Engineered for High-Fidelity Water & Energy Analysis
Traditional tools separate hydraulics from power. R-THYM couples them into a single, unified model to analyze transients, evaluate pump scheduling, and simulate co-located renewable energy sources in real time.
High-Fidelity MOC Transient Solver
Model rapid fluid transients, water hammer, and surge wave propagation using the Method of Characteristics (MOC). R-THYM solves the hyperbolic partial differential equations governing unsteady pipe flow natively in your browser using compiled WebAssembly.
- Simulate cavitation and column-separation pressure limits
- Analyze transient air release/vacuum valves, surge tanks, and control valves
- Direct equivalence to the open-source R-THYM MOC Solver C++ engine
Water-Energy Co-Simulation
Power is often the largest operating cost in water infrastructure. R-THYM co-simulates hydraulics and active power balance in a single topological graph. Model power links, fuel-based generators, battery storage, and weather-driven solar and wind components.
- Analyze pump operational costs based on Time-of-Use (TOU) electricity pricing
- Evaluate renewable integration (configuring solar, wind, and battery capacities) to offset grid power
- Simulate backup generator spooling, standby loads, and fuel depletion rates
Interactive Canvas & Control Loop Emulation
Build your system dynamically using a drag-and-drop web canvas. Interact with your model in real time—toggle pumps, open/close valves, and change reservoir heads during active simulations to watch waves propagate instantly.
- Program complex automation links (PID control, deadbands, flow control valves)
- Track simulated SCADA telemetry and real-time control dashboards
- Import and export standard EPANET `.inp` files (network layout, pipes, junctions, and tanks)
Simple, Transparent Plans
Get started with our free community tier or upgrade to professional to unlock unlimited capacity.
Perfect for students, learning, and evaluating the R-THYM environment.
- Active Projects: Up to 2 active models
- Model Size: Maximum 20 network objects per model
- Core Engine: Full access to EPS solver
- Support: Community forum access
Build digital twin simulations of energy and water systems of any size and configuration.
- Unlimited Projects: Build, save, and manage as many models as you need
- Unlimited Scale: No limits on the number of nodes, pipes, pumps, control valves, solar/wind assets, or battery components
- Advanced Co-Simulation: Run unlimited steady-state and extended-duration simulations to balance water hydraulics and energy footprints
- Customer Support: Access portal support for modeling or platform assistance
Build digital twin simulations of energy and water systems of any size and configuration, plus run surge analysis, fully dynamic transient modeling, and access our context-aware AI Engineering Co-pilot.
- Professional Benefits: Includes all Professional tier features and unlimited scale
- Surge & Transient Analysis: Protect pipeline infrastructure by analyzing water hammer, rapid valve closures, pump power outages, and surge protection devices
- AI Engineering Co-pilot: A context-aware assistant that analyzes your model topology and simulation logs to diagnose issues, recommend solutions, and actively modify elements on the canvas
- Premium customer support: Access to portal support and email
