What We Do
⚡ Energy-Water Nexus Modeling:
We develop integrated models (using Anymod, Julia, LEAP, and Python) that assess synergies between water use and renewable energy systems, supporting sustainable irrigation, desalination, and wastewater reuse powered by clean energy.
⚡ Techno-Economic & Environmental Impact Analysis:
Our models combine cost-benefit analysis, lifecycle assessment, and carbon footprint evaluations to support nature-based solutions and virtual water reduction strategies.
⚡ Policy and Stakeholder Integration:
We provide tools and frameworks for participatory planning and impact-driven policy design, ensuring solutions are technically feasible, economically sound, and socially accepted. Relevant Projects & Experience
🔹 MG-FARM (LEAP-RE | Algeria & Morocco):
Hybrid energy-water models for optimizing renewable-powered farm systems, coupled with policy recommendations for agri-energy transition.
🔹 Swarm Grids for Rural Electrification (Uganda & Kenya):
Innovative decentralized models supporting water access through energy-sharing networks in underserved communities.
🔹 PRIMA Nexus Project – Enhancing Water Accountability (Jordan, Turkey, Morocco, Tunisia):
Smart integration of water-energy systems for sustainable agriculture. Developed optimization frameworks for improving water productivity and reducing virtual water loss.
🔹 IDEAL4GREEN – MSCA Horizon Europe (2025–2028):
Part of an international consortium addressing electrification and decarbonization challenges via local microgrids. Focus areas include green hydrogen for water and agri-food applications. What We Bring to Your Consortium
✅ Deep expertise in system modeling (energy-water-food)
✅ Tools for techno-economic and environmental optimization
✅ Experience with microgrid design, green hydrogen, and smart irrigation
✅ Strong track record in EU-funded collaborative projects
✅ Proven capacity for policy support and stakeholder engagement
