-
公开(公告)号:US20100257882A1
公开(公告)日:2010-10-14
申请号:US12820241
申请日:2010-06-22
Applicant: Krassimire Mihaylov Penev , Gordon Patrick Whelan
Inventor: Krassimire Mihaylov Penev , Gordon Patrick Whelan
CPC classification number: F24D17/0021 , F24D17/0036 , F24D17/02 , F24D19/106 , F24D2200/123 , F24D2200/14 , F24D2220/06 , F24D2220/08 , F24D2240/10 , Y02A30/272 , Y02B10/20 , Y02B10/24 , Y02B10/70
Abstract: A hybrid heating apparatus heats potable water with waste heat from heat recovery units and insolation from solar collectors. A single circulation pump circulates fluid between at least one heat exchanger and each of the heat recovery units and preferably the solar collector. A single controller receives sensor readings from the heat recovery units and the solar collector units and receives a demand to heat the potable water. To satisfy the demand, the controller determines the extent to which the demand may be satisfied from heat available from the heat recovery units and the solar collector units and sends command signals both to the circulating pump to circulate the fluid and to appropriate ones of valves at connections to those heat recovery units and solar collector units to allow fluid to circulate to be heated to flow to the heat exchanger for effecting heat exchange to heat the potable water.
Abstract translation: 混合加热装置利用来自热回收装置的废热加热饮用水,并从太阳能收集器进行日照加热。 单个循环泵在至少一个热交换器和每个热回收单元之间循环流体,优选地将太阳能收集器循环。 单个控制器从热回收单元和太阳能收集器单元接收传感器读数,并接收对饮用水加热的需求。 为了满足需求,控制器确定从热回收单元和太阳能收集器单元可获得的热量可以满足需求的程度,并且向循环泵发送命令信号以使流体和适当的阀门循环 与那些热回收单元和太阳能收集器单元的连接,以允许流体循环以被加热以流动到热交换器以进行热交换以加热饮用水。
-
公开(公告)号:US20100031953A1
公开(公告)日:2010-02-11
申请号:US12205979
申请日:2008-09-08
Applicant: Krassimire Mihaylov Penev , Gordon Patrick Whelan
Inventor: Krassimire Mihaylov Penev , Gordon Patrick Whelan
CPC classification number: F24D17/02 , F24D17/0021 , F24D17/0036 , F24D19/106 , F24D2200/123 , F24D2200/14 , F24D2220/06 , F24D2220/08 , F24D2240/10 , Y02B10/20 , Y02B10/40 , Y02B10/70
Abstract: A water heating system for controlling the heating of potable water in commercial or private dwellings with improved energy efficiency. The water heating system heats potable water in a tank by transferring excess heat generated in a refrigeration unit with a heat exchanger, and by extracting energy from insolation with a solar water heater unit. The system includes several control systems for regulating the operation of the heat exchanger, solar water heater unit, and refrigeration unit to provide increased energy efficiency and longevity to the various components of the system.
Abstract translation: 一种用于控制在商业或私人住宅中饮用水的加热的水加热系统,其能量效率提高。 水加热系统通过用热交换器传递在制冷单元中产生的多余的热量,并且通过用太阳能热水器单元从日照中提取能量来加热罐中的饮用水。 该系统包括用于调节热交换器,太阳能热水器单元和制冷单元的操作的多个控制系统,以为系统的各个部件提供更高的能量效率和寿命。
-
公开(公告)号:US08037931B2
公开(公告)日:2011-10-18
申请号:US12820241
申请日:2010-06-22
Applicant: Krassimire Mihaylov Penev , Gordon Patrick Whelan
Inventor: Krassimire Mihaylov Penev , Gordon Patrick Whelan
CPC classification number: F24D17/0021 , F24D17/0036 , F24D17/02 , F24D19/106 , F24D2200/123 , F24D2200/14 , F24D2220/06 , F24D2220/08 , F24D2240/10 , Y02A30/272 , Y02B10/20 , Y02B10/24 , Y02B10/70
Abstract: A hybrid heating apparatus heats potable water with waste heat from heat recovery units and insolation from solar collectors. A single circulation pump circulates fluid between at least one heat exchanger and each of the heat recovery units and preferably the solar collector. A single controller receives sensor readings from the heat recovery units and the solar collector units and receives a demand to heat the potable water. To satisfy the demand, the controller determines the extent to which the demand may be satisfied from heat available from the heat recovery units and the solar collector units and sends command signals both to the circulating pump to circulate the fluid and to appropriate ones of valves at connections to those heat recovery units and solar collector units to allow fluid to circulate to be heated to flow to the heat exchanger for effecting heat exchange to heat the potable water.
Abstract translation: 混合加热装置利用来自热回收装置的废热加热饮用水,并从太阳能收集器进行日照加热。 单个循环泵在至少一个热交换器和每个热回收单元之间循环流体,并且优选地将太阳能收集器循环。 单个控制器从热回收单元和太阳能收集器单元接收传感器读数,并接收对饮用水加热的需求。 为了满足需求,控制器确定从热回收单元和太阳能收集器单元可获得的热量可以满足需求的程度,并且向循环泵发送命令信号以使流体和适当的阀门循环 与那些热回收单元和太阳能收集器单元的连接,以允许流体循环以被加热以流动到热交换器以进行热交换以加热饮用水。
-
公开(公告)号:US20140076641A1
公开(公告)日:2014-03-20
申请号:US14086926
申请日:2013-11-21
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
CPC classification number: B60L7/28 , B60K11/02 , B60K16/00 , B60K2001/006 , B60K2016/006 , B60L7/10 , B60L8/003 , B60L8/006 , B60L2200/26 , B60L2220/46 , F03D9/007 , F03D9/25 , F03D9/32 , H02S10/12 , Y02T10/7083 , Y02T10/90
Abstract: Wheels may be equipped with a stator and rotor to induce current to generate electricity as the wheels rotate or to slow down the wheels in response to the application of a brake of the vehicle. Air may be sucked through the wheels through mesh screens to create air flow that passes through ductwork to reach a turbine generator, which generates electricity in response to blade rotation from air flow. A roof mounted solar energy conversion system may generate electricity. A vehicle power supply boosts its energy from all the electricity generated.
Abstract translation: 轮子可以配备有定子和转子,以响应于车辆的制动器的应用,当车轮旋转或者使车轮减速时,引发电流发电。 空气可以通过网状物通过网筛吸入,以产生通过管道系统到达涡轮发电机的空气流,涡轮发电机响应于叶片从空气流的旋转而产生电力。 屋顶安装的太阳能转换系统可能会发电。 车辆电源从所有发电增加能源。
-
5.发明授权公开(公告)号:US09080558B2
公开(公告)日:2015-07-14
申请号:US13714496
申请日:2012-12-14
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
CPC classification number: F03G6/065 , F24S23/71 , F24S90/00 , Y02B10/20 , Y02B30/52 , Y02E10/46 , Y10T29/49355
Abstract: A dual hybrid heating apparatus, method of assembly and operation to pre-heat vaporizable fluid by free heat sources—waste heat from heat recovery units and insolation. The pre-heated vaporizable fluid is routed to where a parabolic dish solar concentrator vaporizes it to turn a blade of a turbine generator to generate electricity. Heat is extracted from the vapor to form condensate, but the vapor also heats the condensate before being cooled by heat exchange with fluid cooled by a cooling tower.
Abstract translation: 一种双重混合式加热装置,通过自由热源预热可蒸发流体的装配和操作方法 - 来自热回收装置的废热和日照。 预热的可蒸发流体被引导到抛物面皿太阳能集中器蒸发它以将涡轮发电机的叶片转动以产生电力的地方。 从蒸汽中提取热量以形成冷凝物,但是蒸汽还可以在通过与由冷却塔冷却的流体进行热交换而冷却之前加热冷凝物。
-
Patent Agency Ranking
公开(公告)号:US08646550B2
公开(公告)日:2014-02-11
申请号:US13476192
申请日:2012-05-21
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
IPC: B60K16/00
CPC classification number: B60L8/003 , B60K16/00 , B60K25/08 , B60K2016/003 , B60K2016/006 , B60L7/10 , B60L8/006 , B60L2200/26 , B60L2220/46 , Y02T10/7083 , Y02T10/90
Abstract: Vehicle wheels may be equipped with a stator and rotor to induce current to generate electricity as the vehicle wheels rotate or to slow down the vehicle wheels in response to the application of a brake of the vehicle. Air may be sucked through the vehicle wheels through mesh screens to create air flow that passes through ductwork to reach a turbine generator, which generates electricity in response to blade rotation from air flow. A roof mounted solar energy conversion system may generate electricity. A vehicle power supply boosts its energy from all the electricity generated.
Abstract translation: 车轮可以配备有定子和转子,以响应于车辆的制动器的应用而引起电流,因为车轮转动或者使车轮减速。 空气可以通过车辆车轮通过筛网吸入,以产生通过管道系统的空气流,以到达涡轮发电机,其响应于叶片从空气流的旋转而产生电力。 屋顶安装的太阳能转换系统可能会发电。 车辆电源从所有发电增加能源。
-
7.发明申请公开(公告)号:US20140000257A1
公开(公告)日:2014-01-02
申请号:US13714496
申请日:2012-12-14
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
CPC classification number: F03G6/065 , F24S23/71 , F24S90/00 , Y02B10/20 , Y02B30/52 , Y02E10/46 , Y10T29/49355
Abstract: A dual hybrid heating apparatus, method of assembly and operation to pre-heat vaporizable fluid by free heat sources—waste heat from heat recovery units and insolation. The pre-heated vaporizable fluid is routed to where a parabolic dish solar concentrator vaporizes it to turn a blade of a turbine generator to generate electricity. Heat is extracted from the vapor to form condensate, but the vapor also heats the condensate before being cooled by heat exchange with fluid cooled by a cooling tower.
Abstract translation: 一种双重混合式加热装置,通过自由热源预热可蒸发流体的装配和操作方法 - 来自热回收装置的废热和日照。 预热的可蒸发流体被引导到抛物面皿太阳能集中器蒸发它以将涡轮发电机的叶片转动以产生电力的地方。 从蒸汽中提取热量以形成冷凝物,但是蒸汽还可以在通过与由冷却塔冷却的流体进行热交换而冷却之前加热冷凝物。
-
8.发明申请公开(公告)号:US20120047888A1
公开(公告)日:2012-03-01
申请号:US13234292
申请日:2011-09-16
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
CPC classification number: F03G6/065 , F24S23/71 , F24S90/00 , Y02B10/20 , Y02B30/52 , Y02E10/46 , Y10T29/49355
Abstract: A dual hybrid heating apparatus, method of assembly and operation to heat potable water in a tank by heat exchange with a fluid heated by free heat sources—waste heat from heat recovery units and insolation. Once a demand for heated potable water is satisfied, a controller issues commands that cause the fluid to bypass the tank and instead flow to a further heat exchanger. Temperature is monitored downstream—if excessive, then the fluid is sent to a heat dump. A further fluid is heated by heat exchange at the further heat exchanger and then routed to where a parabolic dish solar concentrator vaporizes it to turn a blade of a turbine generator to generate electricity. Heat is extracted from the vapor to form condensate, but the vapor also heats the condensate before being cooled by heat exchange with fluid cooled by a cooling tower.
Abstract translation: 一种双重混合式加热装置,通过与自由热源加热的流体 - 来自热回收单元的废热和日照的热量交换来加热罐中的饮用水的组装和操作的方法。 一旦满足对加热的饮用水的需求,控制器发出导致流体绕过罐的命令,并且改为流入另一个热交换器。 在下游监测温度 - 如果过多,则将流体送至散热器。 另外的流体通过在另外的热交换器处的热交换被加热,然后被引导到抛物面皿太阳能集中器蒸发它以使涡轮发电机的叶片转动以产生电力的地方。 从蒸汽中提取热量以形成冷凝物,但是蒸汽还可以在通过与由冷却塔冷却的流体进行热交换而冷却之前加热冷凝物。
-
公开(公告)号:US09067500B2
公开(公告)日:2015-06-30
申请号:US14086926
申请日:2013-11-21
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
CPC classification number: B60L7/28 , B60K11/02 , B60K16/00 , B60K2001/006 , B60K2016/006 , B60L7/10 , B60L8/003 , B60L8/006 , B60L2200/26 , B60L2220/46 , F03D9/007 , F03D9/25 , F03D9/32 , H02S10/12 , Y02T10/7083 , Y02T10/90
Abstract: Wheels may be equipped with a stator and rotor to induce current to generate electricity as the wheels rotate or to slow down the wheels in response to the application of a brake of the vehicle. Air may be sucked through the wheels through mesh screens to create air flow that passes through ductwork to reach a turbine generator, which generates electricity in response to blade rotation from air flow. A roof mounted solar energy conversion system may generate electricity. A vehicle power supply boosts its energy from all the electricity generated.
Abstract translation: 轮子可以配备有定子和转子,以响应于车辆的制动器的应用,当车轮旋转或者使车轮减速时,引发电流发电。 空气可以通过网状物通过网筛吸入,以产生通过管道系统到达涡轮发电机的空气流,涡轮发电机响应于叶片从空气流的旋转而产生电力。 屋顶安装的太阳能转换系统可能会发电。 车辆电源从所有发电增加能源。
-
10.发明授权公开(公告)号:US08356481B2
公开(公告)日:2013-01-22
申请号:US13234292
申请日:2011-09-16
Applicant: Krassimire Mihaylov Penev
Inventor: Krassimire Mihaylov Penev
CPC classification number: F03G6/065 , F24S23/71 , F24S90/00 , Y02B10/20 , Y02B30/52 , Y02E10/46 , Y10T29/49355
Abstract: A dual hybrid heating apparatus, method of assembly and operation to heat potable water in a tank by heat exchange with a fluid heated by free heat sources—waste heat from heat recovery units and insolation. Once a demand for heated potable water is satisfied, a controller issues commands that cause the fluid to bypass the tank and instead flow to a further heat exchanger. Temperature is monitored downstream—if excessive, then the fluid is sent to a heat dump. A further fluid is heated by heat exchange at the further heat exchanger and then routed to where a parabolic dish solar concentrator vaporizes it to turn a blade of a turbine generator to generate electricity. Heat is extracted from the vapor to form condensate, but the vapor also heats the condensate before being cooled by heat exchange with fluid cooled by a cooling tower.
Abstract translation: 一种双重混合式加热装置,通过与自由热源加热的流体 - 来自热回收单元的废热和日照的热量交换来加热罐中的饮用水的组装和操作的方法。 一旦满足对加热的饮用水的需求,控制器发出导致流体绕过罐的命令,并且改为流入另一个热交换器。 在下游监测温度 - 如果过多,则将流体送至散热器。 另外的流体通过在另外的热交换器处的热交换被加热,然后被送到抛物面皿太阳能集中器蒸发它的地方,以转动涡轮发电机的叶片以发电。 从蒸汽中提取热量以形成冷凝物,但是蒸汽还可以在通过与由冷却塔冷却的流体进行热交换而冷却之前加热冷凝物。
-
-
-
-
-
-
-
-
-
Search Results
10
records
(took 0.019 seconds)
