Patents by Inventor Xiaohua Tan

Xiaohua Tan 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).

  • Publication number: 20240353640
    Abstract: The present application provides an all-dry optical fiber ribbon cable, including an optical unit, a first buffer layer, a first waterproof layer, a loose tube, a second waterproof layer, an armor layer, and a protective layer; where the optical unit includes a plurality of fiber ribbons; the first buffer layer, the first waterproof layer, the loose tube, the second waterproof layer, the armor layer, and the protective layer are sequentially sleeved over the plurality of fiber ribbons. The first buffer layer is a high elastic polymer material layer, and a Shore hardness of the first buffer layer is 45HA-85HA, a tensile strength of the first buffer layer is greater than or equal to 10 MPA, a breaking elongation of first buffer layer is 200%-600%, and a compression permanent deformation rate of the first buffer layer is less than or equal to 30%.
    Type: Application
    Filed: June 26, 2024
    Publication date: October 24, 2024
    Applicant: Jiangsu Zhongtian Technology Co., Ltd.
    Inventors: Jing ZHAO, Jianqiu XU, Pengyu ZHU, Weiwei MIAO, Xiaoming MIAO, Huihui QIAN, Feng TAN, Xiaohua MIAO
  • Publication number: 20240328301
    Abstract: The present disclosure provides a method for predicting a water invasion frontier for a complex well in a bottom-water gas reservoir. The technical solution is as follows: with consideration of forms of different well types and a gravitational pressure drop in production, a coupled permeability of a corresponding well type acting on a gas-water interface under the action of a baffle plate is expressed by using an equivalent percolation resistance method; a productivity of each infinitesimal section of the corresponding well type is calculated; a position of the gas-water interface is calculated with an equivalent permeability and a pseudo-productivity as characteristic parameters; water breakthrough is determined when there is a point over a water avoidance height, and a change in water invasion frontier form may be expressed with water quality point position data at this time.
    Type: Application
    Filed: March 28, 2024
    Publication date: October 3, 2024
    Inventors: Xiaohua TAN, Taixiong QING, Xiaoping LI, Lei DING, Xian PENG, Longxin LI
  • Publication number: 20230417138
    Abstract: The present disclosure relates to a method for predicting an amount of water-sealed gas in a high-sulfur water-bearing gas reservoir. The method solves the problem that no method has yet been proposed for predicting the amount of water-sealed gas in a high-sulfur water-bearing gas reservoir. According to the technical solution, the method includes: considering that the volume of the gas reservoir does not change during the production of the constant-volume gas reservoir, deriving, based on a material balance method, a material balance equation of the high-sulfur water-bearing gas reservoir in consideration of water-sealed gas and water-soluble gas, solving and drawing a chart of water-sealed gas in the high-sulfur water-bearing gas reservoir by an iterative algorithm, obtaining a recovery factor of the high-sulfur water-bearing gas reservoir in consideration of water-sealed gas and water-soluble gas, and further obtaining the amount of water-seal gas in the high-sulfur water-bearing gas reservoir.
    Type: Application
    Filed: September 29, 2022
    Publication date: December 28, 2023
    Inventors: XIAOHUA TAN, JIAJIA SHI, HENG XIAO, YILONG LI, HONGLIN LU, JIN FANG, XIAN PENG, DESHENG JIANG, QIAN LI, DONG HUI, QILIN LIU, TAO LI, HANG ZHANG, LU LIU, SHILIN HUANG, HAORAN HU, YUCHUAN ZHU, GUOWEI ZHAN, LIN CHEN, YANG QING, FU HOU, JIAN CAO, XUCHENG LI, SONGCEN LI, LIN YUAN
  • Publication number: 20230258082
    Abstract: An intelligent identification method of aquifer distribution in complex edge-water oil and gas reservoirs is provided. The problem, that targeted water control countermeasures cannot be proposed due to unclear identification of edge-water distribution in complex edge-water reservoirs, is resolved. Based on geological data and production data of a single well, establish a numerical simulation model of a water influx unit for simulating inflow dynamic of complex edge-water influx; by a genetic algorithm, correct characteristic parameters of an aquifer unit, including volume and water influx of the aquifer unit; automatically fit dynamic production data calculated by the model with actual dynamic production data, to obtain optimal characteristic parameters of the aquifer unit; and assign the characteristic parameters to the aquifer unit for inversion to determine aquifer distribution.
    Type: Application
    Filed: July 13, 2022
    Publication date: August 17, 2023
    Inventors: Xiaohua TAN, Xiaobing HAN, Xiaoping LI, Mingqing KUI, Zihan ZHAO, Xixiang LIU, Tao LI, Youjie XU, Yumin LI, Yongqiang JIN
  • Publication number: 20230017069
    Abstract: The present disclosure relates to a prediction method for constant production decline of a water-producing gas well in a highly heterogeneous reservoir.
    Type: Application
    Filed: July 12, 2022
    Publication date: January 19, 2023
    Inventors: Xiaohua TAN, Yan ZHANG, Xiaoping LI, Miaofeng CUI, Xian PENG, Qian LI, Longxin LI, Xixiang LIU, Zihan ZHAO, Zhenglin MAO
  • Publication number: 20230010689
    Abstract: The present disclosure provides a water invasion-oriented dynamic production allocation method for a water-bearing carbonatite gas reservoir, and belongs to the technical field of oil and gas field development. The problem that water breakthrough of a single well is too early due to uneven water invasion of an existing water-bearing carbonatite gas reservoir is solved. According to the technical scheme, on the basis of an original gas well production allocation scheme of a water-bearing carbonatite gas reservoir, the average water invasion rate of the reservoir is calculated as a stability reference of water invasion rates throughout the production period.
    Type: Application
    Filed: July 7, 2022
    Publication date: January 12, 2023
    Inventors: Xiaohua TAN, Xiaojun ZHOU, Xiaobing HAN, Xian PENG, Longxin LI, Qingyan MEI, Qian LI, Zhenglin MAO
  • Patent number: 11377951
    Abstract: An intelligent water invasion tracking and early warning method for water-gas reservoirs includes based on the gas-water two-phase seepage equation, obtaining the water invasion constant and the water flooding index by combining the gas-water two-phase permeability expression with the water invasion material balance method, fitting by automatic fitting method, finding a best fitting between an optimal theoretical value and an actual value, dividing a block into different water invasion areas based on the water flooding index, revising a water invasion classification boundary based on production dynamic monitoring and well logging interpretation results, and tracking and early warning water invasion by drawing a water flooding index distribution map of water-gas reservoirs according to the water flooding index. The present invention solves the problem of no method for tracking and predicting the water invasion direction and the water invasion intensity in real time.
    Type: Grant
    Filed: September 23, 2021
    Date of Patent: July 5, 2022
    Assignee: Southwest Petroleum University
    Inventors: Xiaohua Tan, Xiaobing Han, Xiaoping Li, Mingqing Kui, Zhenglin Mao, Guojun Yang, Hao Yang
  • Publication number: 20220010674
    Abstract: An intelligent water invasion tracking and early warning method for water-gas reservoirs includes based on the gas-water two-phase seepage equation, obtaining the water invasion constant and the water flooding index by combining the gas-water two-phase permeability expression with the water invasion material balance method, fitting by automatic fitting method, finding a best fitting between an optimal theoretical value and an actual value, dividing a block into different water invasion areas based on the water flooding index, revising a water invasion classification boundary based on production dynamic monitoring and well logging interpretation results, and tracking and early warning water invasion by drawing a water flooding index distribution map of water-gas reservoirs according to the water flooding index. The present invention solves the problem of no method for tracking and predicting the water invasion direction and the water invasion intensity in real time.
    Type: Application
    Filed: September 23, 2021
    Publication date: January 13, 2022
    Inventors: Xiaohua Tan, Xiaobing Han, Xiaoping Li, Mingqing Kui, Zhenglin Mao, Guojun Yang, Hao Yang
  • Patent number: 11186766
    Abstract: The invention discloses an intelligent water-control and gas-diversion particle for water-gas reservoirs and preparation method and application thereof, comprising core support layer with barbs, expandable water shutoff layer, water discharge and gas diversion layer, migration protection layer and suspension lift layer; the expandable water shutoff layer is wrapped on the outer surface of the core support layer and the root of the barb; the water discharge and gas diversion layer is wrapped on the outer surfaces of the expandable water shutoff layer and the barbs; the migration protection layer is wrapped on the outer surface of the water discharge and gas diversion layer; the outer surface of the migration protection layer forms a sphere; the suspension lift layer is wrapped on the outer surface of the migration protection layer.
    Type: Grant
    Filed: December 12, 2019
    Date of Patent: November 30, 2021
    Assignee: SOUTHWEST PETROLEUM UNIVERSITY
    Inventors: Xiaohua Tan, Hao Yang, Xiaoping Li, Honglin Lu, Lei Ding, Yilong Li
  • Publication number: 20210301196
    Abstract: The invention discloses an intelligent water-control and gas-diversion particle for water-gas reservoirs and preparation method and application thereof, comprising core support layer with barbs, expandable water shutoff layer, water discharge and gas diversion layer, migration protection layer and suspension lift layer; the expandable water shutoff layer is wrapped on the outer surface of the core support layer and the root of the barb; the water discharge and gas diversion layer is wrapped on the outer surfaces of the expandable water shutoff layer and the barbs; the migration protection layer is wrapped on the outer surface of the water discharge and gas diversion layer; the outer surface of the migration protection layer forms a sphere; the suspension lift layer is wrapped on the outer surface of the migration protection layer.
    Type: Application
    Filed: December 12, 2019
    Publication date: September 30, 2021
    Applicant: SOUTHWEST PETROLEUM UNIVERSITY
    Inventors: Xiaohua Tan, Lei Ding, Xiaoping Li, Honglin Lu, Hao Yang, Yilong Li
  • Publication number: 20170121520
    Abstract: Provided is a dielectric composite material for a fingerprint sensor induction layer and a preparation method therefor, wherein the dielectric composite material is made from the following components: an epoxy resin, a phenolic resin, a first type of dielectric inorganic filler, a second type of dielectric inorganic filler, a curing agent, an adhesion promoter, a mould releasing agent and a flame retardant. The dielectric composite material has a high dielectric constant, a small dielectric loss, very stable dielectric properties which change very little with the test frequency, non-transparency and high hardness, such that the fingerprint sensor induction layer prepared therefrom satisfies the requirements of reliability and stability while reaching the thickness requirement, and can be used in various portable electronic products. The dielectric composite material for the fingerprint sensor induction layer is free of heavy metal lead, and is green and environmentally friendly.
    Type: Application
    Filed: November 21, 2016
    Publication date: May 4, 2017
    Inventors: Xiaohua Tan, Ju Huo, Huiyun Yu, Yakai Feng, Xuyun Sun