大気・水(Ⅱ) <2019.2.19> |
C01 |
14:15
|
Water, Water Everywhere, / Nor Any Drop to Drink- An Overview of Drinking Water Crisis of Southwestern Coastal Villages of Bangladesh
|
| 〇Gulsan Ara PARVIN・Rajib SHAW・Rajarshi Das GUPTA・Hajime NAKAGAWA |
C02 |
14:30
|
天竜川における出水履歴が河床の水質機能に及ぼす影響
Effects of Previous Floods on Riverbed Function for Water Purification in the Tenryu River
|
| 〇高橋真司・兵藤誠・角哲也・竹門康弘 |
C03 |
14:45
|
重力観測衛星GRACEを用いた全球陸域水循環モデルの改良
Improvement of global water cycle model in-land using GRACE satellite
|
| 〇塩尻大也・田中賢治・田中茂信 |
C04 |
15:00
|
Characteristics of Water Resources Salinization Issues in Central Asia
|
| 〇Temur KHUJANAZAROV・Kenji TANAKA・Kristina TODERICH・Shigenobu TANAKA |
C05 |
15:15
|
作物成長過程を考慮したダム灌漑用水補給の高度化に関する研究
Study on Advanced Irrigation Water Supply from Dam Reservoir Considering Crop Growth Process
|
| ○齋藤宏樹・堀智晴 |
C06 |
15:45
|
The Impact of Climate Change on Water Resources in the Kiso River Basin Using 1km Resolution Data
|
| 〇Maochuan HU・Kenji TANAKA・Temur KHUJANAZAROV・Shigenobu TANAKA・Takahiro SAYAMA |
C07 |
16:00
|
d4PDF(RCP8.5,SSTアンサンブル)を用いた日本の将来の水文循環に及ぼす影響の不確実性評価
UNCERTAINTY EVALUATION OF IMPACT ON FUTURER HYDROLOGICAL CYCLE IN JAPAN USING d4PDF (RCP8.5,SST ENSEMBLE)
|
| 正木隆大 |
C08 |
16:15
|
Comprehensive Performance Evaluation of LID Practices: Case Study in Tianjin, China
|
| 〇Yu LI・Kenji TANAKA・Maochuan HU・Shigenobu TANAKA |
C09 |
16:30
|
Influence of Physical Clogging on Infiltration and Groundwater Recharge
|
| 〇Dina ELLEITHY・Sameh A. KANTOUSH・Tetsuya SUMI |
C10 |
16:45
|
Use Constant-head Injection Test for In-Situ Estimation of Hydraulic Conductivity in Gravel Bed Rivers.
|
| 〇XIAO ENBANG・Yasuhiro TAKEMON・Sohei KOBAYASHI・Tetsuya SUMI |
C11 |
17:15
|
粒子・流体間の力学連成を考慮した多数の礫粒子輸送の数値計算
Numerical Predictions for Transportation of Multiple Gravel Particles Considering Mechanical Interactions between Particles and Fluids
|
| ○柳博文・牛島省・鳥生大祐 |
C12 |
17:30
|
Numerical Simulation of Bed Deformation of Braided River Considering Sediment Sorting
|
| 〇SHAMPA・Yuji HASEGAWA・Hajime NAKAGAWA・Hiroshi TAKEBAYASHI・Kenji KAWAIKE |
C13 |
17:45
|
Better Topographical Data Gives a Better Simulation of Sediment Transport: A Step towards the Refinement of Terrain Elevations
|
| 〇Rocky TALCHABHADEL・Hajime NAKAGAWA・Kenji KAWAIKE |
C14 |
18:00
|
Sensitivity Analysis of the Flow and Sediment Transport of Vietnamese Mekong Delta Using Coupled Telemac-2D and Sisyphe
|
| 〇Doan Van BINH・Sameh KANTOUSH・Tetsuya SUMI・Nguyen Thi Phuong MAI |
C15 |
18:15
|
流域スケールの降雨土砂流出モデルを用いた土石流発生の予測
A method to predict debris flow occurrence based on a baisn scale rainfall and sediment runoff model
|
| 〇藤田正治・鈴木豪太・山野井一輝 |
C16 |
18:30
|
Prediction of Morphological Changes for the Effective Riverbank Protection Measures using 2D Numerical Model: A Case of Uji River, Japan
|
| 〇Saroj KARKI・Hajime NAKAGAWA・Kenji KAWAIKE・Masakazu HASHIMOTO |
C17 |
18:45
|
天竜川の砂州における湧水流路の形成過程と生息場機能
Formation Process and Habitat Function of Spring Flow Channels on the Sandy Bars in Tenryu River
|
| 〇山﨑弘美・竹門康弘・鳥居高明・高橋真司・兵藤誠・角哲也 |
大気・水(Ⅳ) <2019.2.20> |
C18 |
9:15
|
津波遡上計算のためのSGS建物抗力モデルの開発
SGS Drag Force Model for Numerical Modeling of Tsunami Inundation
|
| 〇福井信気・森信人・Katsuichiro GODA |
C19 |
9:30
|
沿岸域を対象とした津波波高の確率論的評価及び不確実性解析
Stochastic Analysis and Uncertainty Assessment of Tsunami Height in Coastal Area
|
| ◯宮下卓也・森信人 |
C20 |
9:45
|
台風21号Jebi高潮の予測不確実性について
Uncertainty of storm surge prediction of Typhoon Jebi 2018
|
| 〇森信人・竹見哲也 |
C21 |
10:00
|
Physical Modeling of Coastal Protection by Mangrove Trees against Storm Waves
|
| 〇Che-Wei CHANG・Nobuhito MORI・Naoki TSURUTA・Kojiro SUZUKI |
C22 |
10:15
|
Downscaling of Coastal Current System on Ibaraki Coast
|
| 〇Josko TROSELJ・Yuki IMAI・Junichi NINOMIYA・Nobuhito MORI |
C23 |
10:45
|
打上げ・越波統合算定モデルの適用性拡張に関する研究
An Study on Applicability of Integrated Formula of Wave Overtopping and Runup Modeling
|
| 〇由比政年・間瀬肇・平石哲也・川崎浩司・金 洙列・楳田真也・水谷英朗 |
C24 |
11:00
|
Toppling Failure by wave impact at northen part of Bengkalis Island Indonesia
|
| 〇Noerdin BASIR・Hiraishi TETSUYA |
C25 |
11:15
|
日本周辺の極端波浪の長期解析と気象要因
Relation between Extreme Waves around Japan and Weather Systems
|
| 〇千綿蒔・森信人・志村智也・久保田博貴 |
C26 |
11:30
|
Global Track Analysis of d4PDF Tropical Cyclones
|
| 〇Adrean WEBB・Tomoya SHIMURA・Nobuhito MORI |
C27 |
11:45
|
ラングミュア乱流の観測(その二)
Observation of Langmuir Turbulence: Part II
|
| ○吉川 裕・馬場 康之・水谷 英朗・久保 輝広 |
大気・水(Ⅵ) <2019.2.20> |
C28 |
14:00
|
流木の挙動安定性と橋梁閉塞の関係に関する研究
Relationship between Stability Characteristics of Driftwood and Bridge Blockage Property
|
| 〇山上路生・岡本隆明 |
C29 |
14:15
|
水制群を設置した蛇行流路の変動に関する研究
Bed Deformation of Erodible Meandering Channel with Spur Dikes
|
| 〇中村隆志・中川一・川池健司 |
C30 |
14:30
|
木津川の河床地形管理における伝統的河川工法「聖牛」の活用
An application of traditional river works "Seigyu" to river bed management in the Kizu River
|
| 〇田住真史・小林草平・角哲也・竹門康弘 |
C31 |
14:45
|
バンダル型水制の透過/不透過部の割合が浮遊砂の挙動に与える影響
Effects of the Permeable-Impermeable Ratio of Bandals on the Suspended Sediment Behavior around the Structures
|
| 〇対修一・中川一・川池健司 |
C32 |
15:00
|
ダムの常用洪水吐ゲートの機能低下に伴う洪水リスク評価に関する検討
Study on Flood Risk Assessment Caused by Functional Deterioration of Dam Flood Control Gates
|
| 〇高田翔也・角哲也 |
C33 |
15:15
|
河床攪乱指標を用いたダム建設影響の評価手法の提案
Proposal of evaluation method of dam construction impact using riverbed disturbance indices
|
| ○波多野圭亮・竹門康弘・角哲也 |
C34 |
15:45
|
木製可動型津波減勢工の効果に関する基礎的実験
Fundamental Experiment on Simple Removable Tsunami Barrier Consisting of Woods
|
| 〇平石哲也・飯干歩・濱田英外 |
C35 |
16:00
|
河道外貯留方式ダムの類型化及びその防災・環境への効果に関する研究
Study on Classification of Off-Stream Reservoirs and those Effects on Disaster Prevention and Environment
|
| 〇角 哲也・石塚淳也・小林草平・竹門康弘 |
C36 |
16:15
|
Reservoir Sedimentation at Wadi System: Challenges and Management Strategies
|
| 〇Mohamed SABER・ Sameh KANTOUSH・Tetsuya SUMI・Tahani ALHARRASI |
C37 |
16:30
|
Monitoring of Flash Floods Using Image-Based Techniques
|
| 〇Mahmood M. AL MAMARI・Sameh A. KANTOUSH・Sohei KOBAYASHI・Masafumi TAZUMI・Yasuhiro TAKEMON・Tetsuya SUMI |
C38 |
16:45
|
膨大なアンサンブル情報を用いた降水量極値の確率分布の将来変化
Future Change in Probability Distribution of Extreme Precipitation using a Large Ensemble of Climate Simulations
|
| 田中茂信 |
C39 |
17:00
|
洪水防御に係る2017年ドイツ水管理法(Wasserhaushaltsgesetz)改正の意義
The Meaning of New German Federal Water Act (Wasserhaushaltsgesetz) 2017 about Flood Protection
|
| 重本達哉 |