HEAT TO POWER
Hybrid Electrical Generation
Heat to Power
Heat to Power is one of the important technologies which will enable us to meet future international net zero carbon emissions targets. It will also form one of the main pillars of a vigorous and vibrant new green economy.
The conversion of heat into electrical power is key to waste heat energy recovery in industrial and commercial processes, to energy storage for renewable energy based electricity networks, and to increasing the efficiency of hydrogen fuel cells, which are expected to be the main source of motive power for commercial shipping and bulk transportation in the coming decades.
Why is Regensys Heat to Power Different?
The Regensys Heat to Power system is a game changing design.
The basic principles of the design and system are well understood. They are founded upon a well-established, reliable and proven technology dating back more than 150 years.
However, due to its unique, innovative and patented configuration, it is capable of providing substantially more power, efficiency and reliability than any previous heat engine design. Economically, and environmentally, it is a breakthrough technology.
How Does it Work?
Regensys works much in the same way as the earth’s atmosphere, but much more rapidly. Like the earth’s atmosphere, it contains multiple hot and cold and high and low pressure systems, working synchronously and interconnetedly.
Within each of the Regensys thermodynamic systems a gas is heated an expanded, and moves rapidly from the hot to the cold space, while at the same time exerting pressure on pistons which generate electricity.
And like the earth’s atmosphere Regensys can create substantial quantities of energy. It does this while enclosed within a compact and modular unit.
The design has no mechanical parts other than the power pistons, making it highly reliable and virtually maintenance free. As a double acting device with identical and optimised heat exchangers, it can additionally provide the highest practical power density and efficiency,
