Class / Patent application number | Description | Number of patent applications / Date published |
237001000 | MISCELLANEOUS | 7 |
20090114733 | Hydrogen fired heat exchanger - Hydrogen Fired Heat Exchanger is an alternative furnace design that utilizes the conversion of hydrogen and oxygen to water to produce heat as opposed to combustion of a fuel like natural gas or oil. The preferred embodiment of the invention utilizes a fuel cell having an anode and a cathode and containing an electrolyte and a catalyst, a water tank, hoses, a gas valve, a spark plug and a heat exchanger. To use Hydrogen Fired Heat Exchanger, an individual connects the water tank to the office or home water line to allow it to fill with water. The fuel cell attached to the water tank provides the electricity necessary to transform the incoming water from the water tank into hydrogen and oxygen gas. A catalyst to expedite the reaction is also utilized in the water. The hydrogen and oxygen gas travel through separate hoses into the gas valve and then into the heat exchanger where the gases are mixed and ignited by the spark plug. The hydrogen and oxygen gas are transformed back into water and emit energy in the form of heat during this combustion process. The heat warms the heat exchanger. The warm heat exchanger functions in a similar fashion to gas heat exchangers. Air from an office or building is sucked through a filter and blowing system past the heat exchanger causing it to warm, and the warm air is then distributed throughout the office or home through a series of ducts and vents. The water created during the combustion of oxygen and hydrogen in the heat exchanger drops to the bottom of the heat exchanger and into the water hose to be returned to the water tank for further use. | 05-07-2009 |
20090188985 | Combined chiller and boiler HVAC system in a single outdoor operating unit - A combined chiller-boiler HVAC system which integrates all operating components including the boiler, chiller, distribution pumps, condenser coils, condenser fans and controls onto one single enclosed platform built for installation exterior to the structure being served and designed to produce heated or cooling fluid sequentially or simultaneously in differing areas of a building on demand. This system utilizes both air and water cooling whereby waste heat absorbed during a water cooling cycle, can be captured and re-directed for other uses. | 07-30-2009 |
20100025486 | LIQUID HEAT GENERATOR WITH INTEGRAL HEAT EXCHANGER - Disclosed herein is an exemplary supplemental heating system including a hydrodynamic heater and a heat exchanger. The hydrodynamic heater includes a hydrodynamic chamber disposed within an interior cavity of the hydrodynamic heater. The hydrodynamic chamber is operable for selectively heating a fluid present within the hydrodynamic chamber when the heating apparatus is connected to a fluid supply source. The hydrodynamic heater includes an inlet port fluidly connected to a discharge port of the heat exchanger, and a discharge port fluidly connected to an inlet port of the heat exchanger. The heat exchanger includes a heat exchanger core disposed within an interior cavity of the heat exchanger. A wall at least partially defines the interior cavity of the hydrodynamic heater and the interior cavity of the heat exchanger. | 02-04-2010 |
20100059600 | HIGH EFFICIENCY HEATER USING SPATIAL ENERGY - A high efficiency heater using spatial energy includes a motor, a body, a cover, and a vortex-generating unit. The body includes a through-hole into which a rotating shaft of the motor is inserted, a plurality of grooves on an inner face thereof, and a discharge pipe provided on an outer face thereof so as to communicate with the inner face. The cover is assembled with the body and has a center through-hole into which a suction pipe is assembled, and a plurality of grooves on an inner face thereof. The vortex-generating unit is shaped like a disk, mounted in a space defined by the body and the cover in a manner as to be separated from a space wall, and has a center through-hole into which the rotating shaft of the motor is inserted, and a plurality of grooves on an outer face thereof. | 03-11-2010 |
20100127090 | ENERGY RECYCLING - In a waste collection system where deposited waste is transported by partial vacuum in transport pipes ( | 05-27-2010 |
20100187321 | HOME HEATING SYSTEM UTILIZING ELECTROLYSIS OF WATER - Disclosed is a heating system utilizing electrolysis of water for heating a space. The system includes a tank configured to hold water, a separation cell configured to perform electrolysis of water, a first heat exchanger, a gas bubbler, a burn unit, and a second heat exchanger, where water from the tank is delivered to the separation cell where electrolysis is performed. The fluid produced from the electrolysis is delivered through the first heat exchanger back to the tank, then to the gas bubbler, and finally to the burn unit, where the hydrogen gas produced during electrolysis is burned to emit heat directed at the second heat exchanger. Through the process environment air is heated. | 07-29-2010 |
20150354831 | COMBINED HEATING SYSTEM CAPABLE OF BI-DIRECTIONAL HEATING - A combined heating system comprising a first heating subsystem including a first fluid conductor, a first heating unit adapted to heat a first fluid and output the first fluid at the outlet of the first fluid conductor, and a fluid mover adapted to move the first fluid through the first heating unit, a second heating subsystem including a second fluid conductor adapted to receive a second fluid, a third fluid conductor, a second heating unit adapted to heat the second fluid and output the heated second fluid in the third fluid conductor, a fluid mover adapted to move the second fluid from the outlet of the third fluid conductor to the inlet of the second fluid conductor, at least one heat exchanger operably connected to a downstream location of the first heating unit and a fourth fluid conductor connecting the second fluid conductor and the third fluid conductor. | 12-10-2015 |
237001000 | Special liquid | 1 |
20090114733 | Hydrogen fired heat exchanger - Hydrogen Fired Heat Exchanger is an alternative furnace design that utilizes the conversion of hydrogen and oxygen to water to produce heat as opposed to combustion of a fuel like natural gas or oil. The preferred embodiment of the invention utilizes a fuel cell having an anode and a cathode and containing an electrolyte and a catalyst, a water tank, hoses, a gas valve, a spark plug and a heat exchanger. To use Hydrogen Fired Heat Exchanger, an individual connects the water tank to the office or home water line to allow it to fill with water. The fuel cell attached to the water tank provides the electricity necessary to transform the incoming water from the water tank into hydrogen and oxygen gas. A catalyst to expedite the reaction is also utilized in the water. The hydrogen and oxygen gas travel through separate hoses into the gas valve and then into the heat exchanger where the gases are mixed and ignited by the spark plug. The hydrogen and oxygen gas are transformed back into water and emit energy in the form of heat during this combustion process. The heat warms the heat exchanger. The warm heat exchanger functions in a similar fashion to gas heat exchangers. Air from an office or building is sucked through a filter and blowing system past the heat exchanger causing it to warm, and the warm air is then distributed throughout the office or home through a series of ducts and vents. The water created during the combustion of oxygen and hydrogen in the heat exchanger drops to the bottom of the heat exchanger and into the water hose to be returned to the water tank for further use. | 05-07-2009 |
20090188985 | Combined chiller and boiler HVAC system in a single outdoor operating unit - A combined chiller-boiler HVAC system which integrates all operating components including the boiler, chiller, distribution pumps, condenser coils, condenser fans and controls onto one single enclosed platform built for installation exterior to the structure being served and designed to produce heated or cooling fluid sequentially or simultaneously in differing areas of a building on demand. This system utilizes both air and water cooling whereby waste heat absorbed during a water cooling cycle, can be captured and re-directed for other uses. | 07-30-2009 |
20100025486 | LIQUID HEAT GENERATOR WITH INTEGRAL HEAT EXCHANGER - Disclosed herein is an exemplary supplemental heating system including a hydrodynamic heater and a heat exchanger. The hydrodynamic heater includes a hydrodynamic chamber disposed within an interior cavity of the hydrodynamic heater. The hydrodynamic chamber is operable for selectively heating a fluid present within the hydrodynamic chamber when the heating apparatus is connected to a fluid supply source. The hydrodynamic heater includes an inlet port fluidly connected to a discharge port of the heat exchanger, and a discharge port fluidly connected to an inlet port of the heat exchanger. The heat exchanger includes a heat exchanger core disposed within an interior cavity of the heat exchanger. A wall at least partially defines the interior cavity of the hydrodynamic heater and the interior cavity of the heat exchanger. | 02-04-2010 |
20100059600 | HIGH EFFICIENCY HEATER USING SPATIAL ENERGY - A high efficiency heater using spatial energy includes a motor, a body, a cover, and a vortex-generating unit. The body includes a through-hole into which a rotating shaft of the motor is inserted, a plurality of grooves on an inner face thereof, and a discharge pipe provided on an outer face thereof so as to communicate with the inner face. The cover is assembled with the body and has a center through-hole into which a suction pipe is assembled, and a plurality of grooves on an inner face thereof. The vortex-generating unit is shaped like a disk, mounted in a space defined by the body and the cover in a manner as to be separated from a space wall, and has a center through-hole into which the rotating shaft of the motor is inserted, and a plurality of grooves on an outer face thereof. | 03-11-2010 |
20100127090 | ENERGY RECYCLING - In a waste collection system where deposited waste is transported by partial vacuum in transport pipes ( | 05-27-2010 |
20100187321 | HOME HEATING SYSTEM UTILIZING ELECTROLYSIS OF WATER - Disclosed is a heating system utilizing electrolysis of water for heating a space. The system includes a tank configured to hold water, a separation cell configured to perform electrolysis of water, a first heat exchanger, a gas bubbler, a burn unit, and a second heat exchanger, where water from the tank is delivered to the separation cell where electrolysis is performed. The fluid produced from the electrolysis is delivered through the first heat exchanger back to the tank, then to the gas bubbler, and finally to the burn unit, where the hydrogen gas produced during electrolysis is burned to emit heat directed at the second heat exchanger. Through the process environment air is heated. | 07-29-2010 |
20150354831 | COMBINED HEATING SYSTEM CAPABLE OF BI-DIRECTIONAL HEATING - A combined heating system comprising a first heating subsystem including a first fluid conductor, a first heating unit adapted to heat a first fluid and output the first fluid at the outlet of the first fluid conductor, and a fluid mover adapted to move the first fluid through the first heating unit, a second heating subsystem including a second fluid conductor adapted to receive a second fluid, a third fluid conductor, a second heating unit adapted to heat the second fluid and output the heated second fluid in the third fluid conductor, a fluid mover adapted to move the second fluid from the outlet of the third fluid conductor to the inlet of the second fluid conductor, at least one heat exchanger operably connected to a downstream location of the first heating unit and a fourth fluid conductor connecting the second fluid conductor and the third fluid conductor. | 12-10-2015 |