A fluid heat exchange system with a fluid flow circuit having a heat exchange fluid flow loop, a heat absorption component (as in a domestic hot water tank inclusive of small commercial use tanks as in tanks of 20 to 120 gallons), a heat exchanger and preferably also a pump. A controlled and automat
A fluid heat exchange system with a fluid flow circuit having a heat exchange fluid flow loop, a heat absorption component (as in a domestic hot water tank inclusive of small commercial use tanks as in tanks of 20 to 120 gallons), a heat exchanger and preferably also a pump. A controlled and automated fuel supply source based heater (as in a pellet stove) is in heat passage communication with the said heat exchanger. A control unit triggers activation of the pump upon fluid in the heat absorption component reaching or dropping below a preset temperature, and the fluid flow circuit is arranged such that, during times of non-activation of the pump, fluid is free to flow in a unidirectional flow within the fluid circuit based on thermodynamic temperature differentials alone. A retrofitting of a domestic hot water tank is also featured preferably making use of preexisting drain and safety vent porting for in-feed and out-feed porting in the exchange loop side. Also, the flow circuit preferably is free of check valves and steam accommodation equipment.
대표청구항▼
1. A fluid heat exchange system, comprising: a fluid flow circuit comprising a heat exchange fluid flow loop, a heat absorption component in fluid communication with said flow loop, a heat exchanger in fluid communication with said flow loop, and a pump in fluid communication with said flow loop; a
1. A fluid heat exchange system, comprising: a fluid flow circuit comprising a heat exchange fluid flow loop, a heat absorption component in fluid communication with said flow loop, a heat exchanger in fluid communication with said flow loop, and a pump in fluid communication with said flow loop; a controlled and automated fuel supply source based heater in heat passage communication with said heat exchanger; a control unit which triggers activation of said pump upon fluid in said heat absorption component reaching or dropping below a preset temperature, and said fluid flow circuit being arranged such that during times of non-activation of said pump fluid is free to flow in unidirectional flow fashion within each of said flow loop, heat exchanger and pump of said fluid circuit based on thermodynamic temperature differentials alone, wherein said heater comprises a pellet stove with a combustion pot mounted within a combustion chamber, and said heat exchanger is mounted within the combustion chamber of said pellet stove so as to have the heat exchanger positioned flush or adjacent to a wall panel of the pellet stove and so as to be spaced sufficiently away from the combustion pot as to avoid steam generation within the fluid flow circuit, and said fluid heat exchange system being free of steam accommodation equipment, and wherein said heat exchanger is a flat plate heat exchanger suitable for heating potable water, comprising a stack of flat plates having channel passages for the flow of the potable water and wherein said fluid circuit is configured such that potable water of said fluid flow loop intermingles with potable water within said heat absorption component, and wherein said heat absorption component is a domestic hot water tank, and wherein said fluid flow loop includes an in-feed section downstream of said heat exchanger that feeds into a base region of said domestic hot water tank, and wherein the in-feed section of said fluid flow loop feeds into a location at the base of said hot water tank designed for a hot water tank valved release port, and wherein an out-feed section of the fluid flow loop exits said hot water tank at a location at a top cover of the hot water tank originally occupied by a safety release component of said hot water tank. 2. The system of claim 1 wherein said pump is positioned in line between said heat exchanger and the hot water tank. 3. The system of claim 1 wherein said water tank has a capacity of 70 to 90 gallons. 4. The system of claim 1 wherein said control unit for said pump comprises a thermostat and a temperature status switch assembly that provides for a domestic hot water temperature level setting of from 90° to 150° F. based solely on pellet stove heat. 5. The system of claim 1 wherein said domestic hot water tank has an internal heat source comprising an electric resistor or gas heat source that provides supplemental heat to the potable water in the domestic hot water tank. 6. The system of claim 5 wherein the control unit for triggering activation of said pump includes a thermostat, and said internal heat source is powered on and off based on that thermostat. 7. The system of claim 1 wherein said pellet stove has a hopper and an automated bio-mass pellet fuel supplier to the combustion pot providing a burn location in the combustion chamber of said pellet stove, and wherein said flat plate heat exchanger has an outer side wall with dual inlet ports that is positioned within said combustion chamber flush or within 4 inches of a side panel of the pellet stove defining the combustion chamber. 8. A domestic hot water heating system comprising the fluid heat exchange system of claim 1 and further comprising a heated water circulation system for dispensing water by a user, which heated water circulation system includes the heat absorption component that also is present in said fluid flow circuit and which heat absorption component is in the form of the domestic hot water tank. 9. The domestic hot water heating system as recited in claim 8 wherein said pellet stove has a hopper and an automated bio-mass pellet fuel supplier to the combustion pot providing a burn location in the combustion chamber of said pellet stove, and wherein said flat plate heat exchanger has an outer side wall with dual inlet ports that is positioned within said combustion chamber flush or within 4 inches of a side panel of the pellet stove defining the combustion chamber. 10. The system of claim 1, wherein said flat plate heat exchanger is mounted flush or in cantilever fashion on a supporting wall panel of the pellet stove as to have a heat exchanger surface exposed in the combustion chamber, and said flat plate heat exchanger has an outlet that feeds into a feed line section extending from the flat plate heat exchanger to the pump, and the pump is positioned between the feed line section and the in-feed section extending from the pump to the base of said domestic hot water tank. 11. A fluid heating system, comprising: a fluid heat exchange circuit comprising a fluid flow loop, a hot water tank in fluid communication with said fluid flow loop, a pump, and a heat exchanger; a pellet stove with an automated bio-mass fuel supply, said pellet stove having a combustion pot within a combustion chamber within which said bio-mass is combusted, and said heat exchanger being positioned within said combustion chamber as to be offset from the combustion pot and positioned closer to a heat exchanger supporting side wall panel of said pellet stove, than to a central vertical axis of said combustion pot, and said fluid heat exchange circuit being arranged free of steam accommodation equipment and arranged such that fluid in said fluid heat exchange circuit flows in uni-directional fashion and in a steam generation avoidance fashion and which is set up to include thermodynamic based freedom of flow in each of the fluid flow loop, heat exchanger and pump, and wherein the pump is configured to be in fluid through-passage mode both when in pump operation and when not in pump operation, and wherein said heat exchanger is suitable for heating potable water, and wherein said fluid circuit is configured such that potable water of said fluid flow loop intermingles with potable water within said heat absorption component, and wherein the heat exchanger is a flat plate heat exchanger, comprising a stack of flat plates having channel passages for the flow of the potable water, mounted flush or in cantilever fashion on the heat exchanger supporting wall panel of the pellet stove as to have a heat exchanger surface with dual fluid inlet ports within 6 inches of that wall panel. 12. A method of retrofitting a preexisting domestic hot water tank, comprising: providing a fluid heat exchange system having a heat exchanger and a fluid flow loop with a pump, said fluid flow loop having an in-feed section and an out-feed section, said in-feed section being positioned downstream of said heat exchanger and connected to the domestic hot water tank, said domestic hot water tank being in fluid communication with a heated water circulation system that supplies potable water to a user, said out-feed section being also connected to the domestic hot water tank and extending from said domestic hot water tank to said heat exchanger, and providing a heater which is designed for combustion of bio-mass fuel with an automated feed system for feeding the bio-mass fuel to a combustion pot within a combustion chamber of the heater, and wherein the heat exchanger is positioned within the heater as to be offset from the combustion pot as to be flush or adjacent a side wall panel of said heat exchanger, and wherein said fluid heat exchange system is free of steam accommodation equipment including check valves and provides for unidirectional flow exchange based on thermodynamic temperature differences which flow includes passage of fluid through the heat exchanger and through the pump as well as from the in-feed section, through the domestic hot water tank and through the out-feed section, and wherein the pump is configured such that during pump non-operation fluid flow though said fluid flow loop and through said pump is provided for during the unidirectional flow exchange based on thermodynamic temperature differences, and wherein said heat exchanger is suitable for heating potable water and wherein said fluid flow loop is configured such that potable water of said fluid flow loop intermingles with potable water within said domestic hot water tank, and wherein the heat exchanger is a flat plate heat exchanger, comprising a stack of flat plates having channel passages for the flow of the potable water, mounted flush or in cantilever fashion on a heat exchanger supporting wall panel of the heater as to have a heat exchanger surface with dual fluid inlet ports within 6 inches of that wall panel.
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