Dual source heat pump system
Abstract
A thermal system for a facility includes a facility fluid circuit, a ground-source heat pump, and an air-source heat pump. The ground-source heat pump and the air-source heat pump each include a fluid circuit connected to the facility fluid circuit in parallel via a common facility heat exchanger. The ground-source heat pump includes a ground-source heat exchanger for transferring heat between a ground-source working fluid and a downhole fluid of a downhole fluid circuit. The air-source heat pump includes an air-source heat exchanger for transferring heat between an air-source working fluid and an ambient air. Heat can be transferred, at the facility heat exchanger, between the facility fluid and one or more of the ground-source working fluid or the air-source working fluid in order to provide thermal heating, cooling, or both to the facility.
Claims
exact text as granted — not AI-modified1 - 20 . (canceled)
21 . A thermal system for a facility, comprising:
a facility fluid circuit, including:
a facility fluid for circulating in the facility to provide thermal conditioning of the facility; and
a facility heat exchanger for exchanging heat with the facility fluid;
a ground-source heat pump thermally connected to the facility fluid circuit, including:
a ground-source heat pump fluid circuit;
a ground-source heat exchanger positioned on the ground-source heat pump fluid circuit and configured to exchange heat with a downhole fluid;
the facility heat exchanger positioned on the ground-source heat pump fluid circuit; and
a ground-source working fluid for circulating through the ground-source heat pump fluid circuit to exchange heat with the facility fluid at the facility heat exchanger, and to exchange heat with the downhole fluid of a downhole fluid circuit at the ground-source heat exchanger; and
an air-source heat pump thermally connected to the facility fluid circuit, including:
an air-source heat pump fluid circuit;
an air-source heat exchanger positioned on the air-source heat pump fluid circuit and configured to exchange heat with an ambient air;
the facility heat exchanger positioned on the air-source heat pump fluid circuit; and
an air-source working fluid for circulating through the air-source heat pump fluid circuit to exchange heat with the facility fluid at the facility heat exchanger, and to exchange heat with the ambient air at the air-source heat exchanger,
further comprising a hot fluid heat exchanger connected to one or more of the ground-source heat pump fluid circuit or the air-source heat pump fluid circuit and configured, via one or more fluid distribution devices, to transfer heat to a hot facility fluid from one or more of the ground-source working fluid or the air-source working fluid.
22 . The thermal system of claim 21 , further comprising the downhole fluid circuit, including:
a heat exchanger configured to exchange heat with a geological formation; the ground-source heat exchanger; and the downhole fluid for circulating through the downhole fluid circuit to exchange heat with the ground-source working fluid at the ground-source heat exchanger and to exchange heat with the geological formation at the heat exchanger.
23 . The thermal system of claim 21 , wherein the ambient air includes at least some exhaust air exhausted from the facility such that the air-source heat exchanger is configured to exchange heat with the at least some exhaust air.
24 . The thermal system of claim 21 , wherein the ground-source heat pump and the air-source heat pump each includes one or more compressors and one or more expansion valves for exchanging heat based on performing mechanical work on the ground-source working fluid and the air-source working fluid, and wherein the ground-source heat pump and the air-source heat pump are each reversible heat pumps for transferring heat to and from the facility fluid.
25 . The thermal system of claim 21 , further comprising:
one or more fluid distribution devices included on the air-source heat pump fluid circuit for directing the air-source working fluid between the air-source heat exchanger and the facility heat exchanger; one or more fluid distribution devices included on the ground-source heat pump fluid circuit for directing the ground-source working fluid between the ground-source heat exchanger and the facility heat exchanger; and a controller for controlling an operation of the thermal system based on controlling the one or more fluid distribution devices of the air-source heat pump fluid circuit and of the ground-source heat pump fluid circuit.
26 . The thermal system of claim 21 , wherein the ground-source heat pump fluid circuit and the air-source heat pump fluid circuit are independent and are connected to the facility fluid circuit in parallel.
27 . The thermal system of claim 21 , wherein the thermal system is configured to operate in at least one of a dual heating mode to provide heating to the facility with the ground-source heat pump and the air-source heat pump through the facility heat exchanger and a dual cooling mode to provide cooling to the facility with the ground-source heat pump and the air-source heat pump through the facility heat exchanger.
28 . The thermal system of claim 21 , further comprising at least one of a supply heat exchanger connected to the downhole fluid circuit and configured, via one or more fluid distribution devices, to exchange heat between the downhole fluid and a supply flow of the facility fluid and of an exhaust heat exchanger connected to the downhole fluid circuit and configured, via one or more fluid distribution devices, to exchange heat between the downhole fluid and an exhaust flow of the facility fluid.
29 . The thermal system of claim 21 , wherein the hot fluid heat exchanger is positioned directly downstream from one or more compressors of the ground-source heat pump, directly downstream from one or more compressors of the air-source heat pump, or both.
30 . The thermal system of claim 21 , further comprising:
one or more sensors for measuring one or more of:
a temperature at one or more locations of the facility;
a temperature of the facility fluid at one or more locations of the facility fluid circuit;
a temperature of the ambient air;
a temperature of the air-source working fluid at one or more locations of the air-source heat pump fluid circuit;
a temperature of a geological formation of the downhole fluid circuit;
a temperature of the downhole fluid at one or more locations in the downhole fluid circuit; or
a temperature of the ground-source working fluid at one or more location of the ground-source heat pump fluid circuit;
one or more fluid distribution devices, including one or more valves, for configuring the thermal system into a plurality of operating modes to provide one or more of heating or cooling to the facility with one or more of the air-source heat pump or ground-source heat pump; and a controller for controlling the one or more fluid distribution devices to configure the plurality of operating modes of the thermal system based on one or more measurements from the one or more sensors.
31 . A thermal system for a facility, comprising:
a facility fluid circuit, including:
a facility fluid for circulating in the facility to provide thermal conditioning of the facility; and
a facility heat exchanger for exchanging heat with the facility fluid;
a ground-source heat pump thermally connected to the facility fluid circuit, including:
a ground-source heat pump fluid circuit;
a ground-source heat exchanger positioned on the ground-source heat pump fluid circuit and configured to exchange heat with a downhole fluid;
the facility heat exchanger positioned on the ground-source heat pump fluid circuit; and
a ground-source working fluid for circulating through the ground-source heat pump fluid circuit to exchange heat with the facility fluid at the facility heat exchanger, and to exchange heat with the downhole fluid of a downhole fluid circuit at the ground-source heat exchanger; and
an air-source heat pump thermally connected to the facility fluid circuit, including:
an air-source heat pump fluid circuit;
an air-source heat exchanger positioned on the air-source heat pump fluid circuit and configured to exchange heat with an ambient air;
the facility heat exchanger positioned on the air-source heat pump fluid circuit; and
an air-source working fluid for circulating through the air-source heat pump fluid circuit to exchange heat with the facility fluid at the facility heat exchanger, and to exchange heat with the ambient air at the air-source heat exchanger,
further comprising an inlet for providing at least some of the facility fluid through the inlet as an inlet flow of the facility fluid, and an outlet for exhausting at least some of the facility fluid through the outlet as an exhaust flow of the facility fluid, and further comprising a recovery heat exchanger for exchanging heat between the inlet flow and the exhaust flow.
32 . A thermal system for a facility, comprising:
a facility fluid circuit, including:
a facility fluid for circulating in the facility to provide thermal conditioning of the facility; and
a facility heat exchanger for exchanging heat with the facility fluid;
a ground-source heat pump thermally connected to the facility fluid circuit, including:
a ground-source heat pump fluid circuit;
a ground-source heat exchanger positioned on the ground-source heat pump fluid circuit and configured to exchange heat with a downhole fluid;
the facility heat exchanger positioned on the ground-source heat pump fluid circuit; and
a ground-source working fluid for circulating through the ground-source heat pump fluid circuit to exchange heat with the facility fluid at the facility heat exchanger, and to exchange heat with the downhole fluid of a downhole fluid circuit at the ground-source heat exchanger; and
an air-source heat pump thermally connected to the facility fluid circuit, including:
an air-source heat pump fluid circuit;
an air-source heat exchanger positioned on the air-source heat pump fluid circuit and configured to exchange heat with an ambient air;
the facility heat exchanger positioned on the air-source heat pump fluid circuit; and
an air-source working fluid for circulating through the air-source heat pump fluid circuit to exchange heat with the facility fluid at the facility heat exchanger, and to exchange heat with the ambient air at the air-source heat exchanger,
further comprising one or more additional heat exchanger connected to one or more of the ground-source heat pump fluid circuit or the air-source heat pump fluid circuit and configured, via one or more fluid distribution devices, to exchange heat between one or more additional facility fluids and one or more of the ground-source working fluid or the air-source working fluid.
33 . The thermal system of claim 32 , further comprising the downhole fluid circuit, including:
a heat exchanger configured to exchange heat with a geological formation; the ground-source heat exchanger; and the downhole fluid for circulating through the downhole fluid circuit to exchange heat with the ground-source working fluid at the ground-source heat exchanger and to exchange heat with the geological formation at the heat exchanger.
34 . The thermal system of claim 32 , wherein the ambient air includes at least some exhaust air exhausted from the facility such that the air-source heat exchanger is configured to exchange heat with the at least some exhaust air.
35 . The thermal system of claim 32 , wherein the ground-source heat pump and the air-source heat pump each includes one or more compressors and one or more expansion valves for exchanging heat based on performing mechanical work on the ground-source working fluid and the air-source working fluid, and wherein the ground-source heat pump and the air-source heat pump are each reversible heat pumps for transferring heat to and from the facility fluid.
36 . The thermal system of claim 32 , further comprising:
one or more fluid distribution devices included on the air-source heat pump fluid circuit for directing the air-source working fluid between the air-source heat exchanger and the facility heat exchanger; one or more fluid distribution devices included on the ground-source heat pump fluid circuit for directing the ground-source working fluid between the ground-source heat exchanger and the facility heat exchanger; and a controller for controlling an operation of the thermal system based on controlling the one or more fluid distribution devices of the air-source heat pump fluid circuit and of the ground-source heat pump fluid circuit.
37 . The thermal system of claim 32 , wherein the ground-source heat pump fluid circuit and the air-source heat pump fluid circuit are independent and are connected to the facility fluid circuit in parallel.
38 . The thermal system of claim 32 , wherein the thermal system is configured to operate in at least one of a dual heating mode to provide heating to the facility with the ground-source heat pump and the air-source heat pump through the facility heat exchanger and a dual cooling mode to provide cooling to the facility with the ground-source heat pump and the air-source heat pump through the facility heat exchanger.
39 . The thermal system of claim 32 , wherein the additional heat exchanger comprises at least one of:
a cold fluid heat exchanger connected to the downhole fluid circuit and configured, via one or more fluid distribution devices, to transfer heat from a cold facility fluid to the downhole fluid; and a secondary facility heat exchanger connected to one or more of the ground-source heat pump fluid circuit or the air-source heat pump fluid circuit and configured, via one or more fluid distribution devices, to exchange heat between a secondary facility fluid and one or more of the ground-source working fluid or the air-source working fluid.
40 . The thermal system of claim 39 , wherein the ground-source heat pump fluid circuit and the air-source heat pump fluid circuit are connected to the secondary facility heat exchanger in parallel, and wherein the thermal system is configured to operate in a plurality of modes with respect to the secondary facility heat exchanger, including:
a heating mode, wherein the ground-source heat pump and the air-source heat pump each provide heating to at least one of the facility fluid via the facility heat exchanger or the secondary facility fluid via the secondary facility heat exchanger; a cooling mode, wherein the ground-source heat pump and the air-source heat pump each provide cooling to at least one of the facility fluid via the facility heat exchanger or the secondary facility fluid via the secondary facility heat exchanger; a first heating-cooling mode wherein the ground-source heat pump provides heating to the facility fluid via the facility heat exchanger and the air-source heat pump provides cooling to the secondary facility fluid via the secondary facility heat exchanger; a second heating-cooling mode wherein the air-source heat pump provides heating to the facility fluid via the facility heat exchanger and the ground-source heat pump provides cooling to the secondary facility fluid via the secondary facility heat exchanger; a first cooling-heating mode, wherein the ground-source heat pump provides cooling to the facility fluid via the facility heat exchanger and the air-source heat pump provides heating to the secondary facility fluid via the secondary facility heat exchanger; and a second cooling-heating mode, wherein the air-source heat pump provides cooling to the facility fluid via the facility heat exchanger and the ground-source heat pump provides heating to the secondary facility fluid via the secondary facility heat exchanger.Join the waitlist — get patent alerts
Track US2026098657A1 — get alerts on status changes and closely related new filings.
We store only your email — no account needed. See our privacy policy.