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    • 6. 发明授权
    • Refrigerant system with intercooler utilized for reheat function
    • 具有用于再热功能的中间冷却器的制冷剂系统
    • US08356491B2
    • 2013-01-22
    • US12447492
    • 2006-12-21
    • Michael F. TarasAlexander Lifson
    • Michael F. TarasAlexander Lifson
    • F25B41/00
    • F25B1/10F24F3/153F25B9/008F25B2309/061F25B2400/04F25B2400/072
    • A refrigerant system is provided with at least two stages of compression connected in series. An intercooler is positioned intermediate the two stages and is cooled by an indoor air stream. The intercooler is positioned to be in a path of air flow passing over an indoor heat exchanger, and preferably downstream of the indoor heat exchanger, in relation to this airflow. The intercooler cools the refrigerant flowing between the two compression stages as well as provides the reheat function. Benefits with regard to system performance (efficiency, capacity and reliability) are achieved with no additional circuitry or components required to provide the intercooler and reheat functions. This invention is particularly important for the CO2 refrigerant systems operating in the transcritical cycle. Methods of control are presented for both the intercooler and reheat functions.
    • 制冷剂系统具有串联连接的至少两级的压缩级。 中间冷却器位于两级之间,并被室内空气流冷却。 中间冷却器被定位成相对于该气流而位于通过室内热交换器,并且优选地在室内热交换器的下游的空气流的路径中。 中间冷却器冷却在两个压缩级之间流动的制冷剂,并提供再热功能。 无需额外的电路或组件来提供中间冷却器和再加热功能,可以实现系统性能(效率,容量和可靠性)的优势。 本发明对于在跨临界循环中运行的二氧化碳制冷剂系统特别重要。 给出了中冷器和再热功能的控制方法。
    • 10. 发明申请
    • IMPROVED OPERATION OF A REFRIGERANT SYSTEM
    • 改进制冷系统的运行
    • US20110138827A1
    • 2011-06-16
    • US13057959
    • 2009-08-06
    • Alexander LifsonMichael F. Taras
    • Alexander LifsonMichael F. Taras
    • F25B1/00F25D17/02F25B41/04
    • F04B39/00F25B1/10F25B41/043F25B2400/13F25B2600/2509F25B2700/1931F25B2700/2106
    • A method and system for operating a refrigerant system having a reciprocating compressor with a main cylinder module and an economizer cylinder module includes regulating a flow of refrigerant into the main cylinder module and regulating a flow of refrigerant into the economizer cylinder module. The main cylinder module and the economizer cylinder module have separate inlet and outlet discharge streams. The flow through each module is regulated as a function of an operating mode of the refrigerant system, which includes various modes of loading and unloading based, in part, on a cooling demand. In some embodiments, the refrigerant system may include a connector refrigerant line configured to redirect refrigerant from the economizer cylinder module to the main cylinder module or from the main cylinder module to the economizer cylinder module.
    • 一种用于操作具有带有主缸模块和节能器缸模块​​的往复式压缩机的制冷剂系统的方法和系统包括调节制冷剂流入主缸模块并调节制冷剂流入节能器缸模块​​的流量。 主气缸模块和节能气缸模块具有独立的入口和出口排出流。 通过每个模块的流量作为制冷剂系统的操作模式的功能被调节,其包括部分地基于冷却需求的各种装载和卸载模式。 在一些实施例中,制冷剂系统可以包括连接器制冷剂管线,该连接器制冷剂管线被配置为将制冷剂从节能器缸体模块重新定向到主缸体模块或者从主缸体模块重定向到节能器缸模块​​。