Key Applications
- Tubular Configuration Generators
- Flat Configuration Generators
AI Data Centers — PyroDelta’s tubular thermoelectric generators harvest energy from high‑temperature liquid cooling loops, converting waste heat into continuous supplemental power without affecting cooling performance.
Combustion Engines — By replacing alternators with tubular generators, we capture heat from engine coolant and exhaust‑adjacent systems to significantly boost engine efficiency.
Semiconductor fabrication — fabs move enormous heat through DI‑water and glycol loops; supplemental power improves energy efficiency in a sector under pressure to decarbonize.
Hydrogen production — electrolyzers and fuel‑cell systems rely on hot‑liquid cooling; recovering even small amounts of power improves system economics.
Battery gigafactories — cell‑formation and testing stages generate sustained thermal loads; TEGs can reclaim energy from coolant circuits.
Chemical processing — reactors, distillation columns and exothermic processes all require liquid heat removal, creating ideal TEG integration points.
Metal refining — smelters and casting lines use high‑temperature water and oil loops; TEGs convert that waste heat into usable electricity.
Pulp and paper mills — digesters, evaporators and recovery boilers circulate hot liquids continuously.
District heating networks — municipal hot‑water loops offer long, stable thermal gradients perfect for distributed TEG deployment.
Geothermal plants — hot brine and secondary working fluids provide constant, high‑grade heat for power supplementation.
Oil & gas operations — produced water, drilling fluids and thermal‑enhanced recovery systems all circulate hot liquids.
Food processing — pasteurization, sterilization and high‑temperature cooking systems rely on hot‑water loops that run continuously.
Pharmaceutical manufacturing — bioreactors and fermentation systems generate steady thermal loads requiring liquid cooling.
Power plants — boiler feedwater, condensate return and auxiliary cooling loops provide stable, high‑temperature heat streams.
Across all of these sectors, the pattern is the same: wherever hot liquid is moving, PyroDelta can turn it into power.
- Heavy‑Lift Drones — extending lift capacity and range for logistics, construction, defense, emergency‑response platforms and more.
- Solar Power — harvesting panel‑surface and inverter heat to boost total system output—even at night.
- Electric Vehicles — reclaiming heat from motors, inverters, battery housings and power electronics.
- Robotics & Automation — actuators, servos and industrial robots generate localized heat ideal for micro‑recovery.
- Greenhouses & Controlled‑Environment Agriculture — supplemental power from heating pipes, boilers, circulation fans and climate‑control systems.
- Automotive Manufacturing — stamping, welding, casting and paint‑curing lines generate constant high‑grade surface heat.
- Aerospace & Aviation — auxiliary power from hot surfaces on engines, avionics bays and ground‑support equipment.
- Industrial Machinery — compressors, pumps, turbines and heavy equipment run hot for thousands of hours annually.
- Steel & Metals Production — furnaces, ladles, rollers and casting equipment radiate massive recoverable heat.
- Mining & Resource Extraction — crushers, mills, generators and mobile equipment operate with continuous thermal losses.
- Rail & Transportation — locomotives, braking systems and power electronics provide stable thermal surfaces.
- Oil Refining & Petrochemicals — reactors, crackers and distillation units maintain high‑temperature exterior surfaces.
- Construction Equipment — excavators, loaders, generators and hydraulic systems produce steady waste heat.
- Marine & Shipping — engines, exhaust housings and onboard power systems offer large, stable heat zones.
- Agricultural Machinery — tractors, combines and irrigation pumps run hot for long duty cycles.
- Backup Generators & Microgrids — diesel and gas gensets provide predictable, high‑temperature surfaces for supplemental power.
Across all of these sectors, the pattern is the same:
wherever hot liquid is moving, PyroDelta can turn it into power.
Flat Configuration Generators
- Heavy‑Lift Drones — extending lift capacity and range for logistics, construction, defense, emergency‑response platforms and more.
- Solar Power — harvesting panel‑surface and inverter heat to boost total system output—even at night.
- Electric Vehicles — reclaiming heat from motors, inverters, battery housings and power electronics.
- Robotics & Automation — actuators, servos and industrial robots generate localized heat ideal for micro‑recovery.
- Greenhouses & Controlled‑Environment Agriculture — supplemental power from heating pipes, boilers, circulation fans and climate‑control systems.
- Automotive Manufacturing — stamping, welding, casting and paint‑curing lines generate constant high‑grade surface heat.
- Aerospace & Aviation — auxiliary power from hot surfaces on engines, avionics bays and ground‑support equipment.
- Industrial Machinery — compressors, pumps, turbines and heavy equipment run hot for thousands of hours annually.
- Steel & Metals Production — furnaces, ladles, rollers and casting equipment radiate massive recoverable heat.
- Mining & Resource Extraction — crushers, mills, generators and mobile equipment operate with continuous thermal losses.
- Rail & Transportation — locomotives, braking systems and power electronics provide stable thermal surfaces.
- Oil Refining & Petrochemicals — reactors, crackers and distillation units maintain high‑temperature exterior surfaces.
- Construction Equipment — excavators, loaders, generators and hydraulic systems produce steady waste heat.
- Marine & Shipping — engines, exhaust housings and onboard power systems offer large, stable heat zones.
- Agricultural Machinery — tractors, combines and irrigation pumps run hot for long duty cycles.
- Backup Generators & Microgrids — diesel and gas gensets provide predictable, high‑temperature surfaces for supplemental power.
The broader opportunity — Waste heat is abundant across modern infrastructure, creating a vast landscape of potential uses for thermoelectric power. From industrial systems to transportation, buildings, and emerging electrified platforms, PyroDelta can tap into countless heat streams that currently go unused—unlocking cleaner, more efficient, and more resilient energy across the economy.