Numerical Modelling Solutions for Water Resources Engineering

Our Experties

STVENANT LLP delivers advanced modelling and engineering solutions in hydrology, coastal systems, and hydraulic structures—powered by globally trusted tools and data-driven insights. We design resilient, sustainable water systems that balance technical precision with environmental responsibility.

Flood Modelling

We specialise in catchment hydrology modelling, rainfall–runoff analysis, flood forecasting, river morphology studies, sediment transport analysis, dam break simulations, and groundwater modelling. Our data-driven approach ensures accurate water flow predictions and effective flood risk management.

Coastal & Marine Studies

From tidal hydrodynamics to wave climate modelling, storm surge impact assessments, shoreline change detection, dredging impact analysis, beach and estuary morphology, and cyclone/tsunami modelling—we provide reliable insights for sustainable coastal planning and marine hazard mitigation.

Simulation of aquifer behavior under varying recharge and pumping conditions and prediction of contaminant transport to assess long-term water quality and sustainability.

Ground Water Modelling

a man riding a skateboard down a street next to tall buildings

Water Quality Modelling

Simulating the transport and fate of pollutants in surface and groundwater systems and assessing the impacts of natural and human activities on water chemistry to support management and remediation strategies.

Technology & Tools

We use globally trusted modelling platforms, integrated with GIS and remote sensing, to deliver accurate, validated, and actionable results.

We leverage globally trusted modelling platforms, including:
HEC-HMS, SWAT, MIKE NAM, MIKE Basin, HEC-RAS, MIKE+, TUFLOW, MIKE FLOOD, MIKE SHE, MODFLOW, and OpenFOAM.

Our solutions integrate GIS-based spatial analysis and remote sensing datasets, ensuring results that are accurate, validated, and actionable.

Modeling Solutions

We provide a comprehensive suite of numerical modelling technologies for hydraulic, marine, and coastal research applications. Backed by several years of project experience, our designs are rigorously tested, validated, and proven in practice.

Sand formation on a beach with an eroded ridge in the foreground. Waves crash in the background under a cloudy sky, creating a dynamic and natural coastal scene.

Concrete wave breakers are positioned along a coastline with clear blue water extending towards the horizon. The sky is bright with a few fluffy clouds scattered across it, and a distant city skyline is faintly visible against the horizon.

A coastal scene featuring an old, weathered pier or sea defense structure extending into the ocean. The foreground includes a concrete wall and sandy beach area, leading to the structure that appears partially built on stilts. The ocean is relatively calm with gentle waves under a clear sky.