Acclimatized Liquid Powered Dual Circuit Heat Pump
Abstract
An example heat pump system includes a first circuit including a first refrigerant configured to cycle a non-mechanical liquid to high critical vapor fluid phase in a closed circuit from an evaporator to an outlet of a liquid pump and a second circuit comprising a second refrigerant. The second circuit is configured to extract thermal energy from the first circuit to produce a heated fluid and a cooled fluid. The first circuit and the second circuit are configured in a mechanical relationship for transferring energy from the first circuit to the second circuit via a phase change of the first refrigerant through a dual chambered heat pump, the first circuit including a non-mechanical phase liquid to high critical vapor fluid phase.
Claims
exact text as granted — not AI-modified1 . A heat pump system comprising: a first circuit, including a first refrigerant, configured to cycle a non-mechanical liquid to high critical vapor fluid phase in a closed circuit from an evaporator to an outlet of a liquid pump; and a second circuit including a second refrigerant, wherein: the second circuit is configured to extract thermal energy from the first circuit to produce a heated fluid and a cooled fluid, the first circuit and the second circuit are configured in a mechanical relationship for transferring energy from the first circuit to the second circuit via a phase change of the first refrigerant through a dual-chambered heat pump, the first circuit includes the non-mechanical liquid phase to high critical vapor fluid phase cycle, the second circuit includes one or more vapor pumps, the one or more vapor pumps includes a linear motion piston pump, the one or more vapor pumps includes a discharge having about 325 psi and about 170° F., the linear motion piston pump includes an integrated alternating pole DC piston motor having a piston and a stator, the piston includes neodymium magnets disposed thereon, and the stator includes copper windings embedded in a Teflon sleeve disposed in a chamber wall of the integrated alternating pole DC piston motor to produce electricity as parallel work to vapor compression performed by the linear motion piston pump.
Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.