Phasic waste heat to power engine system
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The Future of Waste Heat to Power

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our technology

Heat Engine Technology Under Development

Phasic Energy is developing next-generation heat engine systems that convert low-grade waste heat into clean, distributed electricity. Building on our core expertise in advanced heat exchanger design, our heat engine program targets applications where waste thermal energy can be recovered and converted to power at scale.

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AI-Optimized Thermal Conversion

Advanced AI software continuously analyses system dynamics to maximize heat transfer efficiency and electrical output; turning low-grade waste heat into high-impact clean energy

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Resilient distributed Energy Resource (DER)

Each Heat Engine acts as a node in a self-reinforcing energy network—scalable, failure-resistant, and capable of delivering megawatt-scale power without central bottlenecks

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Ultra-Low Levelized Cost of Energy (LCOE)

Delivering a LCOE lower than wind or solar, Phasic Heat Engine offers one of the lowest unsubsidized clean energy costs on the market—significantly lowering operating expenses

Grid-independent power icon
Easily scalable Modular Architecture

Modular design allows for simplified deployment and rapid scaling. Scalable by design—deploy quickly and grow without infrastructure bottlenecks

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Integrated cooling Load Reduction

By reducing thermal loads by up to 10°C, Heat Engines ease strain on cooling systems, decreasing energy and water consumption across the facility

Scalable deployment icon
Carbon-Free, Compliance-Ready

Heat Engines help organisations meet increasing decarbonisation goals and emerging waste heat reuse regulations with on-site, zero-emission electricity

heat engine for industries

Heat Engine applications across industries

Data center waste heat recovery for power generation
| Low-Grade Heat Recovery |
01   |   04

Enhanced Performance for Data Centers

| 01 |
General Information

Our compact heat engines convert waste heat from servers into usable power, improving energy efficiency and offsetting grid load. Designed for integration into CDU loops or exhaust air systems, they enable low-ΔT electricity recovery.

| 02 |
Product Features
  • Reduces PUE by reclaiming low-grade heat as power
  • Cuts electricity costs in edge and hyperscale facilities
  • Enhances sustainability reporting and carbon offset metrics
| 03 |
Technical Information
  • Operates at ultra low 30°C ΔT
  • Plug-and-play modules for rack or row-level deployment
  • Compatible with standard air or liquid cooling loops
Defense and military waste heat to power applications
| Energy Generation |
02   |   04

National Defense & Autonomy

| 01 |
General Information

Our ruggedized heat engines convert exhaust and ambient heat into electrical power in forward-operating bases and vehicles. These systems enhance mission readiness by enabling fuel-efficient, decentralized power.

| 02 |
Product Features
  • Lowers diesel consumption and logistics risk
  • Enables silent watch with onboard power generation
  • Operates in fuel-scarce, off-grid environments
| 03 |
Technical Information
  • Operates reliably at 50–200°C source temps
  • Shock/vibe resistant up to MIL-STD-810H
  • Integrates with generator or APU exhaust systems
Industrial heat recovery and power generation facility
| Manufacturing & Heavy Industry |
03   |   04

Industrial Heat & Power Generation

| 01 |
General Information

Phasic heat engines harvest low- to mid-grade process heat and convert it into electricity, improving plant-wide energy intensity. These systems run continuously alongside existing CHP or WHR systems.

| 02 |
Product Features
  • Boosts overall plant efficiency with no fuel input
  • Provides secondary revenue from waste heat
  • Qualifies for clean energy and carbon credits
| 03 |
Technical Information
  • 60–200°C inlet temperature range
  • Modular units from kW to mW
  • Compatible with steam, oil, or gas exhaust sources
Geothermal power generation with heat engine technology
| Maximum Efficiency for Low-Grade Heat |
04   |   04

Geothermal Power Optimization

| 01 |
General Information

Our heat engines enable power production from low-enthalpy geothermal wells and abandoned hydrothermal assets. They deliver reliable baseload generation without steam turbines.

| 02 |
Product Features
  • Unlocks untapped geothermal resources under 250°C
  • Enables modular expansion with low CAPEX
  • Supports remote, autonomous deployment
| 03 |
Technical Information
  • Starts at geothermal brine temps of 70–150°C
  • 10–100kW modules; scalable to MW-scale arrays
  • Air or water cooled; no cooling tower required
Performance

Phasic Energy Performance

Phasic Energy’s next-generation Heat Exchangers (HX) and Heat Electrification Engines (HE) deliver remarkable results across various industries. Here are key performance numbers that showcase the impact of our technology:

Heat-to-Power Efficiency

| 01 |

+

5-10%

Minimum temperature Differential

| 02 |

35℃

Target Sectors

| 03 |

Data Centers • Defense • Geothermal

CO₂ Reduction

| 04 |

-

0.412 kgCO2 / kWh

Operating Lifetime

| 05 |

20 years

Low-grade heat source agnostic

| 06 |

exhaust gases, brine, oils

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