See Heat Differently
Underground heat is kinetic energy moving through crystallographic fabric—phonons, grain boundaries, and radiolysis micro-sources that conventional, surface-scale materials can't couple to. GEIOS can. Our non-extractive dual open-path geocasing (three nanoparticle-lined chambers) couples directly to that lattice energy, while SPARC nitrogen nanofoam safely stimulates pathways—no fracking, no produced brine.
IRIS-X Vanguard™
Rock-structure intelligence up to ~3 km before you drill.
Core Technologies
Nanobiomarkers + MOF Sensors
Pd-Cu/Ni-MOF arrays and aptamer-MOFs for gas speciation, redox & trace-ion signatures.
Radiogenic Decay Detection
Detects U-238, U-235, Th-232, and K-40 decay signatures. Maps radiogenic heat zones and optimal radiolysis corridors.
Geochemistry Fusion
Soil-gas + fluid inclusions + isotope ratios (δ¹³C-CH₄, ³He/⁴He, H₂/CH₄) for lithology & permeability proxies.
AI Fabric Mapping
Multimodal inversion classifies ultramafic/metamorphic units, brittle-ductile transitions, and thermal corridors.
Pre-Drill Advantages
Early 3D Mapping of Heat Signature
Pre-drill volumetric heat-flux mapping reveals subsurface thermal corridors and radiogenic zones before any drilling investment.
No Heavy Drilling Required
Shallow monitoring wells (120-150m) with radial arrays eliminate expensive exploratory deep drilling, reducing CAPEX by up to 98%.
Geochemistry Signature with Temperature
Integrated thermal-geochemical profiling correlates temperature gradients with isotope ratios and mineralogy.
Digital Twin Before Drilling
AI-powered digital twin models simulate reservoir behavior and predict thermal performance before steel touches ground.
AI-Fixed Location Precision
Machine learning algorithms pinpoint optimal pad locations with meter-scale accuracy for maximum heat flux.
Coverage Modes
Vanguard sweep (100,000 m² grids) → Focused transects → Pilot pads.
Quick Metrics
IRIS-X Value
De-risk pads before steel touches ground. Detect ultramafic/metamorphic corridors, brittle-ductile boundaries, and radiolysis-linked pathways with multi-sensor nanochemistry and AI fusion. Faster siting. Fewer dry pads. Higher bankability.
SPARC™ 50nm Nano-Engineered Stimulation
Nanoscale Foam Proppant with Matrix Phonon-aligned thermo-acoustic transfer with nitrogen hybrid nanofoam.
Materials Stack
SPARC Value: Replace low-flux metal interfaces with engineered nanofoam and phonon-guided transfer. More area, better wettability, damped thermal resistance, and stable performance in silica-heavy systems.
NanoVault™ Heat Nano-Exchanger
Next-generation thermal management achieving 96% efficiency with unprecedented stability.
The NanoVault™ heat nano-exchanger represents a breakthrough in geothermal thermal management, combining advanced nanofluid technology with intelligent thermal storage to deliver industry-leading heat retention and temperature stability for sustained, high-efficiency energy extraction.
Industry-leading heat transfer performance
Minimal thermal losses during operation
vs. ±15°C in conventional systems
Advanced Nanofluid Integration
NanoVault™ leverages GPIM (Geothermal Phonon Interface Material) nanofluid technology to achieve rapid, efficient heat transfer from subsurface formations to surface power generation systems.
Enhanced Phonon Transport: Optimized nanoparticle dispersion maximizes thermal conductivity and heat transfer rates
Anti-Fouling Protection: Prevents scale formation and corrosion in deep well structures for sustained performance
Rapid Thermal Response: 26°C/min ramp-up rate enables grid-responsive operation and demand-following capabilities
Closed-Loop Operation: Zero freshwater consumption with complete nanofluid recovery and reuse
Intelligent Thermal Storage
The NanoVault™ system incorporates advanced thermal storage technology that maintains precise temperature control while minimizing energy losses, ensuring consistent power output and operational efficiency.
Precision Temperature Control: ±1°C stability vs. ±15°C fluctuations in conventional systems
Thermal Buffer Capacity: Smooths fluctuations in subsurface heat flux for stable power generation
Load-Following Capability: Enables rapid response to grid demand changes without efficiency penalties
Multi-Product Integration: Supports simultaneous electricity generation, district cooling, and industrial thermal applications
Integration with GEIOS EQG Platform
The NanoVault™ heat nano-exchanger serves as the critical thermal interface between the subsurface SPARC™ system and surface power generation infrastructure. By combining advanced nanofluid technology with intelligent thermal storage, NanoVault™ enables the GEIOS EQG platform to achieve unprecedented efficiency and operational flexibility.
Working in concert with the SPARC™ phonon-aligned heat transfer system and the AI-powered GMS (GEIOS Management System), NanoVault™ continuously optimizes thermal extraction and distribution in real-time. This integrated approach ensures maximum energy capture from radiolysis-driven heat sources while maintaining the precise temperature control required for efficient power generation and co-product outputs.
Subsurface Integration
Interfaces with SPARC™ nanofoam for enhanced phonon transport
Optimizes heat extraction from dual-depth well configuration
Maintains stable flow through multi-thread pad architecture
Surface Integration
Delivers consistent thermal input to ORC/steam turbines
Enables cascading thermal utilization for cooling systems
Supports hydrogen liquefaction and co-product generation
Multi-Thread Pad Architecture
Ten dual-mode wells (injection + capture) per centralized pad via permanent geocasing; zonal isolation inside the same bore; sequenced duty cycles maintain pressure and maximize thermal sweep.
10-well configuration with centralized surface pad
Dual-mode operation for injection and heat capture
Permanent geocasing with zonal isolation
Sequenced duty cycles for optimal pressure management
10-Well Starburst Configuration
Applications & Co-Products
Versatile platform delivering multiple energy products and services.
Compliance & Safety
Closed-loop operation with no produced brines, ensuring zero environmental discharge
Low acoustic footprint for minimal community impact and noise pollution
Advanced chemistry management preventing scale, corrosion, and operational downtime
Lifecycle carbon math demonstrating carbon-negative operations across all business models
Ready to Transform Your Energy Infrastructure?
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