Advanced modelling and optimisation of integrated biofuel and e-fuel energy systems.
Technical Capabilities
CORE EXPERTISE AREAS
Biofuel Systems Modelling
Modelling of fuel production pathways using agricultural waste, OFMSW, and used cooking oil, including hydrogen, ethanol, methane, biodiesel, and sustainable aviation fuel.
E-Fuel Systems & Hydrogen Integration
Integration of hydrogen production from electrolysis with CO₂ capture systems to model synthetic fuel pathways including e-ammonia, e-methanol, e-methane, and
Carbon Capture & Resource Allocation
Assessment and allocation of CO₂ from industrial point sources including power plants, cement industries, and gas flare sites for utilisation in fuel production systems.
Spatial & National Scale Optimisation
Large-scale optimisation across multiple regions, including 774 LGAs in Nigeria, 292 sub-counties in Kenya, and 212 municipalities in South Africa.
SYSTEM INTEGRATION
Integrated Energy Systems Approach
- feedstock availability and logistics
- hydrogen production systems
- CO₂ capture and utilisation
- multi-fuel production pathways
Geographic Scope
- Nigeria
- 36 states + FCT • 774 LGAs
- Kenya
- 292 sub-counties
- South Africa
- 212 municipalities
TOOLS & METHODS
Modelling Tools & Methods
- Techno-economic analysis (TEA)
- Mixed-integer linear programming (MILP)
- Spatial optimisation
- Resource assessment & GIS
- Energy system integration
- Supply chain optimisation
- Transport and logistics modelling
- Scenario analysis
Apply This Expertise to Your Project
We support organisations in evaluating and optimising complex energy systems across biofuel and e-fuel pathways.