Patents by Inventor Jingwei Cui

Jingwei Cui has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 12163410
    Abstract: The disclosure provides a method and apparatus for predicting an optimal exploitation approach for shale oil in-situ conversion. The method includes: determining a lower limit temperature required for completely converting convertible organic matter in a shale to be measured into oil and gas, based on a pre-established relationship between the temperature rise rate and the lower limit temperature; determining an optimal well distance of heating wells, based on a thermal field parameter of a target reservoir of interest, an optimal heating time corresponding to the lower limit temperature, and a pre-established relationship between an optimal well distance of heating wells and the optimal heating time; determining an oil yield equivalent based on a temperature and an oil yield equivalent of the shale; determining an optimal well pattern; the lower limit temperature, the optimal well distance of heating wells, the oil yield equivalent and the optimal well pattern are optimal parameters.
    Type: Grant
    Filed: February 24, 2020
    Date of Patent: December 10, 2024
    Assignee: PETROCHINA COMPANY LIMITED
    Inventors: Lianhua Hou, Jinghong Wang, Jingwei Cui, Zhongying Zhao
  • Patent number: 11271444
    Abstract: The motor rotor assembly structure includes a rotating shaft, a plurality of rotor cores formed by a plurality of rotor punches neatly laminated, and rotor pressure plates installed at front and rear ends of the rotor core. The rotor core is provided with a shaft hole for mounting the rotating shaft in the middle in an axial direction. Two rotor pressure plates press the plurality of rotor punches. The rotating shaft is a hollow shaft. The plurality of rotor punches has the same structure. Each of the rotor punches is provided with a plurality of sets of positioning holes. The plurality of rotor punches is positioned and fixed to the rotating shaft through the plurality of sets of positioning holes to realize oblique poles between rotor segments. The motor rotor assembly structure is made by laminating one type of rotor punches.
    Type: Grant
    Filed: December 26, 2018
    Date of Patent: March 8, 2022
    Assignee: Hefei Jee Power Systems, Co., Ltd.
    Inventors: Lei Liu, Jialun Fan, Chunzhe Sun, Yuehua Li, Jingwei Cui
  • Publication number: 20220034213
    Abstract: The disclosure provides a method and apparatus for predicting an optimal exploitation approach for shale oil in-situ conversion. The method includes: determining a lower limit temperature required for completely converting convertible organic matter in a shale to be measured into oil and gas, based on a pre-established relationship between the temperature rise rate and the lower limit temperature; determining an optimal well distance of heating wells, based on a thermal field parameter of a target reservoir of interest, an optimal heating time corresponding to the lower limit temperature, and a pre-established relationship between an optimal well distance of heating wells and the optimal heating time; determining an oil yield equivalent based on a temperature and an oil yield equivalent of the shale; determining an optimal well pattern; the lower limit temperature, the optimal well distance of heating wells, the oil yield equivalent and the optimal well pattern are optimal parameters.
    Type: Application
    Filed: February 24, 2020
    Publication date: February 3, 2022
    Inventors: Lianhua Hou, Jinghong Wang, Jingwei Cui, Zhongying Zhao
  • Patent number: 10995599
    Abstract: Embodiments of the present disclosure disclose a shale oil in-situ lightening development method, apparatus and system, wherein the method comprises: determining an effective shale interval according to an interval with a total organic carbon greater than a first lower limit value in a target stratum; determining a favorable region for shale oil in-situ lightening development according to a thickness of the effective shale interval and an effective layer thickness ratio, wherein the effective layer thickness ratio includes a ratio of the thickness of the effective shale interval to a thickness of a shale section, and the shale section includes the effective shale intervals and interlayers therebetween. By utilizing the embodiments of the present disclosure, the benefit of the shale oil in-situ lightening development can be improved.
    Type: Grant
    Filed: July 11, 2019
    Date of Patent: May 4, 2021
    Assignee: PetroChina Company Limited
    Inventors: Lianhua Hou, Caineng Zou, Suyun Hu, Jinhua Fu, Xianyang Liu, Xia Luo, Jinghong Wang, Lijun Zhang, Senhu Lin, Zhi Yang, Songtao Wu, Jingwei Cui
  • Publication number: 20200350794
    Abstract: The motor rotor assembly structure includes a rotating shaft, a plurality of rotor cores formed by a plurality of rotor punches neatly laminated, and rotor pressure plates installed at front and rear ends of the rotor core. The rotor core is provided with a shaft hole for mounting the rotating shaft in the middle in an axial direction. Two rotor pressure plates press the plurality of rotor punches. The rotating shaft is a hollow shaft. The plurality of rotor punches has the same structure. Each of the rotor punches is provided with a plurality of sets of positioning holes. The plurality of rotor punches is positioned and fixed to the rotating shaft through the plurality of sets of positioning holes to realize oblique poles between rotor segments. The motor rotor assembly structure is made by laminating one type of rotor punches.
    Type: Application
    Filed: December 26, 2018
    Publication date: November 5, 2020
    Inventors: Lei LIU, Jialun FAN, Chunzhe SUN, Yuehua LI, Jingwei CUI
  • Publication number: 20200018740
    Abstract: The embodiments of the present disclosure disclose a method, apparatus and system for determining sweet spot region for shale oil in-situ conversion development. The method comprises: determining an output oil and gas potential index according to a Total Organic Carbon (TOC), a Hydrogen Index (HI) and a shale density; determining a heated shale section according to the output oil and gas potential index and corresponding lower limit value of the oil and gas potential index that is determined according to a well arrangement mode and a shale vitrinite reflectance; determining an output quantity according to a thickness and an area of the heated shale section and data of the output oil and gas potential index; determining a Return on Investment (ROI) according to the output quantity and an invested cost; and determining a sweet spot region for shale oil in-situ conversion development by using the ROI.
    Type: Application
    Filed: July 11, 2019
    Publication date: January 16, 2020
    Inventors: Lianhua Hou, Jinhua Fu, Xia Luo, Xianyang Liu, Lijun Zhang, Shixiang Li, Senhu Lin, Zhi Yang, Qian Zou, Jingwei Cui, Songtao Wu, Jinghong Wang
  • Publication number: 20200018145
    Abstract: Embodiments of the present disclosure disclose a shale oil in-situ lightening development method, apparatus and system, wherein the method comprises: determining an effective shale interval according to an interval with a total organic carbon greater than a first lower limit value in a target stratum; determining a favorable region for shale oil in-situ lightening development according to a thickness of the effective shale interval and an effective layer thickness ratio, wherein the effective layer thickness ratio includes a ratio of the thickness of the effective shale interval to a thickness of a shale section, and the shale section includes the effective shale intervals and interlayers therebetween. By utilizing the embodiments of the present disclosure, the benefit of the shale oil in-situ lightening development can be improved.
    Type: Application
    Filed: July 11, 2019
    Publication date: January 16, 2020
    Inventors: Lianhua Hou, Caineng Zou, Suyun Hu, Jinhua Fu, Xianyang Liu, Xia Luo, Jinghong Wang, Lijun Zhang, Senhu Lin, Zhi Yang, Songtao Wu, Jingwei Cui