This invention materially enhances the quality of the environment and mankind by contributing to the restoration or maintenance of the basic life-sustaining natural elements, by reducing the amount of carbon monoxide introduced to the atmosphere from a combustion system, achieved by furnishing a sys
This invention materially enhances the quality of the environment and mankind by contributing to the restoration or maintenance of the basic life-sustaining natural elements, by reducing the amount of carbon monoxide introduced to the atmosphere from a combustion system, achieved by furnishing a system's approach to optimize the amount of oxygen to be chemically combined with fuel upon ignition of both allowing the correct amount of carbon to combine with the correct amount of oxygen thus fully release the thermal energy stored therein.
대표청구항▼
1. A high efficiency heating system to transfer heat to a zone, comprising: a heat exchange system connected to a heat exchange element forming a close internal channel to circulate a heat transfer medium there-through;a furnace housing therein is the heat exchange element;a treatment device housing
1. A high efficiency heating system to transfer heat to a zone, comprising: a heat exchange system connected to a heat exchange element forming a close internal channel to circulate a heat transfer medium there-through;a furnace housing therein is the heat exchange element;a treatment device housing a first treatment rod therein having one end and another end;an atomization nozzle being connected to the one end;a pump with an adjustable pressure regulator set to a predetermined pressure being connected to the another end;a fuel line connected between a tank and the pump; anda combustion controller connected to an igniter;wherein the pump transports fluid from the tank to the treatment device and the fluid is injected by the nozzle into the furnace and ignited by the igniter to release thermal energy of the fuel to the heat exchange element. 2. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: an optical device to verify whether the igniter produces a glowing heat;wherein the pump turns on if the igniter is producing the glowing heat, andwherein the pump would be one of turned off or never turned on if the igniter is not producing the glowing heat. 3. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: an adjustable opening of an air pump;wherein the air pump injects ambient air into the furnace when the pump starts to inject the fluid into the furnace. 4. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: an environmental exchange controller to set one of an upper temperature limit, an upper deviation limit, a lower temperature limit and a lower deviation limit of the heat transfer medium;wherein the upper temperature limit establishes the shutting off of the flame once the heat transfer medium reaches the upper temperature limit;wherein the upper deviation limit establishes the amount of temperature deviation from the upper temperature limit to trigger the ignition of the flame;wherein the lower temperature limit establishes the turning off of the flame once the heat transfer medium reaches the lower temperature limit; andwherein the lower deviation limit establishes the amount of temperature deviation from the lower temperature limit to ignite the flame. 5. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: a pair of solenoid valves control by the combustion controller;wherein one of the pair of solenoids is either integrated in the pump or installed to a fuel line downstream from the pump and another of the pair of solenoids is installed onto the treatment device;wherein when the combustion controller puts out the flame, the pair of solenoid valves is shutoff to trap any fuel there-in-between. 6. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: a set of magnets surrounding the treatment device to align elements of the fluid. 7. The high efficiency heating system to transfer heat to the zone of claim 1, wherein the treatment device further comprising: a second adjustable pressure regulator set to a predetermined range of pressures. 8. The high efficiency heating system to transfer heat to the zone of claim 1, wherein the nozzle has a three dimensional spray angle α in a range between 5° and 175°, inclusive of each and every angle in the range; wherein the nozzle injects the fluid to form a spray pattern in either an overall conical shape with uniform density, an overall conical shape with a hollow interior, or an overall conical shape with a less dense interior. 9. The high efficiency heating system to transfer heat to the zone of claim 1, wherein at least one filter is installed on the fuel line; and wherein the pump includes a return line to direct excess fluid back to the tank. 10. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: a heat medium pump installed on the environment heat exchange;a switching device for the heat medium pump; anda service demand controller;wherein the service demand controller controls the switching device to enable or disable the heat medium pump to circulate the heat exchange medium. 11. The high efficiency heating system to transfer heat to the zone of claim 1, the environment heat exchange comprises at least one sub-environment heat exchange connect in one of series and parallel therewith. 12. The high efficiency heating system to transfer heat to the zone of claim 1, the environment heat exchange further comprises one of an inlet to add heat exchange medium and an outlet to purge the heat exchange medium. 13. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising an indirect heat exchanger connected in-between the furnace and the treatment device to transfer heat from the furnace to the treatment device. 14. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising a direct heat exchanger directly connected to the furnace wherein a portion of the treatment device is housed in the direct heat exchanger. 15. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: a temperature controller, anda thermostat system installed on the zone;wherein the temperature controller establishes the temperature requirement of the zone and the thermostat measures the temperature of the zone and when the thermostat detects the temperature of the zone reaches the temperature requirement, the temperature controller is notified;wherein the temperature controller further comprises an input system, a display system, a processor, a memory, a software program, an input/output system, a transmission system and a receiving system;wherein the thermostat detecting and reporting system comprises a set of thermostats, and one of a receiver system, a transmission system and a network interface card; andwherein the temperature controller, and the thermostat system communicate with each other via one of a wireless fidelity technology, a direct Ethernet connection over an Internet, a network interface card, and an interface system. 16. The high efficiency heating system to transfer heat to the zone of claim 1, further comprising: a temperature controller;a thermostat system; anda switching system installed on the zone;wherein the temperature controller establishes the temperature requirement of the zone and the thermostat measures the temperature of the zone and when the thermostat detects the temperature of the zone needs heat, the temperature controller instructs the switching system to open a switch to circulate heat exchange medium into the zone. 17. The high efficiency heating system to transfer heat to the zone of claim 16, wherein the temperature controller further comprises an input system, a display system, a processor, a memory, a software program, an input/output system, a transmission system and a receiving system. 18. The high efficiency heating system to transfer heat to the zone of claim 16, wherein the switching system comprises a set of switches, and one of a receiver system, a transmission system and a network interface card. 19. The high efficiency heating system to transfer heat to the zone of claim 16, wherein the temperature controller, and the switching system communicate with each other via one of a wireless fidelity technology, a direct Ethernet connection over an Internet, a network interface card, and an interface system.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (35)
Zifferer, L. Robert, Apparatus and methods for forming internally and externally textured tubing.
Ciciliot Henry (Lorraine Cir. Allentown PA 18104) Relf David J. (PT3 Helfrich Springs Whitehall PA 18052), Electric heat exchanger for simultaneously vaporizing two different fluids.
Robertson Wayne (1718 Linden Ave. Nashville TN 37212) Briggs Eugene C. (1609 Harmony Way Bowling Green KY 42101) Briggs Keith E. (1609 Harmony Way Bowling Green KY 42101), Oil combustion system.
Marcotte Richard P. (Monmouth ME) Dumont ; Jr. John W. (Monmouth ME), Underfed stoker boiler for burning bituminous coal and other solid fuel particles.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.