第66回水工学講演会
Dec 8 - Dec 10, 2021オンライン開催
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第66回水工学講演会
Dec 8 - Dec 10, 2021オンライン開催
You can search for presentations in this event.
SearchSearch Results(309)
[1]CLIMATE CHANGE IMPACT ON RIVER FLOODING AT UPSTREAM REGION OF THE ARA RIVER DUE TO TYPHOON HAGIBIS IN 2019
*Koyo Ota1, Yasuo nihei2, Takehiko Ito1, Hiroaki Kawase3, Takahiro Sayama4, Eiichi Nakakita4(1. Tokyo Univercity of Sciense, 2. Tokyo University of Science, 3. Meteorological Research Institute, 4. Disaster Prevention Research Institute, Kyoto University)
[2]EXAMINATION OF ASSUMED INUNDAITON DUE TO LARGE SCALE FLOODS IN FUTURE FORECASTS
*Makoto TAKEDA1, Kyosuke OHMIZO2, Kenji KAWAIKE3, Tomohiro TANAKA4, Yasuto TACHIKAWA4(1. Chubu University, 2. Tekoku, 3. Disaster Prevention Research Institute, Kyoto University, 4. Kyoto University)
[3]EVALUATING EFFECTS OF INCREASED PRECIPITATION CAUSED BY CLIMATE CHANGE ON STABILITY OF RAIL TRANSPORT
-ANALYSIS OF MULTIPLE RAILWAY LINES-
*Shoichi Uemura1, Ken Hashimoto2, Hiroto Suzuki1(1. EAST JAPAN RAILWAY COMPANY, 2. PACIFIC CONSULTANTS CO., LTD)
[4]EVALUATING DROUGHT POTENTIAL WITH OBSERVED LONG-TERM HYDROLOGICAL DATA IN A FORESTED MOUNTAINOUS WATERSHED
*Alatannabuqi ZHANG1, Seirou Shinoda1(1. Gifu University)
[5]ESTIMATING CROP DAMAGE IN RIVERS IN LOWLAND AREAS DUE TO INCREASED BACKWATER EFFECTS ARISING FROM CLIMATE CHANGE
*Junya Seki1, Makoto Nakatsugawa1, Thanh Thu Nguyen1(1. Muroran Institute of Technology)
[6]CHANGE OF PRECIPITATION AND RIVER DISCHARGE IN KYUSHU ISLAND BY GLOBAL WARMING BASED ON LARGE ENSEMBLE EXPERIMENTS
Akira TAI1, *Tatsuya OKU2, Takaaki NABESHIMA3(1. Graduate School of Engineering, Kyushu University, 2. GWest Japan Engineering Consultants, Inc., 3. Graduate School of Engineering, Kyushu University )
[通常号2]No.2土木学会論文集B1(水工学),Vol.76 NO.1, pp. 140-152,2020
著者:小林 敬汰, 田中 智大, 篠原 瑞生, 立川 康人
講演者:小林敬汰
[1R101-06-8add]General discussion
[7]CLIMATE CHANGE IMPACT ASSESSMENT ON THE PROBABILLITY OF FLOOD CONTROL OPERATION DURING AN EXTREME FLOOD -A CASE STUDY IN THE SHIMOUKE AND MATSUBARA DAMS, JAPAN-
*Shohei Miyamoto1, Yasuyuki Maruya1, Satoshi Watanabe2, Hiroaki Taniguchi1, Shinichiro Yano1(1. Kyushu University, 2. Kyoto University)
[8]STUDY ON THE FREQUENCY OF EMERGENCY SPILLWAY GATE OPERATION IN MULTIPLE-PURPOSE DAMS IN SNOWY AREAS DUE TO CLIMATE CHANGE
*Seren Nishijima1, Makoto Nakatsugawa1, Tomohiro Sandou1(1. Muroran Institute of Technology)
[9]FUTURE CHANGES OF FLOOD CONTROL EFFECT BY DAM RESERVOIRS OVER JAPAN USING d4PDF
*Tomohiro Tanaka1, Keiichiro Kitaguchi2, Yasuto Tachikawa2(1. Kyoto University, 2. Kyoto University)
[10]EVALUATION OF FLOOD CONTROL FUNCTION OF EXSISTING DAMS FOR CLIMATE CHANGE ADAPTATION
*Masayoshi Izumi1, Kazuhiro Nakanishi1, Gen Nagatani1, Hiroyuki Kojima1, Makoto Kurahashi1, Ikuo Kawamura1, Tetsuya Sumi2(1. CTI ENGINEERING CO.,LTD., 2. Professor, Disaster Prevention Research Institute, Kyoto University)
[11]INVESTIGATION OF ENSEMBLE DAM INFLOW SIMULATION IN SAI RIVER BASIN
*Katsunori TAMAKAWA1, Rasmy MOHAMED1, Asif NASEER2, Tomoki USHIYAMA1, Shigeru NAKAMURA3, Cho Thanda NYUNT4, Abdul MOIZ5, Katsuhiro ONUMA1, Toshio KOIKE1(1. Public Works Research Institute (PWRI), International Centre for Water Hazard and Risk Management (ICHARM), 2. University of Management and Technology, 3. Nippon Koei Co., Ltd., Research and development Center, 4. Myanmar Koei International ltd., 5. The University of Tokyo Institute for Future Initiatives)
[12]PREDICTION OF DAM STORAGE LEVELS AND THE VOLUME OF DISCHARGE ASSOCIATED WITH DISASTER PREVENTION MANAGEMENT DURING EXTREME FLOODING USING ELASTIC NET
*Shoma Wakasaya1, Makoto Nakatsugawa1, Yosuke Kobayashi1, Tomohiro Sando1(1. Muroran University)
[13]PROPOSAL OF A METHOD FOR CONSTRUCTING A RUNOFF INUNDATION MODEL IN HYDROLOGICAL DATA-SPARSE AREAS, USING SATELLITE DATA BASED ON A DAM FAILURE EVENT
*Kentaro Aida1, Daiki Kakinuma1, Katsuhiro Onuma1, Hiroyuki Ito1, Toshio Koike1(1. ICHARM/PWRI)
[1R107-13-8add]General discussion
[1R114-19-1add]Introduction
[14]AN OPERATION SUPPORTING SYSTEM FOR HYDROELTCTRIC DAMS TO IMPROVE FLOOD CONTROL AND POWER GENERATION
*Toshio Koike1, Shigeru Nakamura2, Cho Thanda Nyunt3, Tomoki Ushiyama1, Rasmy Mohamed1, Katsunori Tamakawa1, Hiroyuki Ito1, Koji Ikeuchi4, Eiji Ikoma4, Masaru Kitsuregawa4(1. Public Works Research Institute (PWRI), 2. Nippon Koei Co., Ltd., 3. Myanmar Koei Intl. ltd., 4. The University of Tokyo)
[15]APPLICABILITY OF JMA MSM AND GSM FOR PRE-RELEASE AT MULTI-PURPOSE DAMS IN JAPAN
*Hayato Fujita1, Rie Seto1, Shinjiro Kanae1(1. Tokyo Institute of Technology)
[16]PRIOR RELEASE OF MULTI-PURPOSE RESERVOIR BASED ON ENSEMBLE RAINFALL FORECAST AND ITS ERROR CHARACTERISTICS
*Daisuke Nohara1(1. Kajima Technical Research Institute)
[17]STUDY ON RESERVOIR OPERATION METHOD FOR FLOOD CONTROL BASED ON INUNDATION ANALYSIS BY USING +4K FUTURE SIMULATION OF D4PDF
*Maki Iwamoto1, Daisuke Nohara2, Yasuhiro Takemon3, Takahiro Koshiba3, Tetsuya Sumi3(1. Ministry of Land, Infrastructure, Transport and Tourism, 2. Kajima Technical Research Institute, 3. Disaster Prevention Research Institute, Kyoto University)
[18]EFFECTIVENESS OF HAMAO FLOOD CONTROL BASIN LOCATED IN THE UPPER REACH ABUKUMA RIVER AT TYPHOON NO.19, 2019
*Shota Harada1, Tadaharu Ishikawa2, Ryosuke Akoh3, Yasushi Itoh1(1. CTI ENGINEERING CO.,LTD., 2. Tokyo Institute of Technology, 3. Okayama University)
[19]A STUDY ON THE APPLICABILITY OF AI DAM OPERATION MODEL IN SNOWMELT SEASON FOR DAMS IN HEAVY SNOWFALL AREA
*Yosuke Akatsuka1, Rie Seto1, Shinjiro Kanae1, Shunji Kotsuki2, Satoshi Watanabe3(1. Tokyo Institute of Technology, School of Environment and Society Engineering, 2. Center for Environmental Remote Sensing Chiba University, 3. Disaster Prevention Research Institute, Kyoto University)
[1R114-19-8add]General discussion
[1R1-1730-1add]Committee of Hydraulic Engineering
[20]NUMERICAL SIMULATION OF THREE-DIMENSIONAL FINGERED FLOW AND QUANTITATIVE EVALUATION OF THE GENERATED FLOW FIELD
*Masahiko Saito1(1. Kobe University)
[21]PREDICTION METHOD OF LEAKAGE AND SAND BOILING BASED ON THE LEVEE FOUNDATION VULNERABILITY INDEX tb* , AND SOIL CHRACTERISTICS AT THE TOE OF LANDSIDE LEVEE
*Yutaka Satoh1, Shoji Fukuoka2(1. kabushikikaishya kitac, 2. chuodaigaku kenkyukaihatsu kikou)
[22]MECANISMS OF PIPING PROGRESS IN RIVER LEVEE FOCUS ON THE DEFORMATION IN THE FOUNDATION GROUND AND THE LOCALIZATION OF SEEPAGE FLOW BY SHEET-PILE INSTALLATION
*Tomohiro Ikami1, Kenichi Maeda1(1. Nagoya Institute of Technology )
[23]ASSESSMENT OF IMPACT OF KUMAMOTO EARTHQUAKE IN ASO NANGOU–DANI USING WATER BUDGET SIMULATION
*Hiroki Amano1, Tsutomu Ichikawa1, Kei Nakagawa2(1. Tokai University, 2. Nagasaki University)
[24]SHISHAMO SMELT SPAWNING SITES IN AZUMA RIVER AND IMPACTS OF SILT CONCENTRATION FROM LANDSLIDES
*Tomoko Kyuka4,1, Yasumitsu Kato2, Satomi Yamaguchi3, Kunihiro Tomita2, Hideto Kon4,5, Yasuyuki Shimizu4(1. Toyama Prefecture University, 2. Civil Engineering & Eco-Technology Consultants Co.,Ltd., 3. Civil Engineering Research Institute for Cold Region, 4. Hokkaido University, 5. Docon Co., Ltd.)
[25]ANALYSIS OF THE RELATIONSHIP BETWEEN SURFICIAL GEOLOGY AND PARAMETER IN RAINFALL RUNOFF MODELS AND ITS APPLICABILITY TO LARGE-SCALE FLOODS
*Naoki KOYAMA1, Kei KOURA2, Yuma OIKAWA3, Tadashi YAMADA4(1. Chuo University, 2. Chuo University, 3. Ministry of Land, Infrastructure, Transport and Tourism, 4. Research and Development Initiative, Chuo University)
[26]THE RELATIONSHIP AND TREND OF MONTHLY AVERAGE FLOW AND TOTAL PRECIPITATION OF VARIOUS PERIODS IN MOUNTAINOUS WATERSHEDS WITH DIFFERENT TYPES OF GEOLOGY
*Yuka Muto1, Takeyoshi Chibana1, Masafumi Yamada2, Satoshi Watanabe2(1. University of Tokyo, 2. Kyoto University)
[27]STUDY ON THE IMPROVEMENT OF FLOOD MITIGATION FUNCTIONS OF FOREST BY CHANGING NEEDLELEAF FOREST TO NEEDLELEAF-BROADLEAF MIXED FOREST
*Shotaro Ueda1, Takao Tamura1, Yasunori Muto1, Mahito Kamada1(1. Tokushima University)
[2R101-08-9add]General discussion
[28]INTEGRATED FUTURE PROJECTION FOR PROBABLE RAINFALL INTRODUCING INFORMATION THEORY
*Keita Shimizu1, Tomohito J. Yamada1(1. Hokkaido University)
[29]A STUDY ON THE APPLICATION OF MASSIVE ENSENBLE CLIMATE PREDICTION DATA TO FLOOD CONTROL PLANNING
*Masakuni Kaizuka1, Takahiro Shimada1, Yuichi Uehara1, Hiroshi Kanemoto1, Akinori Yamamoto1, Takanobu Shimada1, Yusuke Saeki2, Yasuhiro Kuriyama3, Koji Ikeuchi4, Satoshi Watanabe5(1. Yachiyo Engineering Ltd, 2. Shonaigawa Rive Office, 3. Numazu Office Of River & National Highway, 4. Tokyo University, 5. Kyoto University)
[30]A STUDY ON THE PROJECTED RANGE OF FUTURE CHANGES IN RIVER DISCHARGE BASED ON A LARGE ENSEMBLE CLIMATE SIMULATION
*Yohei Honda1, Satoshi Watanabe2, Takeyoshi Chibana1, Masafumi Yamada2, Shiori Abe3, Jun Kikuchi4, Ken Saito4, Shunsuke Ito4, Naoshi Fujisawa4, Koji Ikeuchi1(1. The University of Tokyo, 2. Kyoto University, 3. Mitsui Consultants Co., Ltd., 4. Yuzawa Office of River and National Highway, Tohoku Regional Development Bureau, Ministry of Land, Infrastructure and Transport)
[31]EVALUATION OF THE CLIMATE CHANGE EFFECT ON THE DISCHARGE OF THE SAYOGAWA RIVER BY MULTI-RAINFALL-RUNOFF MODEL ENSEMBLE SIMULATIONS
Kenichiro Kobayashi1, Yuiko Kawabe2, Satoshi Watanabe3, Toshikazu Kitano4, *Kyosuke Maruyama1(1. Kobe University, 2. Nara Prefecture, 3. Kyoto University, 4. Nagoya Institute of Technology)
[32]FUTURE PREDICTION OF RIVER FLOW AND OVERFLOW/EROSION POTENTIAL DUE TO GLOBAL WARMING IN TOYAMA PREFECTURE
*Shouma Ishikawa1, Shuichi Kure2(1. Toyama prefectural University Graduate School, 2. Toyama prefectural University)
[33]FUTURE CHANGE OF SNAKE LINE PATTERN AND ITS RELATION TO SEDIMENT DISASTERS
*Ying-Hsin Wu1, Eiichi Nakakita1, Akihiko Yamaji1(1. Kyoto University)
[34]EVALUATING THE RISK OF EROSION FROM RAPID FLOWING RIVERS USING A LARGE ENSEMBLE DATA-SET
*Tsubasa Kawai1, Makoto Nakatsugawa1, Junya Seki1(1. Muroran University)
[2R109-15-8add]General discussion
[2R1-1745-1add]Special Lecture
[35]BASIN-SCALE EVALUATION OF WATER DEMAND AND SUPPLY CONSIDERING URBAN WATER INTAKE AND DRAINAGE SYSTEM BY USING THE H08 GLOBAL HYDROLOGICAL MODEL
*Akiko Matsumura1, Hisashi Mitsuhashi2, Yoshito Suga3, Akio Terashima4, Takuhiro Kanayama5, Daikichi Ogawada1, Shinjiro Yano6, Naota Hanasaki7, Taikan Oki8(1. Research and Development Center, Nippon Koei Co., Ltd., 2. Department of Water Resources & Disaster Prevention Research, Infrastructure Development Institute-Japan, 3. Hokkaido Regional Development Bureau, Ministry of Land, Infrastructure, Transport and Tourism, 4. Tohoku Regional Agricultural Administration Office, Ministry of Agriculture, Forestry and Fisheries, 5. River and Water Resources Division, Tokyo Main Office, CTI Engineering Co., Ltd., 6. Suntory Products Ltd., 7. Center for Climate Change Adaptation, National Institute for Environmental Studies, 8. Graduate School of Engineering, The University of Tokyo)
[36]LONG TERM PROJECTION OF WATER RESOURCES OVER JAPAN WITH SUPER-HIGH RESOLUTION CLIMATE MODEL AND LANDUSE SCENARIO
*Kenji Tanaka1(1. Kyoto University)
[37]5-ARCMIN RESOLUTION ASSESSMENT OF WATER STRESS IN LARGE CITIES USING THE H08 GLOBAL HYDROLOGICAL MODEL
*Aoba Kato1, Keisuke Doi1, Shinjiro Kanae1(1. Tokyo Institute of Technology)
[38]REPRESENT HILL-VALLEY MOISTURE CONTRAST BY LAND SURFACE MODEL WITH LATERAL SUBSURFACE FLOW
*KOTA ADACHI1, DAI YAMAZAKI2, TOMOKO NITTA2(1. Urban Water Infrastructure Dept., NIPPON KOEI, 2. Institute of Industrial Science, University of Tokyo)
[39]IMPROVEMENT OF SOIL MOISTURE SCHEME WITH HORIZONTAL AND VERTICAL SOIL PARAMETER DISTRIBUTION IN A LAND SURFACE MODEL
*Kotaro Hamada1, Dai Yamazaki2, Tomoko Nitta2(1. Department of Civil Engineering, Graduate School of Engineering, the University of Tokyo, 2. Institute of Industrial Science, the University of Tokyo)
[40]ANALYTICAL LAND-VEGETATION-ATMOSPHERE MODEL TO STUDY SOIL MOISTURE BIMODALITY
*Abhinav Dengri1, Tomohito YAMADA2(1. Graduate School of Engineering, Field Engineering for the Environment, Hokkaido University, 2. Faculty of Engineering, Hokkaido University)
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