- F24H1/0009: .{减压或者真空蒸汽型的}
- F24H1/0018: .{用电能的}
- F24H1/0027: .{用流体燃料的}
- F24H1/0054: .{用于开式容器或池的燃烧气体或油的浸入式加热器}
- F24H1/0063: .{用固体燃料的}
- F24H1/0072: .{专门适用的}
- F24H1/06: .轻便的或可移动的,例如可折叠的
- F24H1/08: .快装锅炉或整装锅炉,即控制装置和泵装在一个装置中的水加热器
- F24H1/10: .连续流动加热器,即仅在水流动时产生热的加热器,例如水与加热介质直接接触的(F24H 1/50优先)
- F24H1/18: .贮水加热器(用于集中供热的水加热炉入F24H 1/22;F24H 1/50优先)
- F24H1/22: .除去连续流动或贮水加热器以外的水加热器,例如用于集中供热的水加热器(F24H 1/50优先)
- F24H1/46: .具有多个燃烧室的水加热器
- F24H1/48: .用于集中供热的、与生活用水加热器配合使用的水加热器
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Gas instantaneous water boiler utilizing stirling engine | JP11078681 | 1981-07-17 | JPS5812943A | 1983-01-25 | HASHIMOTO KENJI |
| PURPOSE:To prevent contamination of air within the room and improve the effeciency of the subject water boiler by using supply water for hot water in cooling the outer wall of a cylinder of the Stirling engine and also using a heat exchanger for exhaust gas preheating supply water after cooling. CONSTITUTION:A heat exchanger 3 burning by a gas burner 18 is provided within a casing having a suction hole, and a Stirling engine 2 is provided at the upper part thereof. An exhaust gas heat exchanger 4 is provided in the exhaust gas opening of the main heat exchanger 3, and an exhaust fan 8 is provided in a flue 5 of the exhaust gas. Furthermore, a hydraulic responding device 10 which opens or closes a gas supply valve 15 for supplying gas to the gas burner 18 is provided in the casing. In this case, the exhaust gas of high temperature led into the exhaust gas heat exchanger 4 performs heat exchange with water in a water supply tube 11 within the heat exchanger 4, and hence the hot water supply heat efficiency is improved. | ||||||
| 182 | Water heater | JP2948981 | 1981-03-02 | JPS57144839A | 1982-09-07 | SHIBAMIYA TADASHI |
| PURPOSE:To provide an economic and safe water heater by a method wherein permanent magnets are rotated as required to produce an eddy current in the conductor and hot water may continuously be supplied whenever it is required. CONSTITUTION:Even number of permanent magnets 3a and 3b are arranged at the outer and inner circumferential surfaces of the rotary body 1 in such a manner as the polarities of the adjoining magnets adjacent to the surface of the cylindrical hollow annular conductor 4, these permanent magnets are moved to produce an eddy current under an alternating magnetic flux in the conductor 4 and then to produce a heat. Then the hot water is taken out from the ports for water arranged in the conductor 4. That is, as required, the permanent magnets are rotated to produce an eddy current in the conductor and hot water may always be supplied continuously whenever it is required, so that it is possible to provide a safe and economic water heater which does not show any danger of fire or toxication as found in the petroleum or gas combustion type heater. | ||||||
| 183 | JPS5032542A - | JP5740374 | 1974-05-23 | JPS5032542A | 1975-03-29 | JANSON S-O |
| 184 | DEVICE FOR HEATING LIQUID AND GENERATING STEAM | PCT/US2011047110 | 2011-08-09 | WO2012021533A3 | 2012-06-14 | NARANJO ALDOZKAR D HERRERA; DORSETT JOHN |
| The present disclosure relates generally to devices and systems to heat a liquid and/or generate steam from a liquid. In a specific embodiment, the present disclosure relates generally to devices and systems to heat a liquid and/or generate steam from a liquid using molecular friction and/or nucleation. The devices and systems of the present disclosure may be used in any application where a heated liquid or steam are required and operate at reduced energy costs and carbon footprints as compared to devices of the prior art. | ||||||
| 185 | AN APPARATUS FOR GENERATING HEAT | PCT/GB2010001884 | 2010-10-07 | WO2011042702A3 | 2012-03-29 | COLLINS MARK |
| The invention provides an apparatus for heating a liquid, which apparatus comprises: a mixing chamber; dispensing means for dispensing metered amounts of first and second chemical reactants into the mixing chamber to form a reaction mixture so that the chemical reactants undergo an exothermic chemical reaction to generate heat and one or more reaction products; an electronic control device linked to the dispensing means for controlling the dispensing of the metered amounts of first and second chemical reactants; one or more pumps for moving the chemical reactants and reaction mixture around the apparatus; a heat exchanger having an inlet and an outlet for the reaction mixture and an inlet and an outlet for the said liquid, so that when said liquid passes through the heat exchanger it is heated by heat transfer from the reaction mixture; one or more monitoring stations for monitoring one or more physical or chemical parameters of the reaction mixture; the monitoring stations being arranged to communicate with the electronic control device; and a waste outlet for removing spent reaction mixture from the apparatus; wherein the mixing chamber, heat exchanger and the one or more monitoring stations are connected so as to form a loop; and wherein the electronic control device is programmed to cause the reaction mixture to be circulated around the loop at least twice, and optionally to cause the dispensing means to dispense further metered amounts of first and/or second chemical reactants into the mixing chamber; and/or to cause a proportion of the reaction mixture to be ejected through the waste outlet, in order to control the temperature of the reaction mixture passing through the heat exchanger. | ||||||
| 186 | DEVICE FOR HEATING LIQUID AND GENERATING STEAM | PCT/US2011047110 | 2011-08-09 | WO2012021533A2 | 2012-02-16 | NARANJO ALDOZKAR D HERRERA; DORSETT JOHN |
| The present disclosure relates generally to devices and systems to heat a liquid and/or generate steam from a liquid. In a specific embodiment, the present disclosure relates generally to devices and systems to heat a liquid and/or generate steam from a liquid using molecular friction and/or nucleation. The devices and systems of the present disclosure may be used in any application where a heated liquid or steam are required and operate at reduced energy costs and carbon footprints as compared to devices of the prior art. | ||||||
| 187 | HEIZSYSTEM, SOWIE VERFAHREN ZUM BETREIBEN EINES HEIZSYSTEMS | EP16717632 | 2016-04-20 | EP3286792A1 | 2018-02-28 | KLEINEIKENSCHEIDT GEROLD; FRIEDE WOLFGANG; LIMBECK UWE; HERBERT CHRISTIAN |
| The invention relates to a heating system (10), in particular a fuel cell system (12) which comprises at least one sensor (52). According to the invention, at least one test device (54) which is designed to supply the at least one sensor (52) with at least one part of at least one fluid for testing. The invention further relates to a method for operating said type of heating system. | ||||||
| 188 | COMBINED FUEL CELL AND BOILER SYSTEM | EP13801331.3 | 2013-03-28 | EP2886964B1 | 2018-02-21 | YANG, Dong Jin |
| The present invention relates to a combined fuel cell and boiler system, and comprising: a fuel cell portion for receiving supplied outside air and raw material gas and generating electricity through a catalyst reaction; and a boiler portion comprising a latent heat exchanger, which is connected to an exhaust gas pipe of the fuel cell portion, for collecting the latent heat of self-generated exhaust gas with the latent heat of exhaust gas from the fuel cell portion. The present invention can effectively increase the efficiency of a boiler by supplying the exhaust gas from the fuel cell to the latent heat exchanger in the boiler, so as to be heat-exchanged in the latent heat exchanger with the exhaust gas from the boiler and then discharged, and can simplify the composition by unifying exhaust gas pipes. | ||||||
| 189 | HEAT PUMP HOT-WATER-SUPPLY OUTDOOR DEVICE, AND HOT-WATER-SUPPLY DEVICE | EP15887460.2 | 2015-03-27 | EP3276279A1 | 2018-01-31 | MOTEGI, Shuuji |
An increase in outer dimensions of a cabinet of a heat pump water-heater outdoor unit is prevented while the capacity of an accumulator is increased, and high efficiency and convenience are achieved at low cost. In a cabinet (2) of a heat pump water-heater outdoor unit (1), a compressor (3), an intake pipe (4), a discharge pipe (5), an air-refrigerant heat exchanger (7), a water-refrigerant heat exchanger (8), an expansion valve (9), and two accumulators (10A, 10B) are stored, and a refrigerant circuit is constituted by these devices. The accumulators (10A, 10B) are disposed above the compressor (3) and an electric component storage box (12). According to this configuration, with the accumulators (10A, 10B), it is possible to increase the capacity of the entire accumulator even when the size of the cabinet (2) is not increased. In addition, it is possible to efficiently cool the compressor (3), the electric component storage box (12), and an inverter module (23) that are disposed below by using cold air that is reduced in temperature by contact with the accumulators (10A, 10B). |
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| 190 | A FLUID HANDLING DEVICE AND A METHOD OF HEATING OR COOLING A FLUID FLOW | EP13900146 | 2013-12-26 | EP3090214A4 | 2017-12-06 | AGRAWAL AVICHAL; VERDUS TECHNOLOGIES PTE LTD |
| A fluid handling device that is adapted to heat or cool a first fluid flow, the device includes a thermal chamber adapted to heat or cool the first fluid flow in the thermal chamber; and an input channel which is adapted to channel the first fluid flow into the thermal chamber, an outlet channel which is adapted to channel a heated or cooled second fluid flow out of the thermal chamber, such that the thermal energy of the second fluid flow along the outlet channel is higher or lower than the thermal energy of the first fluid flow along the input channel. The outlet channel is thermally connected to the input channel, so that the outlet channel is adapted to transfer thermal energy between the heated or cooled second fluid flow along the outlet channel and the first fluid flow along the input channel to heat or cool the first fluid flow before entering the thermal chamber. | ||||||
| 191 | HEAT PUMP SYSTEM | EP14906430.5 | 2014-11-19 | EP3222932A1 | 2017-09-27 | TAKAYAMA, Keisuke |
A heat pump system is provided, which is capable of preventing decomposition of a substance, included in a refrigerant and having a carbon-to-carbon double bond, and is capable of increasing a heating temperature of a heating medium. A heat pump system uses a refrigerant which includes a substance having a carbon-to-carbon double bond, and sequentially performs a first operation, a second operation, and a third operation after a compressor is activated. In the first operation, specific enthalpy of the refrigerant at an inlet of a decompressor is kept at a higher level than specific enthalpy at a critical point of the substance. In the first operation, high pressure-side pressure rises from a lower level than critical pressure of the substance to a higher level than the critical pressure. In the second operation, high pressure-side pressure is kept at a level higher than the critical pressure In the second operation, the specific enthalpy of the refrigerant at the inlet of the decompressor drops from a higher level than the specific enthalpy at the critical point to a lower level than the specific enthalpy at the critical point. In the third operation, a temperature of the heating medium flowing out from a heater is kept at a level higher than a critical temperature of the substance. |
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| 192 | WATER PURIFIER | EP10786347 | 2010-06-08 | EP2440306A4 | 2017-02-01 | KANG BYUNG-IL; CHOI YU-SEUNG; LEE JUNG-HWAN; PARK BYUNG-KIL; CHO YOUNG-GUN; KIM DO-HAN; SEO YOUNG-JU |
| A water purifier is provided. The water purifier includes a purified water tank for storing purified water, a hot water tank including a heater for heating the purified water supplied from the purified water tank, a purified water supply pipe connecting the purified water tank and the hot water tank to supply the purified water of the purified water tank to the hot water tank, a purified water supply valve opening or closing the purified water supply pipe, a manipulation unit through which a user inputs an extraction amount of hot water, a memory unit for readably storing an opening time of the purified water supply pipe depending on an amount of purified water to be supplied to the hot water tank, and a control unit setting the extraction amount of hot water to the amount of purified water to be supplied to the hot water tank when the extraction amount of hot water is inputted through the manipulation unit, reading the opening time of the purified water supply pipe corresponding to the amount of purified water to be supplied to the hot water tank from the memory unit, and opening the purified water supply pipe during a specified opening time. | ||||||
| 193 | DIALYSATE EXTRACTION DEVICE | EP12830761.8 | 2012-09-07 | EP2754456B1 | 2016-12-21 | IWAHORI, Tadashi; TAKAHASHI, Masahiro; YOKOYAMA, Kazumi; EDAMURA, Hachiro; NAKANO, Yusuke; ISHIZAKI, Fumihiko |
| 194 | COMBINED FUEL CELL AND BOILER SYSTEM | EP13801331.3 | 2013-03-28 | EP2886964A1 | 2015-06-24 | YANG, Dong Jin |
The present invention relates to a combined fuel cell and boiler system, and comprising: a fuel cell portion for receiving supplied outside air and raw material gas and generating electricity through a catalyst reaction; and a boiler portion comprising a latent heat exchanger, which is connected to an exhaust gas pipe of the fuel cell portion, for collecting the latent heat of self-generated exhaust gas with the latent heat of exhaust gas from the fuel cell portion. The present invention can effectively increase the efficiency of a boiler by supplying the exhaust gas from the fuel cell to the latent heat exchanger in the boiler, so as to be heat-exchanged in the latent heat exchanger with the exhaust gas from the boiler and then discharged, and can simplify the composition by unifying exhaust gas pipes. |
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| 195 | Getränkeerhitzungssystem mit integrierter Verbrennungsanlage und Verfahren zum Erhitzen von Getränken | EP12159432.9 | 2012-03-14 | EP2505069A2 | 2012-10-03 | Zacharias, Jörg; Feilner, Roland |
Die Erfindung betrifft ein Erhitzungssystem für eine Getränkeverarbeitungsanlage mit einem Getränkestrom aus einem zu verarbeitendem Getränk, mit einem Sekundärstrom aus einem Wärmeleitmedium, wobei der Sekundärstrom in einem geschlossenen Sekundärkreislauf geführt ist, mit zumindest einem Wärmetauscher, der von dem Sekundärstrom durchflossen ist und so angeordnet ist, dass er in der Lage ist, Wärme an den Getränkestrom abzugeben, wobei eine Verbrennungsanlage in dem Sekundärstrom so angeordnet ist, dass von der Verbrennungsanlage erzeugte Wärme an das Wärmeleitmedium weitergebbar ist. Die Erfindung betrifft auch ein Verfahren zum Erhitzen von Getränken mit einer Verbrennungsanlage.
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| 196 | AN APPARATUS FOR GENERATING HEAT | EP10776116.5 | 2010-10-07 | EP2486338A2 | 2012-08-15 | Collins, Mark |
| The invention provides an apparatus for heating a liquid, which apparatus comprises: a mixing chamber; dispensing means for dispensing metered amounts of first and second chemical reactants into the mixing chamber to form a reaction mixture so that the chemical reactants undergo an exothermic chemical reaction to generate heat and one or more reaction products; an electronic control device linked to the dispensing means for controlling the dispensing of the metered amounts of first and second chemical reactants; one or more pumps for moving the chemical reactants and reaction mixture around the apparatus; a heat exchanger having an inlet and an outlet for the reaction mixture and an inlet and an outlet for the said liquid, so that when said liquid passes through the heat exchanger it is heated by heat transfer from the reaction mixture; one or more monitoring stations for monitoring one or more physical or chemical parameters of the reaction mixture; the monitoring stations being arranged to communicate with the electronic control device; and a waste outlet for removing spent reaction mixture from the apparatus; wherein the mixing chamber, heat exchanger and the one or more monitoring stations are connected so as to form a loop; and wherein the electronic control device is programmed to cause the reaction mixture to be circulated around the loop at least twice, and optionally to cause the dispensing means to dispense further metered amounts of first and/or second chemical reactants into the mixing chamber; and/or to cause a proportion of the reaction mixture to be ejected through the waste outlet, in order to control the temperature of the reaction mixture passing through the heat exchanger. | ||||||
| 197 | STORAGE COMBINATION BOILER | EP07848607.3 | 2007-12-19 | EP2102561A1 | 2009-09-23 | CLARK, David; STEADE, David |
| A storage combination (combi) boiler system and a method for providing heating, comprising: a domestic combined heat and power (dchp) unit, which provides a heat output and an electricity output; a first piping system, containing fluid which is heated by the heat output of the dchp unit; a second piping system, containing fluid which is heated by transfer of heat from the fluid in the first piping system using a heat exchanger; and a storage vessel, located within the first piping system, downstream from the heat exchanger, for receiving and storing fluid within that first piping system so as to provide a thermal store for the heat in the first piping system. | ||||||
| 198 | EINRICHTUNG ZUR CHEMISCH/PHYSIKALISCHEN WASSERBEHANDLUNG UND TRINKWASSER | EP02715969.8 | 2002-01-25 | EP1363858A1 | 2003-11-26 | LEITER, Klaus; WALDER, Gerhard |
| The invention relates to a device for physically treating drinking water, in particular, for reducing the formation of limestone. The inventive device comprises at least one water inlet (3b) and at least one water outlet (3c), whereby the device is mounted in the cold water supply line (3) of at least one water heater (1), preferably a boiler, and the device is placed in good heat-conductive thermal contact with the hot water area of the water heater (1). | ||||||
| 199 | Wärmeerzeuger mit zwei Brennern und einem Wärmeübertrager | EP01111752.0 | 2001-05-15 | EP1160520A3 | 2003-07-23 | Wu, Datong; Waidner, Juergen; Bruns, Joachim; Frieling, Thomas-Eckart; Zimmermann, Hans-Werner, Dr.; Schall, Andreas |
Die Erfindung betrifft einen Wärmeerzeuger mit zwei Brennern und einem Wärmeübertrager, wobei die Brenner den Wärmeübertrager mit Wärme versorgen, um die durch den Wärmeübertrager fließende Flüssigkeit zu erwärmen. Um einen hohen Modulationsgrad für die Heizleistung bei kompakter Bauweise des Wärmeerzeugers zu erreichen, sieht die Erfindung vor, dass dem Wärmeübertrager neben dem ersten Brenner in einer einzigen Brennkammer ein zweiter Brenner zugeordnet ist, die auf unterschiedliche Heizleistungen ausgelegt sind und auf verschiedene, auf diese Heizleistungen angepasste Teilbereiche des gemeinsamen Wärmeübertragers und/oder in unterschiedlichen Richtungen auf diese Teilbereiche einwirken, und dass in Abhängigkeit von dem Heizleistungsbedarf der erste Brenner und/oder der zweite Brenner in Betrieb setzbar ist (sind). |
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| 200 | VORRICHTUNG ZUR ERZEUGUNG EINER ELEKTRISCHEN SPANNUNG FÜR KOMPONENTEN EINES GASBEHEIZTEN WASSERERHITZERS | EP00982990.4 | 2000-10-12 | EP1196721A1 | 2002-04-17 | DE BOER, Evert, Nicolaas; MEIJER, Bemardus, Johanes |
| The invention relates to a device for generating an electrical voltage for components of a gas-fired water heater. The inventive device comprises a heat exchanger (13), through which a water-carrying line (15) comprising an outlet valve (18) passes. A turbine of a turbine generator (30) is integrated in said line (15) and supplies electrical voltage for the components of a water heater when the outlet valve (18) is opened. The turbine of the turbine generator (30) is arranged in a bypass that leads to the line (15). | ||||||
