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Geothermal Design and Engineering
At London Geothermal Ltd, our integrated engineering team delivers end-to-end energy system design across the spectrum of shallow to deep geothermal technologies. We combine geoscience, thermodynamics, architecture, and energy system thinking to design systems that are low-carbon, cost-effective, and future-proof.
Each design is backed by thermo-economic modelling, carbon impact calculations, and readiness for ESCO deployment or investor pitching. Whether you’re decarbonizing a hospital, launching a district network, or repurposing a dormant O&G well, we engineer your transition.
Let us engineer the heat beneath your feet into your next climate solution.
5th Generation Heat Networks (5GDHC)
Underground Thermal Energy Storage (UTES)
Underground Thermal Energy Storage (UTES)
We design decentralized, ultra-low temperature thermal networks optimized for bidirectional flow. Our systems allow buildings to act as both heat producers and consumers, maximizing flexibility, efficiency, and integration with other renewables.
- Building-to-network balancing
- GSHP and UTES integration
- ESCO-ready configurations
Underground Thermal Energy Storage (UTES)
Underground Thermal Energy Storage (UTES)
Underground Thermal Energy Storage (UTES)
Our UTES systems are tailored to your geology and load profile, supporting seasonal heat storage, peak load shaving, and resilience.
- 🔹 Aquifer Thermal Energy Storage (ATES): Ideal for permeable formations, balancing heating & cooling seasons.
- 🔹 Borehole Thermal Energy Storage (BTES): Dense, modular thermal banks for long-term undergroun
Our UTES systems are tailored to your geology and load profile, supporting seasonal heat storage, peak load shaving, and resilience.
- 🔹 Aquifer Thermal Energy Storage (ATES): Ideal for permeable formations, balancing heating & cooling seasons.
- 🔹 Borehole Thermal Energy Storage (BTES): Dense, modular thermal banks for long-term underground heat retention.
- 🔹 Hybrid UTES + GSHP Systems: For optimal round-trip thermal efficiency.
Ground Source Heat Pump Systems (GSHPs)
Underground Thermal Energy Storage (UTES)
Ground Source Heat Pump Systems (GSHPs)
We design vertical, horizontal, slinky, and energy pile-based systems for residential, commercial, and district scale. Our designs are fully integrated with:
- Thermal modeling (GLHEPro, FEFLOW, TRNSYS)
- Fiber optic sensing (DTS/DAS-enabled)
- MCS/IGSHPA compliance
- Advanced BMS control strategies
Deep and Advanced Geothermal Projects
Deep and Advanced Geothermal Projects
Deep and Advanced Geothermal Projects
From slimhole exploration to full-field development, we provide end-to-end designs for:
- Conventional hydrothermal reservoirs & doublets
- Enhanced Geothermal Systems (EGS)
- Repurposing of Oil & Gas Wells for geothermal conversion
- Integration with surface heat pumps and UTES for hybrid yield maximization
Hybrid Projects with Solar and Wind
Deep and Advanced Geothermal Projects
Deep and Advanced Geothermal Projects
We design multi-input energy systems combining geothermal with solar PV, CSP, and wind technologies. This enhances resilience, diversifies asset utilization, and creates fully off-grid configurations where needed.
- ORC + PV + GSHP Tri-Generation Systems
- Solar-assisted Borehole Thermal Charging
- Wind-powered pump systems for remote sites
Greenhouse Design
Deep and Advanced Geothermal Projects
Greenhouse Design
Our team offers tailored greenhouse energy systems for year-round temperature control, including:
- GSHP + Solar PV integration
- Nighttime heating and daytime cooling loops
- Integrated frost protection systems
- Water reuse and condensate capture