09

  • River Water Level Prediction Using Radar Rainfall with Deep Learning

    F. Ueda, H. Tanouchi, N. Egusa, T. Yoshihiro

    17th International Workshop on Informatics(IWIN2023)     2023.09

  • 和歌山県愛賀合地区の断層破砕帯で発生した斜面崩壊と地すべり

    谷垣勝久, 秋山晋二, 辻野裕之, 矢野晴彦, 石田優子, 田内裕人, 江種伸之, 後誠介

    Kansai Geo-Symposium 2022 論文集     158 - 161   2022.11

  • 紀の川の治水・利水・環境

    江種伸之 (Part: Lead author, Corresponding author )

    河川   ( 903 ) 2 - 6   2021.10

  • 土壌地下水汚染に関する最新の研究動向2021

    土壌地下水汚染研究委員会, 江種伸之, 小林剛, 杉田創, 張銘, 保高徹生 (Part: Lead author )

    日本水環境学会誌   44(A) ( 3 ) 78 - 84   2021.03

  • 揮発性有機化合物に対する原位置浄化技術の環境負荷

    江種伸之, 田内裕人, 丸山裕嗣, 平田健正 (Part: Lead author, Corresponding author )

    第23回日本水環境学会シンポジウム     291 - 292   2020.09

  • A Study on Tn and Tp Runoff Characteristics in the Kinokawa River Basin Based on High-frequency Nutrient Monitoring

    H.TANOUCHI, A.IMOTO, K.ISHIURA, N.EGUSA (Part: Last author )

    AOGS(Asia Oceania Geosciences Society) 2019 16th annual meeting     HS13-A015   2019.07

  • 収集運搬車両と分別・破砕機器の特性を考慮した災害廃棄物の収集運搬・処理連動モデルによる解析の提案

    浅井惣一郎, 田内裕人, 江種伸之 (Part: Last author )

    2019年度 土木学会関西支部 年次学術講演会     IV-26   2019.05

  • 全窒素・全リン高頻度観測による紀の川のHYPEモデルの流出予測精度の検証

    井本明久, 田内裕人, 江種伸之, 石浦洸一

    2019年度 土木学会関西支部 年次学術講演会     VII-1   2019.05

  • An Analysis on Pollutant Loads in Kinokawa River Basin by Using Hydrological Prediction for the Environment (hype) Model

    H.TANOUCHI, M.NAKAMURA, Y.NAKAMURA, N.EGUSA, J.OLSSON, A.KAWAMURA, H.AMAGUCHI

    AOGS(Asia Oceania Geosciences Society) 2018 15th annual meeting     HS13-A010   2018.06

  • あがらマップ:まち歩き型の情報収集に対応した防災マップづくり一貫支援システム

    榎田宗丈, 福島拓, 吉野孝, 杉本賢二, 江種伸之 (Part: Last author )

    和歌山大学災害科学教育研究センター研究報告   2   35 - 42   2018.03

  • DEVELOPMENT OF DISASTER PREVENTION GEOTOURISM IN NANKI KUMANO GEOPARK

    本塚 智貴, 田内 裕人, 江種 伸之, 後 誠介

    和歌山大学災害科学教育研究センター研究報告 ( 和歌山大学災害科学教育研究センター )  2   15 - 20   2018.03

     View Summary

    本稿ではワダイの防災ジオツアー分析および和歌山大学観光学部学生へのアンケート調査から,ワダイの防災ジオツアーの取り組みの展開可能性と今後の課題について整理する.モニターツアーの分析からは,防災ジオツアーが多世代や家族内で防災について考えるきっかけとなる可能性が確認された.防災ジオツアーを継続的に実施していくためには,ツーリズムとしての価値を高めツアー単価を上げていくことや土産物販売などの波及効果から利益を得ることも必要である.また,防災ジオツアーが企画に関わった南紀熊野ジオパークガイドの次の活動や地域活動にも波及していることが明らかとなり,ツアー単体ではなく地域の防災活動の展開に寄与していることも確認できた.和歌山大学観光学部学生のアンケートからは,若い世代の参加が少ないといった課題に対して,観光を学ぶ学生視点の前向きな提案が集められた.

    DOI

  • NIGESHIRUBE : DEVELOPMENT OF NIGECHIZU CREATION WEB SYSTEM

    谷岡遼太, 吉野孝, 江種伸之 (Part: Last author )

    和歌山大学災害科学教育研究センター研究報告 ( 和歌山大学災害科学教育研究センター )  2   7 - 14   2018.03

     View Summary

    災害対策に地理空間情報の利活用は欠かせない.非常時に需要が高まるWeb地理情報は,公的機関や企業などが提供手段の検討を続けている.一方で,防災教育という指針においては,「逃げ地図」制作などの地域密接型イベントによる周知が行われている.逃げ地図制作イベントにおいて,参加者間の語り合いの中で得られた現場知が多人数で共有されることで,ノウハウの循環や行政の施行を含む多くの応用可能性が考えられる.そのためには,これらの情報を永続的に記録し,多くの人々が閲覧できる環境が用いられることが望ましい.そこで本研究では,デジタル上の逃げ地図作成を目的としたWebシステム「逃げシルベ」の開発を行った.

    DOI

  • 原位置バイオレメディエーションを適用した帯水層中における揮発性有機化合物の微生物分解効果

    福永翔太, 田内裕人, 江種伸之, 平田健正 (Part: Corresponding author )

    第20回日本水環境学会シンポジウム講演集     335 - 336   2017.09

  • 災害廃棄物処理計画の策定支援を目的とした災害廃棄物収集運搬モデルの提案

    坂口直也, 田内裕人, 江種伸之, 大塚義一, 中野正樹

    土木学会 第72回年次学術講演会     VII-059   2017.09

  • Influence on Disaster Awareness Using Town-walk Type Disaster-preparedness Map Making Support System

    榎田 宗丈, 福島 拓, 吉野 孝, 杉本 賢二, 江種 伸之 (Part: Last author )

    情報処理学会関西支部支部大会講演論文集 ( [情報処理学会関西支部] )    6   2017.09

  • 災害廃棄物収集運搬モデルを用いた災害廃棄物処理のシナリオ分析

    坂口 直也, 田内 裕人, 江種 伸之, 大塚 義一, 中野 正樹

    土木情報学シンポジウム講演集 ( 土木学会 )  42   315 - 318   2017.09

  • Application Of The Hydrological Prediction For The Environment (Hype) Model For A Watershed Mixed Urban And Rural Area

    H.TANOUCHI, N.EGUSA, A.KAWAMURA, H.AMAGUCHI, J.OLSSON, A.MORIMOTO

    AOGS(Asia Oceania Geosciences Society) 2017 14th annual meeting     HS14-A014   2017.08

  • 紀の川流域の負荷量解析(窒素,リン)

    江種伸之 (Part: Lead author, Corresponding author )

    日本水環境学会誌   40A ( 7 ) 229 - 232   2017.07

  • EFFECT OF DISASTER PREPAREDNESS CONSCIOUSNESS IMPROVEMENT METHOD TO SUPPLY KNOWLEDGE OF DISASTER PREPAREDNESS USING A COMIC EXPRESSION

    榎田宗丈, 吉野孝, 福島拓, 本塚智貴, 江種伸之 (Part: Last author )

    和歌山大学災害科学教育研究センター研究報告   1   23 - 30   2017.03

    DOI

  • 平成23年度紀伊半島大水害の実態と教訓 -「想定外」豪雨による地盤災害の軽減に向けた提言- 4.和歌山地域の実態

    江種伸之, 石田優子, 辻野裕之, 中西典明, 矢野晴彦, 鍋島康之 (Part: Lead author, Corresponding author )

    地盤工学会誌   64 ( 6 ) 41 - 48   2016.06

  • DEVELOPMENT OF DISASTER PREPAREDNESS INFORMATION PROVIDING SYSTEM "AKARI MAP BOT" BASED ON USER'S TWEET

    吉野孝, 榎田宗丈, 宮部真衣, 本塚智貴, 江種伸之 (Part: Last author )

    和歌山大学防災研究教育センター紀要   2   57 - 64   2016.02

    DOI

  • 土壌地下水汚染に関する最新の研究動向

    中杉修身, 平田健正, 小林剛, 江種伸之 (Part: Last author )

    日本水環境学会誌   37A ( 12 ) 445 - 451   2015.12

  • 平成23年台風12号による和歌山県内の土砂災害

    江種伸之 (Part: Lead author, Corresponding author )

    土と岩   63   26 - 34   2015.04

  • 災害直後の避難支援を目的とした常時利用型災害時支援システム

    吉野孝, 濵村朱里, 福島拓, 江種伸之 (Part: Last author )

    和歌山大学防災研究教育センター紀要   1   13 - 20   2015.03

  • REGIONAL RE-VITALIZATION THROUGH GEOTOURISM

    本塚 智貴, 江種 伸之, 後誠介

    和歌山大学防災研究教育センター紀要   1   29 - 34   2015.03

    DOI

  • 紀伊半島の地形・地質と平成23年斜面災害

    後誠介, 江種伸之 (Part: Last author )

    和歌山大学防災研究教育センター紀要   1   5 - 12   2015.03

  • 土壌地下水汚染の研究動向と今後の展開

    江種伸之 (Part: Lead author, Corresponding author )

    日本水環境学会誌   37A ( 1 ) 15   2013

  • Effects of Groundwater withdrawal and its agricultural Use on Groundwater Quality in a Shallow Aquifer

    S.Watanabe, N.Egusa, T.Hirata, N.Yokoyama, Y.Yamazato, M.Morita (Part: Corresponding author )

    Groundwater Quality 2013 (IAHS)     2013

  • Habitat utilization of Limnoporus esakii(Miyamoto)(Hemiptera: Gerridae)in Kinokawa City, Wakayama Prefecture, and Seika-cho, Kyoto Prefecture

    Rinshiro MASUDA, Nobuyuki EGUSA, Shiro NAKAO, Laboratory of Applied Entomology Graduate School of Life and Environmental Sciences Kyoto Prefectural University, Department of Environmental Systems Faculty of Systems Engineering Wakayama University, Laboratory of Applied Entomology Graduate School of Life and Environmental Sciences Kyoto Prefectural University

    京都府立大学学術報告(生命環境学) ( 京都府立大学学術報告委員会 )  65   39 - 51   2013

     View Summary

    エサキアメンボでは, 越冬世代の成虫はその他世代の成虫よりも飛翔性が強く, 繁殖場所となる溜池と越冬場所となる溜池との間を秋季と春季に飛翔移動すると推定されている。その真偽を検討するために, 和歌山県紀の川市で2ヶ年にわたって, 冬季の成虫, ならびに初夏の幼虫と成虫の存否を96の溜池で調査した。さらに, 冬季の存否と夏季の水面上の "植生面積" との組み合わせ, ならびに夏季の存否と冬季の "陸域面積" との組み合わせに基づいたパッチ占有モデルによって分布予測をおこなった。野外では, 冬季も夏季も生息を確認できた溜池が存在した一方で, 夏季あるいは冬季のみに生息を確認できた溜池もあった。モデル解析結果は実際の分布変動に近似した。これらの結果は本種が春季と秋季に飛翔移動することを強く示唆しており, 繁殖場所と越冬場所をともに備えた溜池が, 短命な局所個体群の創設雌の供給源であることを示した。こうした点に注目し, 京都府精華町で新たに発見した生息場所の状況を記録した。

  • 土壌汚染対策法施行後の原位置浄化技術の傾向

    江種伸之 (Part: Lead author, Corresponding author )

    第13回日本水環境学会シンポジウム論文集     279 - 280   2010

  • 土壌地下水汚染の原位置浄化技術

    江種伸之 (Part: Lead author, Corresponding author )

    日本水環境学会誌   33A ( 12 ) 397   2010

  • 講座「土壌汚染対策技術の現状と実例 4.物理的な土壌汚染対策技術」

    浅田素之, 三浦俊彦, 大山将, 江種伸之 (Part: Last author )

    地盤工学会誌   57 ( 12 ) 58 - 65   2009

  • Numerical estimation on diffusion mechanism of groundwater contamination by organoarsenic compounds in Kamisu City, Japan

    S. Watanabe, N. Egusa, X. Jiang, T. Hirata, N. Yokoyama, Y. Yamazato, M. Morita (Part: Corresponding author )

    CALIBRATION AND RELIABILITY IN GROUNDWATER MODELING: MANAGING GROUNDWATER AND THE ENVIRONMENT ( CHINA UNIV GEOSCIENCES PRESS )    413 - 416   2009

     View Summary

    The diffusion mechanism of groundwater contamination by organoarsenic compounds in Kamisu City, Japan was examined using a three-dimensional numerical simulation. Field investigations revealed that the primary contaminant, diphenylarsinic acid (DPAA), was mainly detected in the deep layer of the aquifer in the study area. However, the subsequent discovery of buried, concrete-like blocks just below the ground surface 90 m southeast of the well where the contamination was first detected, revealed that the blocks had remarkably higher DPAA concentrations than was observed deep within the aquifer. The numerical simulation revealed that these blocks were the most probable source of the well contamination. It is proposed that DPAA leached from the blocks and moved to the bottom of the aquifer due to the density effect before being transported horizontally toward the well by groundwater flow.

  • 有機ヒ素等有害物質による地下水汚染

    平田健正, 江種伸之 (Part: Last author )

    環境ホルモン学会 第18回講演会テキスト     42 - 50   2007

  • Study on Degradation of Chlorinated Ethenes at a Groundwater Remediation site using in situ Bioremediation

    N.Egusa, T.Hirata, K.Kawahara, T.Ozawa, O.Nakasugi (Part: Lead author, Corresponding author )

    Groundwater Quality 2007 (IAHS)     2007

  • 帯水層における塩素化エチレン類の自然減衰特性 -数値解析的視点からの考察-

    江種伸之 (Part: Lead author, Corresponding author )

    地下水技術   49 ( 6 ) 17 - 26   2007

  • 地下水中における塩素化エチレン類の自然減衰に対する数値解析的アプローチ

    江種伸之 (Part: Lead author, Corresponding author )

    環境資源工学 ( 環境資源工学会 )  53 ( 2 ) 70 - 73   2006

  • 土壌・地下水汚染浄化技術の最新動向

    江種伸之 (Part: Lead author, Corresponding author )

    ケミカル・エンジニアリング   50 ( 5 ) 58 - 64   2005

  • The influence of nutrient runoff from orchards on water quality in the Kishi and Zakuro rivers, Japan

    N.Egusa, M.Mionoya, T.Hirata (Part: Lead author, Corresponding author )

    Proceedings of 8th International Conference on Diffuse/Nonpoint Poluution (IWA)     853 - 860   2004

  • 誌面講座「地下水・土壌汚染 7.揮発性有機化合物・油の動態」

    江種伸之 (Part: Lead author, Corresponding author )

    日本地下水学会誌   45 ( 2 ) 169 - 178   2003

  • 水環境の豊かさと水循環 -都市における水循環の再生-

    江種伸之 (Part: Lead author, Corresponding author )

    和歌山環境ジャーナル   4   5 - 10   2003

  • Field test on groundwater remediation with in situ air sparging

    N.Egusa, T.Hirata, T.Shiotani, K.Fukuura, T.Matsushita (Part: Lead author, Corresponding author )

    Proceedings of 1st Groundwater Seminar between China, Korea and Japan     90 - 95   2001

  • Field test on groundwater remediation with in situ air sparging

    N.Egusa, T.Hirata, T.Shiotani, K.Fukuura, T.Matsushita (Part: Lead author, Corresponding author )

    Groundwater Quality 2001 (IAHS)     52 - 55   2001

  • Groundwater nitrogen metals such as Al, Ni, Zn and Mn contaminations caused by nitrogen fertilizer in two Japanese tea plantations

    H.Ii, T.Tanaka, T.Hirata, Y.Ogata, M.Nishikawa, H.Matsuo, M.Ishiduka, N.Egusa (Part: Last author )

    Future Groundwater Resources at Risk(Proceedings of the 3rd International Conference)     373 - 380   2001

  • Soil and Groundwater Remediation of Japan Applied to Contaminated Sites with Hazardous Chemicals

    T.Hirata, N.Egusa (Part: Last author )

    Fourth Kansai International Geotechnical Forum     83 - 94   2000  [Invited]

  • 地下環境中への空気注入による地下水汚染の浄化 -野外実験-

    江種伸之, 平田健正, 松下孝 (Part: Lead author, Corresponding author )

    地下水技術   41 ( 8 ) 36 - 44   1999

  • Effect of air migration on volatile contaminant concentration in subsurface environment

    N.Egusa, T.Hirata, K.Fukuura, T.Matsushita (Part: Lead author, Corresponding author )

    Proceedings 28th IAHR Congress     1999

  • 土壌地下水汚染の対策と動向

    平田健正, 江種伸之 (Part: Last author )

    地下水技術   41 ( 7 ) 40 - 47   1999

  • Headwater and river water chemistry in the Ishikawa basin neighboring Oasaka city, central Japan

    T.Hirata, H.Ii, N.Egusa, Y.Sakamoto, M.Hasebe, T.Kumekawa

    Headwater 98     213 - 217   1998

  • 地下水汚染と混相流

    江種伸之, 平田健正 (Part: Lead author, Corresponding author )

    混相流学会誌   12 ( 2 ) 117 - 124   1998

  • Air and Contaminant Migrations in Groundwater Induced by In-Situ Air Sparging

    T.Hirata, N.Egusa, K.Fukuura, T.Matsushita

    ConSoil98 (FZK/TNO)     1107 - 1108   1998

  • Analysis for Transport of Chlorinated Hydrocarbons by Gas Advection and Diffusion in Unsaturated Zone

    N.Egusa, K.Jinno (Part: Lead author )

    Groundwater Quality 1995 (IAHS)     1995

  • Groundwater pollution by chlorinated hydrocarbons and prediction of transport

    K.Jinno, N.Egusa (Part: Last author )

    Proceedings of the Institute of Lowland Technology on PROBLEMS OF LOWLAND DEVELOPMENT     89 - 94   1992

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Awards & Honors

  • IWIN2023 Best Paper Awards

    Winner: Futo Ueda, Hiroto Tanouchi, Nobuyuki Egusa, Takuya Yoshihiro

    2023.09   17th International Workshop on Informatics(IWIN2023)   River Water Level Prediction Using Radar Rainfall with Deep Learning

  • 社会貢献賞

    Winner: 矢野晴彦, 辻野祐之, 谷垣勝久, 石田優子, 田内裕人, 本塚智貴, 江種伸之

    2018   (公社)地盤工学会関西支部  

  • 優秀論文賞

    Winner: 濱村あかり, 福島拓, 吉野孝, 江種伸之

    2014   (一社)情報処理学会 マルチメディア,分散,協調とモバイルシンポジウムプログラム委員会  

  • 野口賞(優秀プレゼンテーション賞)

    Winner: 濱村あかり, 福島拓, 吉野孝, 江種伸之

    2014   仙台応用情報学研究振興財団  

  • 功労賞

    Winner: 江種 伸之

    2011   日本地下水学会  

  • 河川環境管理財団 平成19年度 河川整備基金助成事業優秀成果

    Winner: 中尾史郎, 江種伸之

    2007    

  • 地盤工学会関西支部 学術賞(個人)

    2006    

  • 日本地下水学会研究奨励賞

    1998    

  • 土木学会水理委員会水工学論文奨励賞

    1996    

▼display all

KAKENHI

  • 新旧歴史災害情報に基づく土砂災害の再現性に注目した素因・誘因分析

    2018.04
    -
    2021.03
     

    Grant-in-Aid for Scientific Research(C)  Principal investigator

  • 平成23年台風12号豪雨災害情報に基づいた実効ある防災・減災対策の構築

    2013.04
    -
    2016.03
     

    Grant-in-Aid for Scientific Research(A)  Principal investigator

  • グリーン・レメディエーション手法導入による土壌地下水汚染対策の推進に関する研究

    2013.04
    -
    2016.03
     

    Grant-in-Aid for Scientific Research(C)  Co-investigator

  • サイトリスク評価からみた適切な土壌地下水汚染修復に関する研究

    2010.04
    -
    2013.03
     

    Grant-in-Aid for Scientific Research(C)  Co-investigator

  • 果樹栽培の盛んな農業集水域における河川水中の栄養塩濃度特性の解明

    2009.04
    -
    2012.03
     

    Grant-in-Aid for Scientific Research(C)  Principal investigator

  • 地下水流動系から見た汚染地下環境修復の手順に関する研究

    2006.04
    -
    2009.03
     

    Grant-in-Aid for Scientific Research(C)  Co-investigator

  • 農業活動が盛んな流域における水物質循環の健全性評価に関する研究

    2006.04
    -
    2009.03
     

    Grant-in-Aid for Young Scientists(B)  Principal investigator

  • 土壌に固有な微生物による揮発性有機化合物の分解メカニズムの解明と利用に関する研究

    2002.04
    -
    2004.03
     

    Grant-in-Aid for Young Scientists(B)  Principal investigator

  • 水素・酸素同位体比を用いた大気中の水循環システムの解析

    2001.04
    -
    2004.03
     

    Grant-in-Aid for Scientific Research(C)  Co-investigator

  • 汚染された地下環境修復技術の評価と最適化に関する研究

    1999.04
    -
    2002.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 環境同位体を用いた地下環境における物質の動態と起源の解明

    1998.04
    -
    2001.03
     

    Grant-in-Aid for Scientific Research(C)  Co-investigator

  • 地下水汚染浄化対策実施による水質回復の影響について

    1997.04
    -
    1999.03
     

    奨励研究(A)  Principal investigator

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Competitive funding, donations, etc. from foundation, company, etc.

  • システム工学部寄附金(奈良県川上村)

    2021.04
     

    Contribution  Principal investigator

Instructor for open lecture, peer review for academic journal, media appearances, etc.

  • 三重県大台町地域包括支援センター研修会

    2024.02.19

    大台町役場

     View Details

    講演講師

    『土砂災害と身を守る方法』 対象者は居宅介護支援事業所介護支援専門員、介護サービス事業所職員40名位

  • 第77回土壌汚染対策普及啓発セミナー

    2023.07.12

    NPO土壌汚染対策コンソーシアム

     View Details

    講演講師

    土壌や地下水の汚染物質の動きをPCで簡単に分析できる方法を基礎編・演習編に分けてご講演いただきます。

  • 令和5年度面接授業

    2023.04.15
    -
    2023.04.16

    放送大学和歌山学習センター

     View Details

    mizu

    「水を科学する」というタイトルで面接授業を実施した.

  • 2022年度和歌山県建設技術協会技術講習会

    2023.02.02

    和歌山県

     View Details

    講演講師

    令和5年2月2日開催の「2022年度和歌山県建設技術協会技術講習会」において、「平成23年台風12号で何がおきたのか~紀伊半島大水害の記憶を伝えていく~」について講演した。

  • 第29回2022年度瀬戸内海研究フォーラム

    2022.08.18
    -
    2022.08.19

    NPO瀬戸内海研究会議

     View Details

    運営参加・支援

    8月18日と19日に和歌山県民文化会館で開催する第29回2022年度瀬戸内海研究フォーラム第2セッション座長と運営

  • 第72回土壌汚染対策普及啓発セミナー

    2022.07.12

    NPO土壌汚染対策コンソーシアム

     View Details

    土壌汚染

    「土壌地下水汚染で知っておきたい地中における水と物質の動き(基礎編)(演習編)」というタイトルで講演した.

  • 令和4年度面接授業

    2022.04.23
    -
    2022.04.24

    放送大学和歌山学習センター

     View Details

    mizu

    「水を科学する」というタイトルで面接授業を実施した.

  • 第68回土壌汚染対策普及啓発セミナー

    2021.09.08

    NPO土壌汚染対策コンソーシアム

     View Details

    講演講師

    「土壌地下水汚染で知っておきたい地中における水と物質の動き」というタイトルで講演した.

  • 和歌山大学南紀熊野サテライト オープンセミナー

    2021.08.29

    和歌山大学

     View Details

    紀伊半島大水害

    「2011年の紀伊半島大水害における和歌山県内の土砂災害と河川災害」というタイトルで講演した.

  • 令和3年度面接授業

    2021.04.24
    -
    2021.04.25

    放送大学和歌山学習センター

     View Details

    非常勤講師

    「水を科学する」というタイトルで面接授業を実施した.

  • 平成31年度面接授業

    2019.04.13
    -
    2019.04.14

    放送大学和歌山学習センター

     View Details

    公開講座・講演会の企画・講師等

    「豪雨災害を科学する」というタイトルで面接授業を実施した.

  • 専科教育特殊災害科(第5期)

    2018.12

    和歌山県消防学校

     View Details

    公開講座・講演会の企画・講師等

    講師 「豪雨災害における危険性と災害対応」,日付:2018.12

  • ワダイの防災カフェ

    2018.06
    -
    2018.12

    災害科学教育研究センター,国交省近畿地方整備局

     View Details

    公開講座・講演会の企画・講師等

    防災に関するサイエンスカフェの企画・運営(全10回),日付:2018.06~2018.12

  • 平成30年度面接授業

    2018.04.21
    -
    2018.04.22

    放送大学和歌山学習センター

     View Details

    公開講座・講演会の企画・講師等

    講師 「豪雨災害を科学する」,日付:2018.04.21~04.22

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Committee member history in academic associations, government agencies, municipalities, etc.

  • 桑名市源十郎新田事案に係る技術顧問

    2023.09
    -
    2024.03
     

    三重県

     View Details

    土壌汚染

    技術顧問

  • 土壌汚染対策法の施行状況等に関する検討会 委員

    2023.08
    -
    2025.03
     

    一般社団法人 土壌環境センター(環境省委託)

     View Details

    学協会、政府、自治体等の公的委員

    委員

  • 大阪府河川及び港湾の底質浄化審議会 委員

    2022.08
    -
    2024.08
     

    大阪府

     View Details

    学協会、政府、自治体等の公的委員

    委員

  • 「基地周辺環境対策推進事業」有機フッ素化合物汚染源調査に係る専門家会議 委員

    2022.06
    -
    2024.03
     

    応用地質株式会社(沖縄県委託)

     View Details

    学協会、政府、自治体等の公的委員

    委員

  • 和歌山市新水道事業ビジョン水道料金検討会議 座長

    2022.04
    -
    2025.03
     

    和歌山市

     View Details

    水道事業

    座長

  • シールド坑内における出水事故原因検討会 委員

    2022.04
    -
    2024.03
     

    大阪広域水道企業団

     View Details

    学協会、政府、自治体等の公的委員

    委員

  • 和歌山市新水道事業ビジョン検討会議 座長

    2022.04
    -
    2024.03
     

    和歌山市

     View Details

    水道事業

    座長

  • 沖縄県廃棄物処理施設生活環境影響評価専門委員

    2022.04
    -
    2024.03
     

    沖縄県

     View Details

    学協会、政府、自治体等の公的委員

    委員

  • 六十谷水管橋破損に係る調査委員会 委員

    2021.10
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    (公社)地盤工学会

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    応用地質株式会社(沖縄県委託)

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    2021.03
     

    (一社)土壌環境センター

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    極東技工コンサルタント(和歌山県委託)

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    (公社)地盤工学会

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    国土交通省近畿地方整備局 

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