Projects

Our Services at a Glance

Stormtic offers end-to-end hydrological engineering services designed to tackle climate uncertainty and urbanization challenges. With expertise spanning flood risk modeling, sustainable drainage design, and coastal resilience planning, we deliver solutions that protect communities, comply with regional standards, and adapt to future climate scenarios. Our work is rooted in advanced data analysis, local regulatory knowledge, and a commitment to ecological stewardship.

Urban Flood Risk Modeling

Extreme weather events are increasingly challenging urban infrastructure, necessitating resilient flood management strategies. Stormtic specializes in integrated flood risk assessments and adaptive drainage solutions tailored to high-density urban areas. Our projects include the design of multi-tiered flood mitigation systems in rapidly expanding city centers, integrating underground detention, permeable landscapes, and controlled discharge mechanisms to minimize flood impacts in both existing and newly developed districts.

Hydrologic and hydraulic modeling

Real-time flood forecasting and emergency response planning are vital for disaster mitigation. Stormtic implements intelligent monitoring and early-warning systems that integrate hydrological simulations with real-time sensor data. We develop rapid-deployment flood defense mechanisms, including temporary barrier systems and automated flood routing solutions, ensuring swift responses to extreme flood events in both urban and rural settings.

Coastal and Estuarine Hydrodynamics

Coastal cities face complex hydrodynamic interactions between tidal surges, stormwater discharge, and land-based runoff. We develop predictive models to assess coastal flood risks and design engineered interventions such as dynamic tidal barriers, eco-sensitive shoreline reinforcements, and subsurface infiltration networks. Our work has supported coastal resilience projects in regions prone to sea level rise, ensuring sustainable development in vulnerable coastal zones.

Large-Scale Watershed Management

The balance between urban expansion and watershed preservation requires sophisticated hydrological planning. Stormtic provides watershed-scale modeling and design strategies that optimize stormwater conveyance while safeguarding ecological corridors. Our experience includes the implementation of nature-based stormwater retention networks, automated flow diversion systems, and adaptive land-use planning to mitigate downstream flooding and enhance groundwater recharge.

Complex Hydraulic Infrastructure Design

With urban development encroaching on natural watercourses, innovative engineering is essential for maintaining hydrological stability. We design and implement complex hydraulic structures such as automated flood gates, multi-level retention basins, and subterranean stormwater conveyance tunnels. Our expertise extends to optimizing these systems within constrained urban environments, ensuring flood resilience without compromising land availability for development.

Industrial and Mining Water Management

Industrial operations generate high-volume, often pollutant-laden runoff that must be managed to prevent environmental degradation. Stormtic develops tailored hydraulic containment and treatment solutions for heavy industry and mining sites, ensuring compliance with environmental regulations. Our projects encompass multi-stage sedimentation basins, stormwater capture and recycling systems, and chemically enhanced treatment units designed to handle high contaminant loads.

Rural and Agricultural Water Systems

Water security in agricultural regions is increasingly threatened by unpredictable climate patterns. Our expertise extends to precision irrigation planning, flood-protected agricultural drainage, and sustainable catchment management. We design resilient water storage and distribution networks, integrating controlled drainage and aquifer recharge systems to optimize water use efficiency in large-scale farming operations.

Urban Stormwater Quality Management

Effective stormwater quality control is critical in preserving urban waterways. We engineer advanced stormwater treatment systems that integrate biofiltration, constructed wetlands, and proprietary treatment technologies to remove contaminants before discharge. Our projects range from decentralized urban stormwater treatment hubs to large-scale pollutant separation infrastructure embedded within municipal networks.