Converting low-grade waste heat into electricity and cooling.
Our patented method Hydrostatic Energy Cycle (HEC) enables industrial facilities to convert low-temperature waste heat into usable resources.
HEC improves overall efficiency while reducing both operational costs and emissions.
ENERGY SOURCE
Powered by waste heat
The HEC method are designed to operate on low-grade waste heat from industrial processes, typically within the temperature range of 50–100°C.
By capturing and reusing excess heat, industries can turn an underutilized byproduct into a valuable energy resource – without the need for additional primary energy input.
HOW IT WORKS
Hydrostatic Energy Circle (HEC)
By creating and managing a pressure imbalance within a closed system, energy is generated as the system returns to a balanced state. This energy is captured by a hydrostatic balance engine and converted into electricity and usable cooling.
The process operates continuously in a controlled cycle, enabling efficient recovery of energy from low-temperature waste heat.
KEY COMPONENT
Hydrostatic Balance Engine
Central to the HEC system is the hydrostatic balance engine. It captures the net force generated by controlled pressure imbalances and converts it into mechanical work.
By facilitating a continuous cycle between imbalance and equilibrium, the engine enables the efficient transformation of low-grade waste heat into electricity. Furthermore, the process generates process cooling, creating an additional revenue stream for the operation.
