| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于热能循环的方法和用于工业与商业点之间的热交换的环路系统 | CN201380016949.4 | 2013-03-06 | CN104220814A | 2014-12-17 | F.吉鲁迪埃; E.勒迈尔 |
| 本发明涉及一种系统,其能够使用环路进行热交换,在环路中热传递流体在多个工业的和商业的地点之间循环,其中每个地点可以是产生体和/或消耗体,以便于在地区范围上减少能量成本。本发明也涉及在地区范围上使用环路用于热能共享的方法,环路连接至少一个消耗热能的地点和至少一个产生热能的地点,并且其中热传递流体进行循环。 | ||||||
| 2 | 太阳能的聚热方法及聚热装置 | CN200880132311.6 | 2008-12-11 | CN102245978A | 2011-11-16 | 山口博司; 上田穗吉; 泽田升; 金山孝范; 藤间克己 |
| 一种聚热装置,其目的在于实现一种不需要动力,能够节能,且能够简化装置结构而实现低成本化,而且即使在冬季也能得到高温的回收温度的太阳能聚热方法,所述聚热装置具备聚热器(2)和热交换器(3),聚热器(2)形成有以CO2为主要流体的工作流体即CO2流体所进行循环的闭回路(1),并聚热于CO2流体,热交换器(3)从聚热后的CO2流体进行热回收,所述聚热装置具备:对CO2流体(w)的潜势热进行回收而使其液化,并且在CO2流体(w)所流入的入口侧和CO2流体(w)所流出的出口侧设置高低差而在出口侧形成有由CO2流体(w)产生的液头压(H)的热交换器(3);介入设置于闭回路(1)并对聚热于液化的CO2流体(w)而使出口侧的CO2流体(w)成为超临界状态的聚热器(2),在闭回路(1)中形成CO2流体(w)的自然循环。 | ||||||
| 3 | 太阳能的聚热方法及聚热装置 | CN200880132311.6 | 2008-12-11 | CN102245978B | 2013-04-24 | 山口博司; 上田穗吉; 泽田升; 金山孝范; 藤间克己 |
| 一种聚热装置,其目的在于实现一种不需要动力,能够节能,且能够简化装置结构而实现低成本化,而且即使在冬季也能得到高温的回收温度的太阳能聚热方法,所述聚热装置具备聚热器(2)和热交换器(3),聚热器(2)形成有以CO2为主要流体的工作流体即CO2流体所进行循环的闭回路(1),并聚热于CO2流体,热交换器(3)从聚热后的CO2流体进行热回收,所述聚热装置具备:对CO2流体(w)的潜势热进行回收而使其液化,并且在CO2流体(w)所流入的入口侧和CO2流体(w)所流出的出口侧设置高低差而在出口侧形成有由CO2流体(w)产生的液头压(H)的热交换器(3);介入设置于闭回路(1)并对聚热于液化的CO2流体(w)而使出口侧的CO2流体(w)成为超临界状态的聚热器(2),在闭回路(1)中形成CO2流体(w)的自然循环。 | ||||||
| 4 | 一种赤泥滤液用于厂房采暖的方法及装置 | CN201610453727.4 | 2016-06-22 | CN107525120A | 2017-12-29 | 唐时健; 李志国; 石建军; 刘涛涛 |
| 本发明公开一种赤泥滤液用于厂房采暖的方法及装置,用赤泥压滤后的滤液代替传统的热水或蒸汽作为采暖热源,具体方法是:将赤泥滤液用带锥底的槽子进行收集,锥角底部用于外送滤液的出口,锥底槽上部直筒段部分的滤液用于采暖用;采用泵将滤液送入厂房内的换热设备中进行换热,换热后再回到滤液槽中。本发明的优点和效果如下:本发明通过采用赤泥压滤产出的滤液作为采暖热源,解决了目前压滤厂房没有采暖导致的蒸汽量大,能见度低,操作环境温度低的问题。用滤液作为采暖热源,不需要新建采暖锅炉或从氧化铝厂区引采暖管道,既可以降低建设投资,又能减少运行费用,是国内北方地区氧化铝厂改善操作环境,节能降耗的一项重大举措。 | ||||||
| 5 | 工业余热地暖系统 | CN201610673655.4 | 2016-08-16 | CN106287899A | 2017-01-04 | 杨立新; 朱小棣; 胡祥东; 唐勤贵 |
| 本发明公开了一种地暖系统,尤其是涉及一种工业余热地暖系统,包括空压机的高温油路,地暖换热盘管、循环水泵,还包括一组换热器;地暖换热盘管的出水口经循环水泵接到各换热器的进水口;换热器的出水口经电磁阀接到地暖换热盘管的进水口;各换热器内设有与空压机的高温油路连通的散热管,散热管的外表面设置有若干散热翅片,散热翅片与散热管一体成型,散热翅片与散热管的轴线之间倾斜设置,散热管的内表面设置有螺旋槽,螺旋槽与散热管的几何中心轴相重合,散热管的外表面还涂覆有防锈层。本发明克服了现有技术中热转换效率低和易老化的技术缺陷,提供了一种热转化效率高且使用寿命长的工业余热地暖系统。 | ||||||
| 6 | 一种利用液压油热供暖系统 | CN201610361477.1 | 2016-05-27 | CN105890016A | 2016-08-24 | 郭锐; 张荣兵; 王萍; 王晋锋 |
| 一种利用液压油热供暖系统,在油箱中安装加热器;定量泵一端与油箱接通,另一端分别与单向阀A、溢流阀进油端接通,溢流阀的出油端与油箱接通;单向阀A另一端分别与电磁二位三通换向阀进油口、单向阀B接通,单向阀B另一端与供能工作模块连接;电磁二位三通换向阀的出油口A经冷却器与油箱接通,电磁二位三通换向阀出油口B经节流阀、蒸发器与油箱接通;蒸发器与压缩机接通,压缩机与冷凝器接通,冷凝器与毛细管连接,毛细管与蒸发器连接;在冷凝器上安装测温传感器,测温传感器通过电控系统与电磁二位三通换向阀连接,测温传感器控制电磁二位三通换向阀的出油工作方式。本发明系统具有高效节能、控制简便等优点。 | ||||||
| 7 | 一种有效利用油浸式电力变压器余热的装置及方法 | CN201610146276.X | 2016-03-15 | CN105826039A | 2016-08-03 | 李锦彪; 黄华; 刘刚; 邓海生; 刘富强 |
| 本发明提供了一种有效利用油浸式电力变压器余热的装置,包括进油管和出油管,进油管和出油管的一端分别与油浸式电力变压器的进、出油口连接,进油管和出油管的另一端延伸至需要供暖的房间内部且连接,形成一个闭合的油路循环系统。本发明还提供了一种有效利用油浸式电力变压器余热的方法,油浸式电力变压器在运行过程产生损耗,变压器油因为热传导而获得了热量,温度上升;热的变压器油从出油管流出,经过需要供暖的房间,温度相对高的变压器油与房间内的温度相对低的空气进行热交换,降温后的变压器油再通过进油管回流至油浸式电力变压器内,如此形成一个油路循环系统;通过给需要供暖的房间供暖,有效利用了油浸式电力变压器的余热。 | ||||||
| 8 | 空气调节热水供给系统 | CN201080063633.7 | 2010-03-02 | CN102753917B | 2014-11-05 | 小松智弘; 小谷正直; 内田麻理; 国眼阳子 |
| 提高空气调节热水供给系统整体的效率。本发明具备用于在热水供给运行中利用在采暖运行中产生的温热的热水供给辅助单元(80)。控制装置(1a)具备:推定当前的空气调节负荷的单元(S10);推定当前的空气调节消耗电力的单元(S11);推定当前的热水供给负荷的单元(S12);推定当前的热水供给消耗电力的单元(S13);临时决定所推定的空气调节负荷的单元(S16);对临时决定的空气调节负荷加上预先决定的值来计算新的空气调节负荷的单元(S18);根据新的空气调节负荷来计算空气调节消耗电力的单元(S18);根据新的空气调节负荷来计算热水供给负荷的单元(S19);根据新的热水供给负荷来计算热水供给消耗电力的单元(S20);比较消耗电力合计值的单元(S22);以及在消耗电力合计值变小的情况下(在S22为是),控制热水供给辅助单元的动作以便接近新的空气调节负荷。 | ||||||
| 9 | 空气调节热水供给系统 | CN201080063633.7 | 2010-03-02 | CN102753917A | 2012-10-24 | 小松智弘; 小谷正直; 内田麻理; 国眼阳子 |
| 提高空气调节热水供给系统整体的效率。本发明具备用于在热水供给运行中利用在采暖运行中产生的温热的热水供给辅助单元(80)。控制装置(1a)具备:推定当前的空气调节负荷的单元(S10);推定当前的空气调节消耗电力的单元(S11);推定当前的热水供给负荷的单元(S12);推定当前的热水供给消耗电力的单元(S13);临时决定所推定的空气调节负荷的单元(S16);对临时决定的空气调节负荷加上预先决定的值来计算新的空气调节负荷的单元(S18);根据新的空气调节负荷来计算空气调节消耗电力的单元(S18);根据新的空气调节负荷来计算热水供给负荷的单元(S19);根据新的热水供给负荷来计算热水供给消耗电力的单元(S20);比较消耗电力合计值的单元(S22);以及在消耗电力合计值变小的情况下(在S22为是),控制热水供给辅助单元的动作以便接近新的空气调节负荷。 | ||||||
| 10 | Combined hot water and space heating and conditioning system including heat pump | US14977837 | 2015-12-22 | US10012393B2 | 2018-07-03 | Sridhar Deivasigamani; Sivaprasad Akasam |
| A combined water heating, space heating and space cooling system configured to provide hot water to a point of demand and heat or cool a space. The system comprises a heat pump operably connected to the space, a water flow loop including a main heat exchanger, a fluid mover for moving a fluid configured to flow within the flow loop, an air-to-water heat exchanger, a burner adapted to heat the fluid, a blower having an air inlet end and an air outlet end, wherein the blower is adapted to move air through the air-to-water heat exchanger and operably connected to the main heat exchanger and a secondary heat exchanger operably connecting the flow loop and the heat pump. The air-to-water heat exchanger is disposed on the air inlet end and the main heat exchanger is disposed on the air outlet end. | ||||||
| 11 | CONDUIT MODULE COUPLED WITH HEATING OR COOLING MODULE | US15410659 | 2017-01-19 | US20170130976A1 | 2017-05-11 | Charles P. Medlock; Christopher P. Medlock; Jonathan A. Brock |
| A heating and cooling system for use with hot, cold and source fluid circuits. A conduit module couples a heating/cooling module with the fluid circuits. The conduit module includes four three-way valves to communicated fluid from and to the fluid circuits to first and second heat exchangers in the heating/cooling module. The first heat exchanger is used to heat a fluid flow and the second one chills a second fluid flow. The conduit module simultaneously supplies a hot fluid flow to a hot fluid circuit and a cold fluid to a cold fluid circuit. The source fluid is routed by the conduit module. A method of circulating fluid is also disclosed. | ||||||
| 12 | Conduit module coupled with heating or cooling module | US14094465 | 2013-12-02 | US09562708B2 | 2017-02-07 | Charles P. Medlock; Christopher P. Medlock; Jonathan A. Brock |
| A heating and cooling system for use with hot, cold and source fluid circuits. A conduit module couples a heating/cooling module with the fluid circuits. The conduit module includes four three-way valves to communicated fluid from and to the fluid circuits to first and second heat exchangers in the heating/cooling module. The first heat exchanger is used to heat a fluid flow and the second one chills a second fluid flow. The conduit module simultaneously supplies a hot fluid flow to a hot fluid circuit and a cold fluid to a cold fluid circuit. The source fluid is routed by the conduit module. | ||||||
| 13 | COMBINED HOT WATER AND SPACE HEATING AND CONDITIONING SYSTEM INCLUDING HEAT PUMP | US14977837 | 2015-12-22 | US20160178219A1 | 2016-06-23 | Sridhar Deivasigamani; Sivaprasad Akasam |
| A combined water heating, space heating and space cooling system configured to provide hot water to a point of demand and heat or cool a space. The system comprises a heat pump operably connected to the space, a water flow loop including a main heat exchanger, a fluid mover for moving a fluid configured to flow within the flow loop, an air-to-water heat exchanger, a burner adapted to heat the fluid, a blower having an air inlet end and an air outlet end, wherein the blower is adapted to move air through the air-to-water heat exchanger and operably connected to the main heat exchanger and a secondary heat exchanger operably connecting the flow loop and the heat pump. The air-to-water heat exchanger is disposed on the air inlet end and the main heat exchanger is disposed on the air outlet end. | ||||||
| 14 | CO2 BASED DISTRICT ENERGY SYSTEM | US12526877 | 2008-02-16 | US20100018668A1 | 2010-01-28 | Daniel Favrat; Céline Weber |
| District energy system comprising a pipe system, end user's locations, and an optional plant for transferring an energy transfer medium between said end user's locations and/or between said optional plant and said end user's locations, characterized by the fact that said energy transfer medium is CO2. | ||||||
| 15 | Dynamic heating and cooling of a building using liquid foam | US10142881 | 2002-05-13 | US20020134541A1 | 2002-09-26 | Richard C. Nelson |
| A heating and cooling system for controlling and regulating the temperature within a building envelope (10) having roof and wall cavities (14) adapted to receive replaceable foam liquid. The interior of the building envelope (10) is maintained at any specific controlled temperature by controlling the temperature of the liquid foam. The temperature of the liquid foam within the roof and wall cavities (14) is sensed and when a change in temperature is detected, a dynamic liquid foam regeneration unit is triggered so as to supply new liquid foam at an appropriate temperature so as to maintain the overall temperature of the liquid foam in the roof and wall cavities (14) substantially constant. | ||||||
| 16 | Apparatus for heating a building using a heat pipe | US43178 | 1998-03-16 | US6006998A | 1999-12-28 | Michel Rerolle |
| An apparatus, based on a heat pipe, is provided for heating a building having at least one enclosed space that is bounded by a wall. The apparatus includes a plurality of passive heat transfer modules distributed along a dimension of the building and a hot source. Each passive heat transfer module includes a closed volume filled with two-phrase heat transfer fluid, at least one evaporator located outside of the enclosed space, downwardly directed heaters formed from a condenser tube, and an adiabatic circuit connecting an outlet of the evaportor and an inlet of the condenser tube. The heaters are spaced from the evaporator and located inside and at a top of the enclosed space to be heated. The hot source is located outside of the enclosed space to be heated but in heat exchange relationship with the evaporator. The hot source includes a lagged duct for the flow of a gas stream at high temperature and the adiabatic circuit passes through the wall of the enclosed space to be heated. | ||||||
| 17 | Apparatus for heating an operator's cabin | US225610 | 1981-01-16 | US4386735A | 1983-06-07 | Paul Tholen; Achim Z. Nieden |
| Apparatus for heating the cabin of a vehicle operated by an internal combustion engine. The apparatus includes a pump for circulating hot oil from the engine sump and a heat exchanger for heating cabin air with heat from the oil. A throttle valve is mounted downstream from the pump to heat the oil and provide a source of heat particularly during warm-up periods. Also the apparatus includes an adjustable flow apportioning valve for selectively and adjustably dividing the flow of oil downstream from the throttle valve into two separate streams. The heat from one of the separate streams is then recycled directly into the oil at the pump suction. This arrangement maximizes the efficient useage of the heat generated in the throttle for cabin heating purposes. Also disclosed is an improved throttle valve for use in connection with the heating apparatus. | ||||||
| 18 | Element for heating system | US447729 | 1974-03-04 | US3944395A | 1976-03-16 | George H. Lutz |
| A heating system utilizing a closed oil system and a friction element for heating the oil as the oil is forced through the element. The oil's path is from a storage tank through the friction element, then to the radiation units and then is returned to the storage tank. A high temperature path and a low temperature path are provided to improve comfort control.The heating element is formed of woven stainless steel which is compressed in a mold to obtain sufficient strand density to produce a high heat of friction. | ||||||
| 19 | Electromagnetic induction heating apparatus | US454675 | 1974-03-25 | US3936625A | 1976-02-03 | Henry J. Burnett |
| An electromagnetic induction heating apparatus comprises a heating unit which includes a tank having a removable cover and inlet and outlet openings and containing a quantity of liquid. A plurality of electromagnetic induction heaters arranged in series and releasably supported in fixed position within the tank between the inlet and outlet openings are immersed in the liquid and controlled by an external electrical control circuit to heat the liquid to a predetermined temperature. Conduits connected to the heating unit carry liquid to and from the unit and may be arranged in a closed loop to continuously recirculate heated liquid through the heating unit when the apparatus is provided to heat a building or the like or to preheat lubricating oil in a lubrication system. The apparatus may also be arranged to receive fuel oil from a supply source, preheat the oil, and supply it to a burner for firing a boiler or the like. | ||||||
| 20 | MONITORING AND OPERATION OF A LIQUID FLOW CIRCUIT CONTAINING A CHEMICAL ADDITIVE | EP14806340.7 | 2014-11-07 | EP3071891A1 | 2016-09-28 | DAY, Paul |
| In a heat transfer system (10) including a liquid flow circuit (14) within which a liquid containing a chemical additive is circulated to flow through one or more transfer devices (11, 12) the circuit is provided with a sensor (17) operable to provide an output signal in the event of liquid flow into the liquid flow circuit. | ||||||
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