公开(公告)号：US12013498B1

公开(公告)日：2024-06-18

申请号：US18402692

申请日：2024-01-02

Applicant: Ningbo Institute of Dalian University of Technology ,  Dalian University of Technology

Inventor： Huiyong Liang ,  Jiafei Zhao ,  Xin Lv ,  Yongchen Song ,  Jiawei Chu ,  Shi Shen ,  Lei Yang ,  Xingyu Lu ,  Linan Zhao ,  Shuangqing Zhang

IPC: G01N29/00 ,  F17D5/00 ,  G01S7/521 ,  G01S15/88

CPC classification number: G01S7/521 ,  F17D5/005 ,  G01S15/88

Abstract: A low-frequency acoustic wave generating device for detecting pipeline blockage related to the technical field of pipeline detection is provided and includes a sealing shell configured to be communicated with a pipeline, a sealed pressure environment is formed inside the sealing shell. A low-frequency electroacoustic transducer is disposed inside the sealing shell, the low-frequency electroacoustic transducer is connected to a signal generator and is configured to transmit an acoustic wave into the pipeline. The device transmits the acoustic wave signals to a high-pressure gas pipeline, combined with a signal generator capable of generating any waveform, thereby emitting any waveform of acoustic wave signal into the pipeline. The use of acoustic waves with special markings and characteristics for pipeline blockage detection can improve the anti-noise interference ability of the acoustic wave detection, and improve the precision of the detection.

公开(公告)号：US20230311052A1

公开(公告)日：2023-10-05

申请号：US18191898

申请日：2023-03-29

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Yongchen Song ,  Lanlan Jiang ,  Mingjun Yang ,  Zucheng Cheng ,  Yu Liu ,  Yingying Liu ,  Bingbing Chen ,  Cong Chen ,  Jiafei Zhao ,  Yi Zhang

IPC: B01D53/00 ,  C01B32/50 ,  C10L3/10

CPC classification number: B01D53/002 ,  C01B32/50 ,  C10L3/108 ,  C01B2210/0009 ,  C10L2290/06 ,  B01D2257/504 ,  B01D2256/245 ,  B01D2258/05

Abstract: A device for separating and sequestrating carbon dioxide coupled with cold storage in mixed gas via hydrate method, which belongs to the technical field of application of natural gas hydrates includes a gas compression device, a refrigeration cycle device, a hydrate formation/decomposition device, a hydrate cold storage device, a water circulation device and a sensing and monitoring device; taking the separation and sequestration of biogas as an example, the refrigeration cycle device enables the cooling of biogas, decomposition of gas at all levels, hydrate, and circulating water to provide the low-temperature conditions required for hydrate formation; the hydrate cold energy storage device can fully use the latent heat of hydrate phase change to provide the required cooling capacity on the user side; the water circulation device can realize the recycling of decomposition water to ensure the continuous formation of hydrate.

公开(公告)号：US11694338B2

公开(公告)日：2023-07-04

申请号：US17415621

申请日：2020-07-23

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Yongchen Song ,  Yanghui Li ,  Peng Wu ,  Xiang Sun ,  Weiguo Liu ,  Jiafei Zhao ,  Mingjun Yang ,  Lei Yang ,  Zheng Ling

IPC: G06T7/155 ,  G06V10/46 ,  G06T17/10

CPC classification number: G06T7/155 ,  G06T17/10 ,  G06V10/467 ,  G06T2207/10081 ,  G06T2207/20036

Abstract: The present invention belongs to the technical field of petroleum exploitation engineering, and discloses a 3D modeling method for cementing hydrate sediment based on a CT image. Indoor remolding rock cores or in situ site rock cores without hydrate can be scanned by CT; a sediment matrix image stack and a pore image stack are obtained by gray threshold segmentation; then, a series of cementing hydrate image stacks with different saturations are constructed through image morphological processing of the sediment matrix image stack such as dilation, erosion and image subtraction operation; and a series of digital rock core image stacks of the cementing hydrate sediment with different saturations are formed through image subtraction operation and splicing operation to provide a relatively real 3D model for the numerical simulation work of the basic physical properties of a reservoir of natural gas hydrate.

公开(公告)号：US12031088B2

公开(公告)日：2024-07-09

申请号：US18180878

申请日：2023-03-09

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Yongchen Song ,  Lanlan Jiang ,  Sijia Wang ,  Xin Wang ,  Mingjun Yang ,  Yu Liu

IPC: C09K8/594

CPC classification number: C09K8/594 ,  C09K2208/10

Abstract: A method for enhancing geological storage by injecting nanoparticles to stabilize CO2 microbubbles, which belongs to the technical field of multiphase flow. The method first improves the physical properties of the fluid by pre-mixing CO2 and nanoparticles, and then the fluid is transported to the underground through high-pressure pipelines, and then CO2 microbubbles containing nanoparticles are generated through a dense perforated plate arranged by an injection well to improve the dissolution rate and sweep efficiency of the gas in the saline aquifer, so as to enhance the later mixing of the fluid. The combined injection can improve CO2 storage capacity and storage safety, and further reduce the risk of gas leakage in the reservoir.

公开(公告)号：US11948284B2

公开(公告)日：2024-04-02

申请号：US17416028

申请日：2020-07-23

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Yongchen Song ,  Yanghui Li ,  Peng Wu ,  Xiang Sun ,  Weiguo Liu ,  Jiafei Zhao ,  Mingjun Yang ,  Lei Yang ,  Zheng Ling

IPC: G06T7/136 ,  G01N23/046 ,  G06T5/30 ,  G06T7/11 ,  G06T17/00

CPC classification number: G06T5/30 ,  G01N23/046 ,  G06T7/11 ,  G06T7/136 ,  G06T17/00 ,  G06T2207/10081

Abstract: The present invention belongs to the technical field of petroleum exploitation engineering, and discloses a 3D modeling method for pore-filling hydrate sediment based on a CT image. Indoor remolding rock cores or in situ site rock cores without hydrate can be scanned by CT; a sediment matrix image stack and a pore image stack are obtained by gray threshold segmentation; then, a series of pore-filling hydrate image stacks with different saturations are constructed through image morphological processing of the pore image stack such as erosion, dilation and image subtraction operation; and a series of digital rock core image stacks of the pore-filling hydrate sediment with different saturations are formed through image subtraction operation and splicing operation to provide a relatively real 3D model for the numerical simulation work of the basic physical properties of a reservoir of natural gas hydrate.

公开(公告)号：US11879310B2

公开(公告)日：2024-01-23

申请号：US17415986

申请日：2020-08-27

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Yongchen Song ,  Mingjun Yang ,  Xinru Wang ,  Jianan Zheng ,  Jiafei Zhao ,  Lanlan Jiang

IPC: F24S20/40 ,  E21B43/24 ,  E21B43/30 ,  E21B43/34 ,  F25B30/02 ,  E21B43/01 ,  E21B43/295 ,  F25B27/02

CPC classification number: E21B43/01 ,  E21B43/24 ,  E21B43/295 ,  E21B43/30 ,  E21B43/34 ,  F24S20/40 ,  F25B27/02 ,  F25B30/02

Abstract: An efficient gas hydrate production system using flue gas waste heat/solar absorption heat pump to compensate reservoir heat, includes a heat source absorption system, heat pump heating system and reservoir heat compensation system. The invention uses the low-grade heat energy of offshore platform to solve the problems of heat source and energy consumption in the process of natural gas hydrate exploitation. It provides a commercial feasible scheme for large-scale exploitation of natural gas hydrate. The condenser module, evaporator module and injection well module of the invention can be flexibly increased or decreased, and can adapt to a variety of actual hydrate reservoir distribution; the injection well module adopts ball-nozzle, which can disperse and evenly inject the hot injected water into the reservoir, which is convenient for the rapid and effective transfer of reservoir heat and improves the speed of reservoir heat compensation.

公开(公告)号：US11859596B2

公开(公告)日：2024-01-02

申请号：US17979227

申请日：2022-11-02

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Cong Chen ,  Yongchen Song ,  Xi Wang ,  Zherui Chen ,  Jingyue Sun ,  Yu Liu ,  Yi Zhang ,  Mingjun Yang ,  Jiafei Zhao ,  Weiguo Liu ,  Yan Qin ,  Zheng Ling ,  Lanlan Jiang ,  Lunxiang Zhang

IPC: F03D9/25 ,  F16L59/02 ,  F01K3/00 ,  F01K3/18 ,  H05B1/00

CPC classification number: F03D9/25 ,  F01K3/00 ,  F01K3/186 ,  F16L59/02 ,  H05B1/00

Abstract: The present invention discloses an electric heating thermal management system for an oil and gas transportation pipeline based on renewable energy and CO2 energy storage. It transmits the feedback data value through a data collection device arranged in the pipeline to the early warning device by the control device. After analysis and processing, the early warning device can feed back the data value to the control device and the remote operation device in two modes. Different degrees of heating amount can be generated for the oil and gas transportation pipelines at different positions in different modes. Hierarchical and distributed management control for the oil and gas transportation pipelines can be targetedly conducted in unblocked, easily blocked and blocked positions of the oil and gas transportation pipeline. The present invention couples the renewable energy electricity supply device and the CO2 energy storage device.

公开(公告)号：US11731374B2

公开(公告)日：2023-08-22

申请号：US18086714

申请日：2022-12-22

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Yongchen Song ,  Zheng Ling ,  Fuqiang Wang ,  Changrui Shi ,  Lu Wang ,  Jiafei Zhao ,  Yanghui Li

IPC: B29C67/00 ,  C01B32/174 ,  C01B32/159 ,  C01B33/42 ,  C01B32/194 ,  B29C67/24 ,  B29K105/16 ,  B29K81/00 ,  B29K1/00

CPC classification number: B29C67/0011 ,  B29C67/24 ,  C01B32/159 ,  C01B32/174 ,  C01B32/194 ,  C01B33/42 ,  B29K2001/08 ,  B29K2081/06 ,  B29K2105/162 ,  C01B2202/02 ,  C01B2202/04 ,  C01B2202/06 ,  C01P2006/60

Abstract: The present disclosure provides a method for preparing a self-floating transparent nano ultrathin film. According to the present disclosure, the MXene film layer and the nano ultrathin film layer are sequentially subjected to suction filtration on the substrate material by utilizing a vacuum suction filtration technology, and thus a double-film structure is loaded on the substrate material; then an oxidant is subjected to oxidizing and bubbling on the MXene film layer in a permeation way, and thus the substrate material and the nano ultrathin film layer can be separated in a physical isolating manner. Finally, the nano ultrathin film is completely separated in a liquid phase floating separation manner. The nano ultrathin film prepared by the method provided by the present disclosure has a specific thickness and light transmittance through different loading capacities, and the substrate material can be repeatedly utilized.

公开(公告)号：US20240375536A1

公开(公告)日：2024-11-14

申请号：US18241327

申请日：2023-09-01

Applicant: Dalian University of Technology

Inventor： Yongchen Song ,  Heng Huang ,  Yubai Li ,  Minli Bai ,  Chengzhi Hu ,  Yang Li ,  Linsong Gao

IPC: B60L53/39 ,  B60L53/122 ,  B60L53/36 ,  B60L53/62

Abstract: A wireless charging heating system, a wireless charging system, a wireless charging heating method and a wireless charging method are provided. The wireless charging heating system includes a lithium-ion battery stack; a battery stack power frequency converter connected with the lithium-ion battery stack and configured to convert direct current output from the lithium-ion battery stack into high-frequency alternating current; a heating system switch connected with the battery stack power frequency converter and configured to control on or off of the high-frequency alternating current; a heating coil connected with the heating system switch and configured to heat the lithium-ion battery stack; and a single chip microcomputer connected with the lithium-ion battery stack, the battery stack power frequency converter and the heating system switch and configured to monitor temperature of the lithium-ion battery stack and control an operating state of the battery stack power frequency converter and the heating system switch.

公开(公告)号：US11911786B2

公开(公告)日：2024-02-27

申请号：US17628104

申请日：2021-06-30

Applicant: DALIAN UNIVERSITY OF TECHNOLOGY

Inventor： Jiafei Zhao ,  Yongchen Song ,  Mingzhao Yang ,  Hongsheng Dong ,  Lunxiang Zhang ,  Quan Shi ,  Lei Yang ,  Zheng Ling ,  Xiang Sun ,  Yanghui Li ,  Weiguo Liu

IPC: B05B5/08 ,  B05D1/06 ,  C09K5/06 ,  B05D1/04

CPC classification number: B05B5/081 ,  B05B5/084 ,  B05D1/06 ,  C09K5/063 ,  C09K5/066 ,  B05D1/04

Abstract: The present invention discloses a hydrate energy-storage temperature-control material and a preparation method therefor. The material includes a refrigerant hydrate and a cross-linked polymer. The preparation method comprises the following steps: first, preparing a refrigerant hydrate by using a high-pressure reactor, and conducting grinding, crushing and sieving to obtain hydrate particles; then, uniformly spraying polytetrafluoroethylene suspended ultrafine powder onto the surface of the hydrate particles by using an electrostatic spraying device, and putting the hydrate particles into a plasma instrument to modify polytetrafluoroethylene so as to allow free radicals to be formed on the polytetrafluoroethylene powder surface; finally, subjecting monomers to graft polymerization with the free radicals on the polytetrafluoroethylene surface under the irradiation of a high-pressure mercury lamp of UV lighting system to stabilize the structure of the material, preparing a final product. According to the present invention, a hydrate energy-storage temperature-control material with good stability is prepared. A method capable of preparing various types of refrigerant hydrate materials is provided. The product can give full play to the advantages of hydrate energy storage and temperature control, can be periodically used, and can be used in various fields such as building, refrigeration, etc.