Separation of halogenated compounds
    101.
    发明授权
    Separation of halogenated compounds 失效
    卤代化合物的分离

    公开(公告)号:US06821436B2

    公开(公告)日:2004-11-23

    申请号:US10377922

    申请日:2003-03-03

    CPC classification number: C07C17/389 C07C19/08

    Abstract: A process for removing a chlorinated methane impurity from a stream comprising a halogenated compound other than the chlorinated methane impurity, the process comprising contacting the stream with a polymer adsorbent to produce a purified product stream, the polymer adsorbent having a pore size distribution characterized by a higher cumulative porosity as a function of the log of pore diameter than that of activated carbon.

    Abstract translation: 一种从包含氯化甲烷杂质以外的卤代化合物的流中除去氯化甲烷杂质的方法,该方法包括使该流与聚合物吸附剂接触以产生纯化的产物流,该聚合物吸附剂具有孔径分布,其特征在于: 作为孔径对数比活性炭的函数的更高的累积孔隙率。

    Distributed life cycle development tool for controls
    102.
    发明授权
    Distributed life cycle development tool for controls 失效
    用于控制的分布式生命周期开发工具

    公开(公告)号:US06546297B1

    公开(公告)日:2003-04-08

    申请号:US09378509

    申请日:1999-08-20

    Abstract: A control system for a device, such as an appliance, is designed by storing software representations of pre-existing control panel components (2005) and pre-existing control processes (2010) on a computer, using the computer to develop a control panel for the device by selecting and placing software representations of pre-existing control panel objects in a software representation of the control panel (2015), and using the computer to develop control software for the device by selecting software representations of pre-existing control processes and associating the selected control processes with the selected control panel objects (2020). The control software then is downloaded from the computer to control hardware to be included in the device (2025). Finally, the device is tested using the control software running on the control hardware and under the control of the computer (2030). A system (2100) for designing a control system for a device (2105) includes a computer (2110) having an input unit (2115), an output unit (2120), a processor (2125), a storage device (2130) on which the software representations (2140) are stored, and a display (2135) on which a representation of the control panel is presented. The system also includes control hardware (2145) connected to active components (2150) of the device (2105) and operable to receive data from the output unit (2120) of the computer (2110). The processor (2125) is programmed to generate the control system in the manner discussed above.

    Abstract translation: 用于设备(​​例如设备)的控制系统是通过在计算机上存储预先存在的控制面板组件(2005)和预先存在的控制过程(2010)的软件表示来设计的,使用该计算机开发用于 该设备通过在控制面板(2015)的软件表示中选择和放置预先存在的控制面板对象的软件表示,并且使用计算机通过选择预先存在的控制过程的软件表示和关联来开发设备的控制软件 所选择的控制面板对象的控制处理(2020)。 然后从计算机下载控制软件以控制要包括在设备中的硬件(2025)。 最后,使用在控制硬件上运行的控制软件和计算机的控制(2030)测试设备。 一种用于设计用于设备(​​2105)的控制系统的系统(2100),包括具有输入单元(2115),输出单元(2120),处理器(2125),存储设备(2130) 存储软件表示(2140)的显示器(2135),其上呈现控制面板的表示。 该系统还包括连接到设备(2105)的有源组件(2150)并且可操作以从计算机(2110)的输出单元(2120)接收数据的控制硬件(2145)。 处理器(2125)被编程为以上述方式产生控制系统。

    Purification of 1, 1-difluoroethane
    106.
    发明授权
    Purification of 1, 1-difluoroethane 失效
    纯化1,1-二氟乙烷

    公开(公告)号:US5744661A

    公开(公告)日:1998-04-28

    申请号:US729702

    申请日:1996-10-07

    CPC classification number: C07C17/38

    Abstract: A method for removing unsaturated impurities from 1,1-difluoroethane by intimately contacting the impure 1,1-difluoroethane with sulfuric acid. This process is especially useful for removing one or more unsaturated halocarbons having two carbon atoms such as vinyl chloride, vinyl fluoride and blends thereof from the 1,1-difluoroethane.

    Abstract translation: 通过使不纯的1,1-二氟乙烷与硫酸紧密接触,从1,1-二氟乙烷除去不饱和杂质的方法。 该方法特别可用于从1,1-二氟乙烷中除去具有两个碳原子的一种或多种不饱和卤代烃,如氯乙烯,氟乙烯及其共混物。

    Apparatus and method for fracking optimization

    公开(公告)号:US12270286B2

    公开(公告)日:2025-04-08

    申请号:US18436806

    申请日:2024-02-08

    Applicant: David Cook

    Inventor: David Cook

    Abstract: An apparatus and method for fracking optimization, wherein the apparatus includes at least a processor, and a memory, wherein the memory containing instructions configuring the at least a processor to receive a reservoir datum from at least a sensing device, generate a production training data include a plurality of reservoir datums as input correlated to a plurality of optimal production parameters as output, train a fracking optimization machine-learning model using the production training data, determine an optimal production parameter as a function of the fracking optimization machine-learning model, and generating an optimal production plan as a function of the optimal production parameter.

    APPARATUS AND METHOD FOR GENERATING A COMPILED ARTIFICIAL INTELLIGENCE (AI) MODEL

    公开(公告)号:US20250111225A1

    公开(公告)日:2025-04-03

    申请号:US18737091

    申请日:2024-06-07

    Applicant: David Cook

    Inventor: David Cook

    Abstract: An apparatus and method for generating a compiled artificial intelligence (AI) model. The apparatus incudes a processor that is configured to receive data sets from user devices. The processor is further configured to convert the data sets using a machine-learning model into a cleansed data format and generate an accumulated model using the converted data sets as training data.

    Apparatus and method for multi-stage fracking

    公开(公告)号:US12159091B2

    公开(公告)日:2024-12-03

    申请号:US18405465

    申请日:2024-01-05

    Applicant: David Cook

    Inventor: David Cook

    Abstract: An apparatus for multi-stage fracking, wherein the apparatus includes a pump configured to pump a fracking fluid into a rock region comprises a plurality of rock zones, and a computing device communicatively connected to the pump, wherein the computing device includes at least a processor, and a memory communicatively connected to the at least a processor containing instructions configuring the at least a processor to receive reservoir data, determine an optimal fracking stimulation parameter as a function of the reservoir data, identify a fracking stage as a function of the optimal fracking stimulation parameter, and adjust a pump configuration of the pump as a function of the fracking stage.

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