Urban & Rural
Hydraulic
Preventing Climate Changes Damages to Urban and Rural Ecosystems
SanCo is a technical consultancy company specializing in computer numerical simulation of urban and rural hydraulics.
SanCo plays a critical role in solving complex water-related challenges by using advanced modeling techniques. Our tasks involve a combination of data collection, simulation, and analysis, typically with the goal of optimizing hydraulic systems, flood management, drainage, and water distribution in both urban and rural settings.
Tasks Performed by SanCo | Key Activities |
Data Collection and Processing | Collect and integrate hydrological and spatial data for accurate simulation setup. |
Hydraulic Modeling and Simulation | Set up 2D/3D models to simulate urban drainage, rural water flow, and flood scenarios. |
Flood Risk Assessment | Simulate flood scenarios, create flood maps, and recommend flood mitigation measures. |
Stormwater and Drainage Design | Model and optimize urban stormwater networks and rural drainage systems. |
Water Distribution & Irrigation | Simulate urban water distribution systems and rural irrigation networks for efficiency optimization. |
Hydrological Impact Studies | Assess the hydrological effects of infrastructure development on water systems. |
Sediment Transport and Erosion Modeling | Model erosion and sediment deposition in rivers and stormwater systems. |
Flood Forecasting and Warning | Implement real-time flood forecasting systems for early warning. |
Climate Change Impact Analysis | Assess the potential impacts of climate change on water systems. |
Hydraulic Structure Design | Simulate the performance and optimize the design of hydraulic structures like dams and levees. |
Water Quality Modeling | Simulate the transport of pollutants and assess water quality impacts. |
Reporting and Visualization | Provide detailed reports and visualizations for decision-makers and stakeholders. |
1.
Hydraulic Modeling and Simulation
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Data Collection and Preparation: Gather and prepare the data required for building accurate hydraulic models.
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Hydrodynamic Flow Simulation: Run simulations to model the movement of water through natural and built environments.
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Water Quality Simulation:
Model the transport of pollutants and the impact of hydraulic systems on water quality.
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Infrastructure Performance and Optimization: Model and optimize hydraulic infrastructure such as levees, culverts, spillways, and water distribution systems.
2.
Flood Risk Assessment
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Hydrological and Hydraulic Modeling:
Develop and run hydrological and hydraulic models to simulate potential flood scenarios and assess flood risks.
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Flood Hazard Mapping:
Generate detailed flood hazard maps that visually represent the areas at risk of flooding.
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Flood Defense and Mitigation Options:
Develop flood defense strategies and recommend mitigation measures to reduce flood risk.
3.
Climate Change Impact Analysis
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Vulnerability and Risk Assessment: Assess the vulnerability of infrastructure, natural systems, and communities to climate change impacts.
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Energy Infrastructure and Renewable Energy Assessments: Assess the impact of climate change on energy systems and the potential for renewable energy integration to reduce vulnerabilities.
- Economic Cost-Benefit Analysis: Perform a cost-benefit analysis to weigh the financial costs of flood mitigation measures against the potential savings from avoided flood damage.
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