Bosai Solution ID : JBP00016
3 Dimensional Integrated Water Cycle Simulation Model (GETFLOWS)
Multiphase and Multicomponent Fluid Flow System
Hazard
Solution Purpose
Solution Theme
Research & Investigation
Risk Assessment
Disaster Prevention Plan
Infrastructure Technology
Building Technology
Information & Communication Technology
Education & Training
Technology Subject
Technical Research & Development
Feasibility Study
Hazard Identification
Hazard Simulation
Risk Monitoring
Impact & Damage Simulation
Legislation & Technical Regulations
Mitigation Plan
River & Basin
Dam & Reservoir
Coast
Urban
Facility for Disaster Prevention
Information Analysis & Judgement
Human Resource Development
Educational Publication
Training & Exercises
Advantages
3 Dimensional Integrated Water Cycle Simulation Model (GETFLOWS®) can simulate multiphase & multicomponent flouid flow and can reproduce actual environment with incorporating various data such as meteorological conditions in atmosphere, landuse and landcover on ground surface and geological structure in sub-surface.
*GETFLOWS is a registered trade mark of Geosphere Environmental Technology Corporation.
The developer of GETFLOWS: Geosphere Environmental Technology Corporation.
www.getc.co.jp/en
*GETFLOWS is a registered trade mark of Geosphere Environmental Technology Corporation.
The developer of GETFLOWS: Geosphere Environmental Technology Corporation.
www.getc.co.jp/en
Solution Illustrated
Concept of 3 Dimensional Integrated Water Cycle Simulation Model
Background
The world faces water crisis ever experienced due to rapid population grouwth and indurstrial development, climate change indueced by global warming etc.
Water crisis varies depending on local environment and water use by nations and reguions. Therefore, strutcure of water cycle shall be grasped and analyzed spesifically by region in order to make solution tfor water issues.
Water crisis varies depending on local environment and water use by nations and reguions. Therefore, strutcure of water cycle shall be grasped and analyzed spesifically by region in order to make solution tfor water issues.
Exposition of the Solution
Features of GETFLOWS
1. Three-dimensional modeling of complicated topography and geologic structure can be made.
2. Interaction between surface and subsurface fluid flow are seamlessly modeled without any a priori conditions.
3. Whole water cycle consisting surface and sub-surface water can be grasped visually.
4. Influence of climate change can be considered.
5. Artificial water use which have an influence on water circulation can be incorporated in the model.
6. Qualitative change in surface flow water and groundwater can be predicted such as water quality, water temperature, etc.
1. Three-dimensional modeling of complicated topography and geologic structure can be made.
2. Interaction between surface and subsurface fluid flow are seamlessly modeled without any a priori conditions.
3. Whole water cycle consisting surface and sub-surface water can be grasped visually.
4. Influence of climate change can be considered.
5. Artificial water use which have an influence on water circulation can be incorporated in the model.
6. Qualitative change in surface flow water and groundwater can be predicted such as water quality, water temperature, etc.
Achievements of Examples
- Kumamoto Cty and Surrounding Area
- Abukumagawa River Basin and Surrounding Areas
- Satagawa River Basin
- Kumagawa River Basin
- Yoshinogawa Upper River Basin
- Honmyogawa River Basin
- Beppu Bay Area
- Abukumagawa River Basin and Surrounding Areas
- Satagawa River Basin
- Kumagawa River Basin
- Yoshinogawa Upper River Basin
- Honmyogawa River Basin
- Beppu Bay Area
Corporate Profile
Yachiyo Engineering Co., Ltd.
5-20-8, Asakusabashi, Taito-ku, Tokyo, 111-8648, JAPAN
Tel. : +81-3-5822-2740
E-mail : intlyachiyo-eng.co.jp
Website : http://www.yachiyo-eng.co.jp/e/
