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    • 2. 发明申请
    • SYSTEMS AND METHODS FOR CONTROLLING CONDITIONED FLUID SYSTEMS IN A BUILT ENVIRONMENT
    • 用于控制建筑环境中的调节流体系统的系统和方法
    • US20150323200A1
    • 2015-11-12
    • US14709466
    • 2015-05-11
    • Jerritt L. GluckLaszlo Osher
    • Jerritt L. GluckLaszlo Osher
    • F24D19/10F24D1/02
    • F24D1/02F22B1/00F22B5/00F22B35/18F24D5/04F24D19/1003Y02B30/16
    • The systems and methods of this disclosure control the flow rate of conditioned fluid at thermal distribution devices and at a conditioned fluid source that supplies conditioned fluid to the thermal distribution devices. The systems include multiple thermal distribution devices disposed throughout multiple rooms of a building, a fluid flow control device in fluid communication with each of the thermal distribution devices, multiple sensors disposed on each of the thermal distribution devices, a room temperature sensor disposed in each of the rooms, a first controller coupled to each of the fluid flow control devices, and a second controller coupled to a source of conditioned fluid. The first controllers control respective fluid flow control devices based on the measurement data obtained from the sensors and the room temperature sensors and a second controller controls the conditioned fluid source based on the demand for conditioned fluid by the thermal distribution devices.
    • 本公开的系统和方法控制热分配装置处的调节流体的流量,以及将调节流体供应到热分配装置的调节流体源。 这些系统包括设置在建筑物的多个房间中的多个热分配装置,与每个热分配装置流体连通的流体流量控制装置,设置在每个热分配装置上的多个传感器,设置在每个热分配装置中的室温传感器 房间,耦合到每个流体流量控制装置的第一控制器,以及耦合到调节流体源的第二控制器。 第一控制器基于从传感器和室温传感器获得的测量数据来控制各流体流量控制装置,第二控制器基于热分配装置对调节流体的需求来控制调节流体源。
    • 3. 发明授权
    • Vapor vacuum heating systems and integration with condensing vacuum boilers
    • 蒸汽真空加热系统,并与冷凝式真空锅炉集成
    • US08702013B2
    • 2014-04-22
    • US14025292
    • 2013-09-12
    • Igor Zhadanovsky
    • Igor Zhadanovsky
    • F24D1/08F24D1/02F24D1/00
    • F24H8/00F01K17/02F22B35/005F24D1/00F24D1/02F24D1/08F24D19/1003F24D2220/0264F24H1/0009Y02B30/16Y02E20/14
    • In order to solve the numerous problems with existing steam, vacuum, and hot water heating systems, first presented is a novel system and method for a vapor vacuum system having low temperature condensate return which can operate without steam traps in both single-pipe and dual-pipe configurations. Secondly is disclosed systems and methods for integrating the disclosed vapor vacuum system with a condensing boiler. Thirdly is presented several systems and method of operating radiators having low temperature condensate return with the disclosed vapor vacuum system. Finally is presented condensing vacuum boiler designs that can be utilized with the disclosed vapor vacuum system. Also presented are embodiments having naturally-induced vacuum and utilizing district heat as well as combined heat and power. All innovations presented herein make vapor vacuum steam more efficient and economical for industrial, commercial, and home applications.
    • 为了解决现有蒸汽,真空和热水加热系统的众多问题,首先提出了一种具有低温冷凝水回流的蒸气真空系统的新型系统和方法,该系统和方法可在单管和双通 管道配置。 其次公开了将所公开的蒸气真空系统与冷凝锅炉整合的系统和方法。 第三,提出了几种使用所公开的蒸气真空系统来操作具有低温冷凝物返回的散热器的系统和方法。 最后提出可以与公开的蒸气真空系统一起使用的冷凝式真空锅炉设计。 还提供了具有自然诱导的真空并利用区域热以及组合的热和功率的实施例。 本文提出的所有创新使蒸汽真空蒸汽对于工业,商业和家庭应用来说更有效率和经济。
    • 4. 发明申请
    • Wirelessly controlled heating system
    • 无线控制加热系统
    • US20110127343A1
    • 2011-06-02
    • US12592762
    • 2009-12-02
    • Steven Rimmer
    • Steven Rimmer
    • F24D1/02G05D23/00F24D1/00
    • F24D1/00F24D1/02F24D19/1003
    • The system includes a boiler, and multiple radiators connected to the boiler via a network of pipes. It includes a central processor for monitoring and control, air vent controllers that control the flow of steam through the radiators and a boiler control which turns the boiler on and off. The radiators are divided into groups. The central controller communicates with the air vent controllers to determine the conditions in the various groups. Based at least in part on the conditions, central controller may determine that the group requires heat. If heat is required and other parameters agree, central processor determines the state of the boiler. If off, the boiler is instructed to turn on and the air vent controllers in the group are instructed to open. Each air vent controller in that heat zone will then open allowing air to flow through the radiator and heat to be provided.
    • 该系统包括锅炉,以及通过管网连接到锅炉的多个散热器。 它包括一个用于监测和控制的中央处理器,用于控制通过散热器的蒸汽流量的排气控制器,以及打开和关闭锅炉的锅炉控制。 散热器分为几组。 中央控制器与通风口控制器通信,以确定各组的状况。 至少部分地基于条件,中央控制器可以确定该组需要热量。 如果需要加热并且其他参数一致,则中央处理器确定锅炉的状态。 如果关闭,则指示锅炉打开,并且指示组中的排气控制器打开。 然后,该热区中的每个排气控制器将打开,允许空气流过散热器并提供热量。
    • 9. 发明授权
    • Vacuum sustaining heating systems and methods
    • 真空维持加热系统和方法
    • US09027846B2
    • 2015-05-12
    • US14553751
    • 2014-11-25
    • Igor Zhadanovsky
    • Igor Zhadanovsky
    • F24D1/08F24D19/10F24D19/00F24D19/08F24D1/02F24D1/00
    • F24D19/1003F01K17/02F16T1/48F22B35/005F24D1/00F24D1/02F24D1/08F24D19/0012F24D19/081F24D2220/0264F24H1/0009Y02B30/16Y02E20/14
    • In order to solve the numerous problems with existing steam, vacuum, and hot water heating systems, presented are novel systems and methods of vapor vacuum heating having several improvements over the prior art, including: condensate return which can operate without steam traps; naturally-induced vacuum; improved vacuum pump operation for sustaining vacuum in such systems; liquid lift apparatus for use with such systems; and other improvements. All innovations presented herein make vapor vacuum heating more efficient and economical for industrial, commercial, and home applications. A field test conducted with these innovations show results of about 26-50% reduced energy usage, implying significant energy savings from the use of the present invention over current heating systems.
    • 为了解决现有蒸汽,真空和热水加热系统的众多问题,提出了一种新型的蒸气真空加热系统和方法,其具有先前技术的几个改进,包括:冷凝水返回,其可在没有蒸汽疏水器的情况下运行; 自然诱导真空; 改进的真空泵操作,用于在这种系统中维持真空; 用于这种系统的液体提升装置; 和其他改进。 本文提出的所有创新都使蒸汽真空加热在工业,商业和家庭应用中更加高效和经济。 通过这些创新进行的现场测试显示出能源使用量减少约26-50%的结果,这意味着使用本发明比现有加热系统节省了显着的能源。
    • 10. 发明申请
    • STEAM DISTRIBUTION CONTROL SYSTEM AND METHOD FOR A STEAM HEATING SYSTEM
    • 蒸汽分配控制系统及蒸汽加热系统方法
    • US20100045470A1
    • 2010-02-25
    • US12544364
    • 2009-08-20
    • Steven P. ARAIZAAndrew J. BARTFAY-SZABO
    • Steven P. ARAIZAAndrew J. BARTFAY-SZABO
    • G08B21/00F24D1/02F24D19/10G05D7/06G05D23/19
    • G05D23/1934F24D1/00F24D1/02F24D19/1003Y02B30/762
    • A steam distribution control system and method for a steam heating system are provided. The steam heating system may include a plurality of radiators, a boiler that provides steam to the plurality of radiators, and a plurality of steam pipes that carry the steam to the plurality of radiators, respectively. The steam distribution control system may include a plurality of steam-air vents provided at the plurality of radiators, respectively, and a central controller in communication with the plurality of steam-air vents that selectively controls the plurality of steam-air vents to control an amount of steam distributed into each of the plurality of radiators. The method may include providing a steam-air vent at each of the plurality of radiators, and selectively controlling the plurality of steam-air vents to control an amount of steam distributed into each of the plurality of radiators.
    • 提供一种用于蒸汽加热系统的蒸汽分配控制系统和方法。 蒸汽加热系统可以包括多个散热器,向多个散热器提供蒸汽的锅炉,以及分别将蒸汽运送到多个散热器的多个蒸汽管。 蒸汽分配控制系统可以包括分别设置在多个散热器处的多个蒸汽通风口和与多个蒸汽通风口连通的中央控制器,该中央控制器选择性地控制多个蒸汽通风口来控制 分配到多个散热器中的每一个的蒸汽量。 该方法可以包括在多个散热器中的每一个处提供蒸汽通风口,并且选择性地控制多个蒸汽通风口以控制分配到多个散热器中的每一个的蒸汽量。