会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 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。
    • 2. 发明申请
    • STEAM-BASED HVAC SYSTEM
    • 基于蒸汽的暖通空调系统
    • US20080173723A1
    • 2008-07-24
    • US12052009
    • 2008-03-20
    • Igor Zhadanovsky
    • Igor Zhadanovsky
    • F24D1/00
    • F24D1/00Y10T137/8593
    • Various methods and devices are provided for heating, cooling, and humidifying a space using a steam-based HVAC system having a steam source, at least one radiator located in a space to be heated or humidified, and a steam and condensate transfer apparatus extending between the steam source and the radiator. The steam and condensate transfer apparatus can have an inner tube configured for transferring steam disposed within an outer tube configured for transferring condensate and the inner tube can be centered within the outer tube such that the outer tube forms an annulus around the inner tube. The tube-in-tube conduit system or double-tube conduit system can take the form of Lego®-like components that can be fitted together to form the structure needed to deliver steam to light-weight flat-panel radiators located within all areas to be heated and/or humidified. The HVAC system can further include a cold air source for delivering cold air into the tube-in-tube conduit system to provide cold air to registers within spaces to be cooled. In one embodiment, the steam and condensate transfer apparatus can be formed from a thermoplastic, for example, polysulfone.
    • 提供了各种方法和装置,用于使用具有蒸汽源的蒸汽型HVAC系统来加热,冷却和加湿空间,至少一个位于待加热或加湿空间的散热器,以及蒸汽和冷凝水输送装置, 蒸汽源和散热器。 蒸汽和冷凝物输送装置可以具有内管,其构造成用于传送设置在用于输送冷凝物的外管内的蒸汽,并且内管可以在外管内居中,使得外管围绕内管形成环。 管中管道系统或双管导管系统可以采用类似Lego(R)的组件的形式,可以将其组装在一起形成将蒸汽输送到位于所有内部的轻质平板散热器所需的结构 要加热和/或加湿的区域。 HVAC系统还可以包括用于将冷空气输送到管中管道系统中的冷空气源,以向要冷却的空间内的寄存器提供冷空气。 在一个实施例中,蒸汽和冷凝物输送装置可以由热塑性塑料例如聚砜形成。
    • 4. 发明申请
    • VAPOR VACUUM HEATING SYSTEMS AND INTEGRATION WITH CONDENSING VACUUM BOILERS
    • 蒸气真空加热系统和集成真空锅炉
    • US20140034743A1
    • 2014-02-06
    • US14025292
    • 2013-09-12
    • IGOR ZHADANOVSKY
    • IGOR ZHADANOVSKY
    • F24D19/10F24D1/02
    • 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。
    • 7. 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。
    • 8. 发明申请
    • Vapor/vacuum heating system
    • 蒸气/真空加热系统
    • US20110198406A1
    • 2011-08-18
    • US12984468
    • 2011-01-04
    • Igor Zhadanovsky
    • Igor Zhadanovsky
    • F24D1/00B60H1/00
    • F24D1/00F01K17/02F22B35/005F24D1/02F24D1/08F24D19/1003F24D2220/0264Y02B30/16Y02E20/14
    • A building heating system with cycling steam source used for plurality of radiators is provided. During heating cycle condensate is retained in radiators and released later through steam supply line. Such condensate and steam flows alternation eliminates water hammering and justify usage of smaller diameter tubes and new radiator design. When air is evacuated, system operates like branched heat pipe with periodic condensate return. System may include vacuum check valve on air vent lines and operational procedure to create vacuum naturally by steam condensing in a closed space after complete air purging from the system. Steam/vapor source's cut off pressure can be adjusted to regulate the vapor's temperature depending on the outside temperature. Method is proposed for conversion of the existing steam heating systems into a vapor/vacuum system with naturally induced vacuum.
    • 提供了一种用于多个散热器的具有循环蒸汽源的建筑物加热系统。 在加热循环期间,冷凝物保留在散热器中,并通过蒸汽供应管线释放。 这种冷凝水和蒸汽流量交替消除了水击,并证明使用较小直径的管和新的散热器设计。 当空气抽真空时,系统就像分支式热管一样工作,并具有周期性冷凝水回流。 系统可以包括空气排放管线上的真空止回阀和在从系统完全清空空气之后在封闭空间中通过蒸汽冷凝来自然产生真空的操作过程。 蒸气/蒸汽源的切断压力可根据外界温度进行调节,以调节蒸气的温度。 提出了将现有蒸汽加热系统转换成具有自然诱导真空的蒸汽/真空系统的方法。