Green Hydrogen & Advanced Process Engineering
We help energy developers, industrial operators and project developers make confident, evidence-based decisions on hydrogen from production to end-use.
Hydrogen production
From physics-based electrolyser models to project-level sizing and dispatch.
Electrolyser modelling
0D and 1D transient models for PEM and alkaline. Operational states, cold/hot starts, part-load curves, thermal dynamics.
Off-grid systems
MILP and metaheuristic sizing to minimise LCOH for standalone RES-electrolyser systems.
- Solar, wind, hybrid & battery storage
- Multi-stack, degradation-aware
On-grid & PPA systems
MILP dispatch optimisation for behind-the-meter and virtual-PPA configurations.
- Cost-minimising dispatch strategies
- Forecast-driven RES & price profiles
Industrial integration
Joint sizing & dispatch for refineries, steel, chemicals, cement.
- LCOH, NPV, IRR alongside operations
- Electrolyser, compressor, storage
Hydrogen distribution
Pipeline simulation and sizing for new networks and natural-gas repurposing.
Steady-state simulation
- Pressure drop, temperature, velocity
- Pipeline sizing for target flow rate
- Erosion velocity assessment
- Heat & mass balances
Dynamic simulation
Transient flow analysis for start-up, shutdown and flow-rate ramping scenarios.
Hydrogen end-use applications
Process simulation for e-fuels synthesis from hydrogen and CO₂ feedstocks.
E-fuels synthesis
Steady-state simulations for e-methanol, e-methane, e-ammonia and e-jet fuels.
- Heat & mass balances
- Waste heat & thermal integration
- Reactor sizing
- Energy & exergy efficiency
Have a hydrogen project in mind?
Tell us where you are and where you want to go.