Patents Assigned to Taiyuan University of Technology
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Patent number: 12281367Abstract: A device for continuously applying a transverse tension in an annealing process of an ultra-thin strip, including an unfolding and receiving mechanism for unwinding and winding the strip and an orthopedic mechanism for correcting the strip including an annealing furnace, and two orthopedic assemblies fixedly arranged inside the annealing furnace; the two orthopedic assemblies are symmetrically arranged on both sides of the strip, are parallel to an advancing direction of the strip and correspond to side edges of the strip, and include annular guide rails; each annular guide rail is fixedly connected with the annealing furnace and is slidably connected with an orthopedic part; the orthopedic part corresponds to each side edge of the strip, and each annular guide rail is internally provided with a driving part; the driving part is in transmission connection with the orthopedic part, and the orthopedic part is communicated with an air source part.Type: GrantFiled: September 1, 2022Date of Patent: April 22, 2025Assignee: Taiyuan University of TechnologyInventors: Zhongkai Ren, Jingbi Yang, Xiao Liu, Tao Wang, Peng Chen, Xiaobao Ma, Liping Bian
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Patent number: 12281543Abstract: An integrated device and a method for continuously capturing, storing and separating a flue gas in an underground rock stratum are provided. An injection well, a monitoring well and an emission well are arranged in sequence at locations from near to far from a flue gas emission source. The injection well, the monitoring well and the emission well are respectively drilled to different depths in a storage rock stratum. A horizontal injection channel is arranged at bottom end of the injection well. During migrating the flue gas in the storage rock stratum, CO2 and sulfur nitride are absorbed by a rock porous medium and gradually enriched, and meanwhile, the CO2 and sulfur nitride, after chemically reacting with water, minerals and biomass in a rock, are gradually mineralized to achieve storage; and separated N2 is gradually migrated upwards to the emission well to achieve separation.Type: GrantFiled: August 8, 2024Date of Patent: April 22, 2025Assignee: Taiyuan University of TechnologyInventors: Zhiqin Kang, Zhihui Wu, Xiaoyu Wang, Xiaoyu Zhang, Lei Wang, Jing Zhao, Dong Yang, Weiguo Liang
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Patent number: 12276589Abstract: Provided are a method and system for detecting an oil abrasive particle size. The method includes: acquiring a voltage signal of an oil abrasive particle in real time, where the voltage signal is generated in real time in a process that the oil abrasive particle passes through an electromagnetic abrasive particle sensor; establishing a voltage curve coordinate system with an amplitude of the voltage signal as a Y-axis and a time of the voltage signal as an X-axis, and obtaining a voltage curve; performing feature extraction on the voltage curve, and obtaining an area S defined by a voltage curve within a half voltage signal cycle T and the X-axis and a maximum absolute value A of a voltage signal value according to the voltage curve coordinate system; and inputting S and A to a trained back propagation neural network for prediction to obtain a predicted oil abrasive particle size.Type: GrantFiled: November 27, 2024Date of Patent: April 15, 2025Assignees: Taiyuan University of Technology, Shanxi KEDA AUTOMATION CONTROL co., Ltd.Inventors: Xinyu Pang, Shijie Cui, Mingyuan Guo, Kaibo Lv, Feng Li, Xuewen Wang, Yan Wu, Yong'ai Cao, Pengfeng Shao, Yuewei Wang, Jiawei Bai, Yixiang He
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Publication number: 20250073684Abstract: Provided are a copper-zinc alloy catalyst, and a preparation method and use thereof. The method for preparing the copper-zinc alloy catalyst includes: subjecting copper-zinc alloy particles to pretreatment to obtain the copper-zinc alloy catalyst; alternatively, subjecting copper-zinc alloy particles to pretreatment and partial dezincification in sequence to obtain the copper-zinc alloy catalyst.Type: ApplicationFiled: January 25, 2024Publication date: March 6, 2025Applicant: Taiyuan University of TechnologyInventors: Wei Huang, Enjuan Ma, Qian Zhang, Min Tian
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Patent number: 12221888Abstract: A ventilation method for a high gas working face based on alternating intake and air return in a mine gallery is provided. In this method, an isolated island working face is divided into several sections along a strike direction. A coal pillar is alternately set as a conventional section and a gas-drainage section. Opposite coal pillars in the two mine galleries within the same section are respectively used as the conventional section and the gas-drainage section. Two mine galleries on both sides of the isolated island working face are alternately used as an intake gallery and a return gallery. The coal pillar at the side of the mine gallery as the return gallery is the gas-drainage section. A gas-drainage hole communicating a goaf is provided in the gas-drainage section, so that gas in the goafs at two sides of the isolated island working face can be extracted alternately.Type: GrantFiled: September 13, 2024Date of Patent: February 11, 2025Assignee: Taiyuan University of TechnologyInventors: Guorui Feng, Zhu Li, Jianyu Fan, Jingyu Zhang, Chengen Qi, Guilin Wu
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Publication number: 20240360761Abstract: Disclosed is a combined process of integrating stoping-backfilling and carbon storage. The combined process includes the following steps of: determining a cyclic interval of a working face through measured data of a mine pressure of a fully-mechanized coal winning working face; when the stoping distance of the fully-mechanized coal winning working face reaches a backfilling isolation interval, providing a backfilling tarpaulin behind a hydraulic support, and pumping, through a backfilling pipeline, backfilling slurry to a backfilling area along a support beam; when the area is backfilled with the backfilling slurry, injecting supercritical carbon dioxide into the backfilling slurry; and allowing the supercritical carbon dioxide to fully react with the backfilling slurry to solidify the backfilling slurry.Type: ApplicationFiled: August 3, 2023Publication date: October 31, 2024Applicant: Taiyuan University of TechnologyInventors: Jinwen BAI, Junbiao MA, Yanna HAN, Ruikai PAN, Xudong SHI, Gowei WU, Jun GUO, Jian LI, Fei CHANG
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Publication number: 20240360762Abstract: Disclosed is a method for backfilling and reconstructing a carbon storage space in an abandoned main roadway and storing CO2. A surrounding rock of the main roadway is surveyed through geophysical exploration technology, and an anchor bolts (anchor cables) are used to reinforce and support an area which has unstable confining pressure bearing. According to a width and a height of the roadway section of the main roadway, a support formwork is forged in advance, and after the support formwork is placed in the main roadway, backfilling slurry is injected to the periphery of the support formwork. Meanwhile, supercritical carbon dioxide is injected into the backfilling slurry and the roadway, respectively.Type: ApplicationFiled: August 3, 2023Publication date: October 31, 2024Applicant: Taiyuan University of TechnologyInventors: Guorui FENG, Junbiao MA, Jinwen BAI, Ruikai PAN, Yanna HAN, Xudong SHI, Jiachen MI, Guowei WU, Jun GUO, Fei CHANG
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Patent number: 12128464Abstract: Disclosed is a corrugated-flat rolling composite method for a steel/aluminum/aluminum alloy laminated composite plate. According to the method, a steel/aluminum laminated composite plate with a good plate shape and a firmly bonded interface is prepared, the corrugated cold rolling with a large thickness ratio is utilized to enhance the deformation of the interface to be bonded, and the deformation of constituent metals is coordinated to solve the problem that the steel-aluminum interface is not deformed. Then the deformation of constituents is coordinated by the interfacial corrugated-flat hot rolling to achieve the bonding of aluminum and aluminum alloy surfaces and prepare a high-performance steel/aluminum/aluminum alloy laminated composite plate.Type: GrantFiled: October 14, 2020Date of Patent: October 29, 2024Assignee: Taiyuan University of TechnologyInventors: Tao Wang, Yu Chen, Wenwen Liu, Ke Chen, Ting Li, Qingxue Huang
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Patent number: 12126705Abstract: A bottleneck in the continuous-variable quantum random number generation rate is mainly as follows: low quantum entropy content in actual quantum measurement on quantum entropy source, and low real-time post-processing rate in extraction of true random numbers. Therefore, the present disclosure aims to provide a method of real-time high-speed quantum random number generation based on chaos amplifying quantum noise, to greatly increase the quantum entropy content through the chaos amplifying quantum noise, perform parallel implementation of universal Hash post-processing of multichannel quantum random numbers, and implement real-time high-speed quantum random number generation.Type: GrantFiled: June 3, 2021Date of Patent: October 22, 2024Assignee: Taiyuan University of TechnologyInventors: Xiaomin Guo, Jiangjiang Zhang, Yanqiang Guo
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Patent number: 12098638Abstract: Provided is a method and system for coalbed permeability-enhancement induced by pressure-relief with mining an extremely thin slice, belonging to the technical field of coalbed permeability-enhancement induced by pressure-relief. The method includes arranging a boundary gateway and a boundary roadway along a mine field boundary, constructing a row of boreholes into the coal seam to run through a conventional development roadway and the boundary roadway, and arranging devices in the conventional development roadway, the boundary roadway, and the row of boreholes to cut the extremely thin stratified coal seam between boreholes, thus creating a mining space in the coal seam, which causes a deformation failure of the coal around the boreholes.Type: GrantFiled: April 25, 2024Date of Patent: September 24, 2024Assignee: Taiyuan University of TechnologyInventors: Zijun Feng, Guo Xu, Jinping Zheng, Zimin Zhang, Zhengnan Chen, Peng Zhao, Chunsheng Deng
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Patent number: 12098637Abstract: An I-patterned filling method for an initial stage of coal mining based on roof fracture characteristics is provided. A relationship between an overburden load borne by a main roof and an overhang size is determined based on principle of virtual work and a surgery theory when an overhang distance of the main roof reaches an initial weighting interval to enter a plastic limit state with an advance of a working face to obtain the initial weighting interval. An initial fracturing interval of an immediate roof is obtained in the same way. According to a subsidence law of the main roof in an inverted hip roof form, the filling is performed at a key position around an internal plastic hinge line through I-patterned three-strip filling. Size parameters of the I-pattered filling are designed to prevent the immediate roof and the main roof from being fractured.Type: GrantFiled: March 4, 2024Date of Patent: September 24, 2024Assignee: Taiyuan University of TechnologyInventors: Guorui Feng, Wei Guo, Tingye Qi, Zhu Li, Jiaqing Cui, Yekai Cui, Jingkai Ma
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Publication number: 20240301782Abstract: Disclosed is a method for remining a residual coal pillar in a residual mining area by collaboration of pillar-side backfilling and in-situ gasification. The method includes the following steps of: ascertaining geological and hydrological conditions, a geometric shape and a reserve of a residual coal pillar; determining the feasibility of underground gasification mining for the residual coal pillar; carrying out side supporting on the residual coal pillar in a goaf by using a pillar-side backfilling method; and carrying out the underground gasification mining on the residual coal pillar by means of an underground coal gasification process.Type: ApplicationFiled: August 3, 2023Publication date: September 12, 2024Applicant: Taiyuan University of TechnologyInventors: Guorui FENG, Jian LI, Jinwen BAI, Jun GUO, Junbiao MA, Xudong SHI
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Patent number: 12055955Abstract: Disclosed is a flow control system for digital and mechanical redundant pressure compensation. On the basis of an original pressure compensation valve, two-position three-way electromagnetic valves are added to control the opening and closing of pressure compensation valves. Furthermore, pressure sensors and a controller are added, so that the system has a digital pressure compensation function. When the pressure sensor breaks down, the flow control system is switched to a mechanical compensation mode to achieve mechanical pressure compensation, the problem that system flow cannot be controlled when the sensor breaks down is solved, and the purpose of redundancy control is achieved. Moreover, the pressure compensation valve in the loop where the highest load is located can be controlled to be completely opened through the two-position three-way electromagnetic valve to reduce pressure loss of the valve port, and the pressure is not affected by load fluctuation.Type: GrantFiled: November 10, 2022Date of Patent: August 6, 2024Assignee: Taiyuan University of TechnologyInventors: Long Quan, Bin Zhao, Jing Yang, Lei Ge, He Liu, Yunxiao Hao
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Patent number: 12036543Abstract: The present disclosure provides a preparation method of a doped ZnO catalyst. The preparation method includes the following steps: mixing a precipitant and a first solvent to form a first solution having 1 mol/L to 5 mol/L of the precipitant by concentration; mixing one of a Cu salt or a Ga salt, a Zn salt, and a second solvent to form a second solution having Cu and Zn at a molar ratio of less than 0.05:1 and Ga and Zn at a molar ratio of less than 0.1:1; subjecting the first solution and the second solution to precipitation or hydrolysis at 50° C. to 90° C. to obtain a precipitate, and washing and drying the precipitate to obtain a precursor sample; and conducting calcination on the precursor sample at 300° C. to 500° C. for 3 h to 5 h to obtain a Cu-doped ZnO catalyst or a Ga-doped ZnO catalyst.Type: GrantFiled: October 31, 2022Date of Patent: July 16, 2024Assignee: Taiyuan University of TechnologyInventors: Wei Huang, Fang Li, Qian Zhang, Penglong Jia, Yongjun Liu
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Patent number: 12025590Abstract: A loading system for a Hopkinson pressure bar test under water-gas-temperature multi-field coupling action includes: a sample sealed cabin which includes sealing flanges, Y-shaped and high-temperature resistant sealing rings, and a sealed cabin body; a gas pressure loading device which includes a high-pressure gas tank, a pressure regulating valve, a second barometer, a second high-pressure valve and a first three-way valve connected in sequence; a water pressure loading device which includes an electric pressure test water pump, a water pressure gauge, an accumulator and a one-way valve connected in sequence; a temperature loading device which includes thermocouple heating rods, a temperature display and a thermocouple temperature control circuit board connected in sequence; and a dynamic and static combined loading device which includes an axial pressure loading device, an impact loading device and a Hopkinson pressure bar member.Type: GrantFiled: June 8, 2022Date of Patent: July 2, 2024Assignee: Taiyuan University of TechnologyInventors: Guorui Feng, Kai Wang, Jinwen Bai, Jun Guo, Boqiang Cui, Xudong Shi, Haotian Wu, Xinyu Yang, Cheng Song
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Patent number: 11975370Abstract: The present disclosure provides a pulse current assisted uncanned rolling method for titanium-TiAl composite plates, including the following specific steps: 1. preparing titanium alloy sheets; 2. preparing TiAl alloy sheets; 3. uncanned lay-up; 4. pulse current assisted hot-rolling; 5. separation and subsequent processing, thus getting the titanium-TiAl composite plates. The composite plates are of good quality on the surface without oxide layer shedding, no cracks at the edges and the ends, with uniform and fine microstructures, good bonding interface and excellent mechanical properties.Type: GrantFiled: October 23, 2020Date of Patent: May 7, 2024Assignee: Taiyuan University of TechnologyInventors: Jianchao Han, Yi Jia, Tao Wang, Zhongkai Ren, Yuanming Liu, Dongping He, Sha Li, Miao Guo
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Patent number: 11976676Abstract: A hydraulic-electric coupling driven multi-actuator system and control method are provided. The system comprises one or more hydraulic-electric hybrid driven actuators, first inverters, control valves, centralized hydraulic units and control units, wherein each hydraulic-electric hybrid driven actuator is correspondingly connected with one first inverter and one control valve; the centralized hydraulic units are connected with the control valves and configured to supply oil for the hydraulic-electric hybrid driven actuators and to perform power compensation; and the control units are respectively connected with the hydraulic-electric hybrid driven actuators, and each control unit is configured to control output torque of a first motor of the corresponding hydraulic-electric hybrid driven actuator based on pressure information of the hydraulic-electric hybrid driven actuator, such that pressure of driving cavities of the hydraulic-electric hybrid driven actuators is equal.Type: GrantFiled: November 11, 2022Date of Patent: May 7, 2024Assignee: Taiyuan University of TechnologyInventors: Long Quan, Shufei Qiao, Yunxiao Hao, Lei Ge, Bo Wang
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Patent number: 11959383Abstract: A method for carrying out grouting between adjacent gateroads in internal-staggered split-level coal mining. A return air gateroad of a stoping face and an inlet air gateroad of a heading face are not on the same level. The return air gateroad of the stoping face is arranged along a roof of a coal seam. The inlet air gateroad of the heading face is arranged along a floor of the coal seam. There is a height difference between the return air gateroad and the inlet air gateroad in a vertical direction. During the construction process, the inlet air gateroad is excavated at a delay distance of 180-200 meters from the return air gateroad. The drilling and grouting are performed while excavating the roadway, where grouting holes are arranged in a single row. A device for implementing the method is also provided.Type: GrantFiled: May 24, 2022Date of Patent: April 16, 2024Assignee: Taiyuan University of TechnologyInventors: Guorui Feng, Yijiang Fan, Pengfei Wang, Chenliang Hao, Xiaoze Wen, Jun Guo, Jinwen Bai, Tingye Qi, Jianan Liu, Linjun Zhu, Changquan Wu
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Publication number: 20240083832Abstract: A method for preparing acetic acid by catalyst including the following steps is provided, S1. preparing the hydrotalcite carrier by hydrothermal method; S2. ion exchange; S3. liquid phase reduction; S4. placing the CoPd/LDH catalyst obtained in S3 in a two-channel fixed bed step-by-step continuous reactor, carrying out the reaction at 100-400° C. and 0.1-20 MPa, synthesizing acetic acid by alternating feeding of CH4+H2+H2O and CO2+H2+H2O, with the alternating time of 50-300 s. The present invention replaces the traditional process of acetic acid production including the steps of methane and carbon dioxide reforming to produce syngas. The process flow is short, the reaction conditions are mild, and the energy consumption and cost are greatly reduced.Type: ApplicationFiled: July 21, 2023Publication date: March 14, 2024Applicant: Taiyuan University of TechnologyInventors: Wei HUANG, Shiqi TAO, Yongjun LIU, Qian ZHANG, Ruijia WAMG, Yin TANG
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Patent number: 11914068Abstract: The present disclosure relates to a radar ranging system based on a true random generator and a ranging method thereof The present disclosure adopts the following technical scheme: the system comprises a radar signal modulation and transmission unit and a radar signal receiving and processing unit, wherein the radar signal modulation and transmission unit inputs and stores a true random binary sequence generated by the true random generator in a memory, and cyclically outputs the true random binary sequence to a BPSK modulator for phase modulation. The receiving and amplifying unit receives the reflected radar signal. The down-sampling unit down samples the intermediate frequency signal generated by the mixers. The data processing unit converts the sampled analog signal into a digital signal and cross-correlates the signal with the true random binary sequence in the memory, so as to obtain the distance to the object side to be measured.Type: GrantFiled: September 10, 2021Date of Patent: February 27, 2024Assignee: Taiyuan University of TechnologyInventors: Jianguo Zhang, Rui Hou, Hang Xu, Li Liu, Zhiwei Jia, Yuncai Wang