The efficient and environmentally friendly use of energy sources forms the cornerstone of sustainable energy management. In this context, ESCON's innovative Organic Rankine Cycle (ORC) system leads the way in future energy solutions by enabling energy production at low temperatures.
Using organic fluids instead of water, the ORC system has an electricity production capacity ranging from 200 kW to 10 MW. It stands out with high cycle and turbine efficiency, superior performance at partial load, operator-less operation capability, low maintenance costs, and the ability to operate in island mode.
High Efficiency at Low Temperatures
The ORC system offers an ideal technology for generating electricity from low-temperature sources (such as geothermal resources, biomass, or industrial waste heat). Organic fluids provide higher cycle efficiency compared to water, minimizing energy losses and enabling the effective use of resources.
High Performance and Low Operating Cost
ESCON's ORC system offers exceptional efficiency by delivering high performance even at partial load. With its high turbine and cycle efficiency, this system reduces operating costs to a minimum due to low maintenance expenses. Lower costs, in turn, provide businesses with higher profitability.
Operator-Free Operation and Continuous Availability
With its fully automated feature, the ORC system can operate continuously without human intervention. This reduces the need for personnel while ensuring continuity in energy production. The system, with its high availability, reliably generates energy and fully executes user commands.
Island Mode Operation – A New Dimension in Energy Security
The ORC system offers the ability to operate in island mode, providing off-grid energy production. This feature facilitates energy access in remote areas while enhancing energy security.
ESCON's Organic Rankine Cycle system, with its innovative technology and high efficiency, provides an environmentally friendly and economical energy solution, contributing to a sustainable future.