Power-to-Heat: industrial electrification for energy-intensive industries

Heat as a system

Industrial heat is a network of production, distribution and demand. We approach it as an integrated energy system, not a boiler replacement.

Hybrid & electrified production

From gas boilers and CHP to electric boilers and heat pumps, the optimal pathway is often hybrid.

Competitive heat cost

Power-to-Heat only works with well-positioned electricity. We integrate on-site renewables to optimize heat cost per MWh_th.

Delivered as a service

We deliver heat per MWh_th through long-term, off-balance structures. No equipment purchase.

Heat as a system: your heat network is an energy architecture

Most industrial sites operate mature steam or hot water networks, often built around gas boilers or CHP. Electrification adds new production assets, but real value comes from system integration: aligning electricity, thermal demand, storage and renewable generation within one optimized framework.

• Power-to-Heat becomes effective when treated as part of your full on-site energy architecture

From fossil baseline to hybrid optimization

Industrial heat today is typically produced through gas boilers (~90% efficiency) and CHP installations. Electrification introduces electric boilers, high-temperature heat pumps and thermal storage.

• Electric boilers for steam and high-temperature needs
• High-temperature heat pumps for process heat up to 150°C
• Thermal storage for load shifting and process flexibility
• In many cases, hybrid configurations provide the most robust transition path, combining electric assets with existing gas capacity

Competitive electrons enable competitive heat

Power-to-Heat is fundamentally an electricity positioning strategy. PerPetum develops behind-the-meter renewable generation (solar, wind and storage) aligned with your consumption profile.

• Increased self-consumption of on-site PV
• Conversion of surplus renewable production into heat
• Reduced exposure to grid congestion
• Optimized €/MWh_th
• Where appropriate, maintaining part of the gas capacity can increase overall system feasibility

Heat as a controllable load

When integrated with storage and our Energy Management System, electrified heat becomes a flexible asset. The EMS continuously optimizes dispatch between electric and gas assets, alignment with renewable generation, and load shifting in response to price signals.

• Dispatch between electric and gas assets optimized in real time
• Alignment with renewable generation profiles
• Load shifting in response to market and grid price signals
• Heat production contributes to overall site optimization, rather than simply increasing electrical demand

Heat per MWh_th

Pay for delivered heat, not equipment.

Off-balance financing

Energy-as-a-Service and PPA structures.

Full-scope delivery

Engineering, permitting, EPC, O&M and continuous optimization.