Patents by Inventor Qingshan Zhu
Qingshan Zhu 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).
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Publication number: 20240345052Abstract: The present invention provides wearable plant sensors for continuous monitoring of plant physiology by tracking both biochemical and biophysical signals of the plant and its microenvironment. Sensors for detecting volatile organic compounds (VOC), temperature, and humidity are integrated into a single platform. The abaxial leaf attachment position is selected based on the stomata density to improve the sensor signal strength. This versatile platform enables various stress monitoring applications, ranging from tracking plant water loss to early detection of plant pathogens. A machine learning model was also developed to analyze multichannel sensor data for quantitative detection of tomato spotted wilt virus (TSWV) as early as four days after inoculation.Type: ApplicationFiled: April 10, 2024Publication date: October 17, 2024Inventors: Qingshan Wei, Yong Zhu, Giwon Lee
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Publication number: 20240268186Abstract: A display substrate and a method of manufacturing the display substrate are provided. The display substrate includes a base substrate and a plurality of sub-pixels (Pxl). A first electrode of a light-emitting element of the sub-pixel (Pxl) includes: a first conductive layer electrically connected to a source (S) or a drain (D) of a driving transistor of the sub-pixel (Pxl); a second conductive layer; and a transparent material layer. The transparent material layer includes a first transparent material sub-layer and a second transparent material sub-layer, the first transparent material sub-layer is between the second transparent material sub-layer and the second conductive layer, the second transparent material sub-layer covers the first transparent material sub-layer, and an edge of the first transparent material sub-layer is aligned with an edge of the second conductive layer.Type: ApplicationFiled: January 3, 2023Publication date: August 8, 2024Inventors: Zhongxiang Yu, Zongshun Yang, Chao Yang, Hongtao Yu, Kuanta Huang, Xiaochuan Chen, Qingshan Shan, Dongdong Su, Ruquan Li, Jianming Zou, Shipeng Li, Yunhao Zhang, Lei Fang, Xueliang Zhu, Xiong Yang, Ao Li, Fushuang Zhang, Jixing Wang
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Publication number: 20230177196Abstract: A resource management method suitable for a security architecture system including a secure element subsystem. The security architecture system is configured with N chip lifecycle states, N being an integer greater than 1, the secure element subsystem stores a plurality of resources, an access authority of the resources being associated with the N chip lifecycle states. The method includes performing access control on a resource based on a current chip lifecycle state of the security architecture system, the current chip lifecycle state of the security architecture system belonging to one of the N chip lifecycle states.Type: ApplicationFiled: November 21, 2022Publication date: June 8, 2023Inventors: Ming ZHANG, Yanzhao FENG, Yufeng GUO, Qingshan ZHU, Zhuo MA, Zhiqiang CHEN, Jianyue WANG
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Publication number: 20230069781Abstract: A microprocessor includes a cryptographic engine, M buffer units, and a controller. The cryptographic engine is configured to execute cryptographic algorithms. The M buffer units are configured to cache data required by an access request of a corresponding execution environment. M is an integer greater than or equal to 1. The controller is connected to the cryptographic engine and the M buffer units. The controller is configured to receive the access request from a first execution environment and instruct the cryptographic engine to execute the cryptographic algorithm requested by the access request using the required data cached by the buffer unit corresponding to the first execution environment from which the access request comes. The access request is used to access the cryptographic engine to execute a cryptographic algorithm. The first execution environment is one execution environment among N execution environments. N is an integer greater than or equal to 1.Type: ApplicationFiled: August 17, 2022Publication date: March 2, 2023Inventors: Yufeng GUO, Qiang DOU, Yanzhao FENG, Zhuo MA, Ming ZHANG, Qingshan ZHU, Jianyue WANG, Qiang DENG
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Publication number: 20230068658Abstract: A microprocessor includes a cryptographic engine and a controller. The cryptographic engine is configured to execute a cryptographic algorithm. The controller is connected to the cryptographic engine. The controller is configured to receive an access request from a first execution environment. The access request accesses the cryptographic engine to execute the cryptographic algorithm. The access request includes at least identification information. The identification information indicates that the access request is from the first execution environment. The first execution environment is an execution environment of a number N execution environments. N is an integer greater than or equal to 1. The controller is further configured to, based on the identification information, instruct the cryptographic engine to execute the cryptographic algorithm that needs to be executed required by the access request.Type: ApplicationFiled: August 17, 2022Publication date: March 2, 2023Inventors: Qiang DOU, Yanzhao FENG, Yufeng GUO, Ming ZHANG, Zhuo MA, Qingshan ZHU, Zhiqiang CHEN
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Patent number: 10868325Abstract: A system and method for preparing a vanadium battery high-purity electrolyte, comprising preparing a low-valence vanadium oxide with a valence of 3.5 with liquid phase hydrolysis and fluidization reduction with vanadium oxytrichloride, adding clean water and sulfuric acid for dissolution, and further performing ultraviolet activation to obtain the vanadium electrolyte, for use in an all-vanadium redox flow battery stack. The high-temperature tail gas in the reduction fluidized bed is combusted for preheating the vanadium powder material, to recover the sensible heat and latent heat of the high-temperature tail gas, and the sensible heat of the reduction product is recovered through heat transfer between the reduction product and the fluidized nitrogen gas. An internal member is arranged in the reduction fluidized bed to realize the precise regulation of the valence state of the reduction product, and ultraviolet is used to activate the vanadium ions, improving the activity of the electrolyte.Type: GrantFiled: January 16, 2017Date of Patent: December 15, 2020Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Haitao Yang, Qingshan Zhu, Chuanlin Fan, Wenheng Mu, Jibin Liu, Cunhu Wang, Qixun Ban
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Patent number: 10707515Abstract: A system and method for producing a high-purity and high-activity vanadium electrolyte, comprising converting high-purity vanadium oxytrichloride into an ammonium salt in a fluidized bed by gas phase ammoniation, then in another fluidized bed, reducing the ammonium salt into a low-valence vanadium oxide having an average vanadium valence of 3.5, adding clean water and sulfuric acid for dissolution, and further performing activation by ultrasound to obtain a 3.5-valence vanadium electrolyte which can be directly used in a new all-vanadium redox flow battery stack. The method of producing an ammonium salt containing vanadium in the fluidized bed by gas phase ammoniation is of short process and high efficiency. Precise regulation of the valence state of the reduction product is implemented by arranging an internal member in the reduction fluidized bed, and ultrasonication is used to activate the vanadium ion, thereby greatly improving the activity of the electrolyte.Type: GrantFiled: January 16, 2017Date of Patent: July 7, 2020Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Haitao Yang, Qingshan Zhu, Chuanlin Fan, Qixun Ban
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Patent number: 10693171Abstract: A system and method for preparing a high-purity vanadium electrolyte, comprising preparing a low-valence vanadium oxide with vanadium oxytrichloride by ammonium salt precipitation and fluidization reduction, and preparing the high-purity vanadium electrolyte at a low temperature by adding a sulfuric acid solution and clean water under the conditions of ultrasound-assisted dissolution and activation. Efficient utilization of heat is achieved through heat exchange between the ammonium salt and the reduction tail gas and heat exchange between the reduction product and fluidized nitrogen gas. Ammonia gas in the reduction tail gas is recovered for precipitation of vanadium to achieve the recycling of ammonia gas. An internal member is arranged in the reduction fluidized bed to realize the precise regulation of the valence state of the reduction product.Type: GrantFiled: January 16, 2017Date of Patent: June 23, 2020Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Qingshan Zhu, Haitao Yang, Chuanlin Fan, Wenheng Mu, Jibin Liu, Cunhu Wang, Qixun Ban
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Patent number: 10673088Abstract: A system and method for producing a 3.5-valence high-purity vanadium electrolyte, comprising hydrolyzing high-purity vanadium oxytrichloride into vanadium pentoxide in a fluidized bed, and reducing vanadium pentoxide into a low-valence vanadium oxide having an average vanadium valence of 3.5 adding water and a sulfuric acid solution under a microwave field applied externally for dissolution at a low temperature, to obtain a 3.5-valence high-purity vanadium electrolyte. The preparation of vanadium pentoxide by means of gas-phase hydrolysis in the fluidized bed is of short process and high efficiency. By providing an internal member within the reduction fluidized bed, the precise regulation of the valence state of the reduction product is achieved, and the special chemical effect of the microwave field is used to promote dissolution of the vanadium oxide and activate the vanadium ions, thereby greatly improving the activity of the electrolyte.Type: GrantFiled: January 16, 2017Date of Patent: June 2, 2020Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Chuanlin Fan, Qingshan Zhu, Haitao Yang, Wenheng Mu, Jibin Liu, Cunhu Wang, Qixun Ban
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Patent number: 10294118Abstract: The present invention provides a system and method for purifying vanadium pentoxide. Industrial grade vanadium pentoxide is converted to vanadium oxytrichloride by low temperature fluidizing chlorination, wherein chlorinating gas is preheated via heat exchange between fluidizing gas and chlorination flue gas, and an appropriate amount of air is added to enable a part of carbon powder to combust so as to achieve a balanced heat supply during the chlorination, thereby increasing the efficiency of chlorination and ensuring good selectivity in low temperature chlorination. The vanadium oxytrichloride is purified by rectification, and then subjected to plasma oxidation, thereby obtaining a high-purity vanadium pentoxide product and chlorine gas. The chlorine gas is returned for low temperature chlorination.Type: GrantFiled: January 28, 2016Date of Patent: May 21, 2019Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTD.Inventors: Qingshan Zhu, Chuanlin Fan, Wenheng Mu, Jibin Liu, Cunhu Wang, Qixun Ban
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Patent number: 10233510Abstract: A system for fluidized bed reduction of powdered iron ore. Use of high-gas-velocity processing accelerates iron ore reduction speed and greatly improves the gas-treatment capabilities of a unit-cross-sectional fluidized bed. Use of parallel connections involving reduced coal gas lessens the volume of gas passing through a single-stage fluidized bed. Use of serial/parallel-connection processing involving reduced coal gas increases the coal gas utilization rate. The invention achieves the highly-effective reduction of powdered iron ore in a fluidized bed under near-atmospheric pressure. A reduction method based on the present system is also disclosed.Type: GrantFiled: December 30, 2014Date of Patent: March 19, 2019Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEJING ZHONGKAIHONGDE TECHNOLOGY CO., LTD.Inventors: Qingshan Zhu, Chuanlin Fan, Hongzhong Li, Zhaohui Xie, Wenheng Mu, Cunhu Wang, Xingang Jiao
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Patent number: 10202662Abstract: A system and method for fluidized reduction of iron ore powder. Use of oxidation increases the iron ore reduction rate. Use of high-gas-velocity processing accelerates iron ore reduction speed and greatly improves the gas-treatment capabilities of a unit-cross-sectional fluidized bed. Use of parallel-connections involving reduced coal gas lessens the volume of gas passing through a single-stage fluidized bed. The invention achieves the highly-effective reduction of iron ore powder in a fluidized bed under near-atmospheric pressure.Type: GrantFiled: December 30, 2014Date of Patent: February 12, 2019Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTD.Inventors: Qingshan Zhu, Chuanlin Fan, Hongzhong Li, Zhaohui Xie, Wenheng Mu, Cunhu Wang, Xingang Jiao
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Publication number: 20190044172Abstract: A system and method for producing a high-purity and high-activity vanadium electrolyte, comprising converting high-purity vanadium oxytrichloride into an ammonium salt in a fluidized bed by gas phase ammoniation, then in another fluidized bed, reducing the ammonium salt into a low-valence vanadium oxide having an average vanadium valence of 3.5, adding clean water and sulfuric acid for dissolution, and further performing activation by ultrasound to obtain a 3.5-valence vanadium electrolyte which can be directly used in a new all-vanadium redox flow battery stack. The method of producing an ammonium salt containing vanadium in the fluidized bed by gas phase ammoniation is of short process and high efficiency. Precise regulation of the valence state of the reduction product is implemented by arranging an internal member in the reduction fluidized bed, and ultrasonication is used to activate the vanadium ion, thereby greatly improving the activity of the electrolyte.Type: ApplicationFiled: January 16, 2017Publication date: February 7, 2019Applicants: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Haitao YANG, Qingshan ZHU, Chuanlin FAN, Wenheng MU, Jibin LIU, Cunhu WANG, Qixun BAN
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Publication number: 20190044173Abstract: A system and method for producing a 3.5-valence high-purity vanadium electrolyte, comprising hydrolyzing high-purity vanadium oxytrichloride into vanadium pentoxide in a fluidized bed, and reducing vanadium pentoxide into a low-valence vanadium oxide having an average vanadium valence of 3.5 adding water and a sulfuric acid solution under a microwave field applied externally for dissolution at a low temperature, to obtain a 3.5-valence high-purity vanadium electrolyte. The preparation of vanadium pentoxide by means of gas-phase hydrolysis in the fluidized bed is of short process and high efficiency. By providing an internal member within the reduction fluidized bed, the precise regulation of the valence state of the reduction product is achieved, and the special chemical effect of the microwave field is used to promote dissolution of the vanadium oxide and activate the vanadium ions, thereby greatly improving the activity of the electrolyte.Type: ApplicationFiled: January 16, 2017Publication date: February 7, 2019Applicants: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Chuanlin FAN, Qingshan ZHU, Haitao YANG, Wenheng MU, Jibin LIU, Cunhu WANG, Qixun BAN
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Publication number: 20190044174Abstract: A system and method for preparing a high-purity vanadium electrolyte, comprising preparing a low-valence vanadium oxide with vanadium oxytrichloride by ammonium salt precipitation and fluidization reduction, and preparing the high-purity vanadium electrolyte at a low temperature by adding a sulfuric acid solution and clean water under the conditions of ultrasound-assisted dissolution and activation. Efficient utilization of heat is achieved through heat exchange between the ammonium salt and the reduction tail gas and heat exchange between the reduction product and fluidized nitrogen gas. Ammonia gas in the reduction tail gas is recovered for precipitation of vanadium to achieve the recycling of ammonia gas. An internal member is arranged in the reduction fluidized bed to realize the precise regulation of the valence state of the reduction product.Type: ApplicationFiled: January 16, 2017Publication date: February 7, 2019Applicants: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Qingshan ZHU, Haitao YANG, Chuanlin FAN, Wenheng MU, Jibin LIU, Cunhu WANG, Qixun BAN
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Publication number: 20190044171Abstract: A system and method for preparing a vanadium battery high-purity electrolyte, comprising preparing a low-valence vanadium oxide with a valence of 3.5 with liquid phase hydrolysis and fluidization reduction with vanadium oxytrichioride, adding clean water and sulfuric acid for dissolution, and further performing ultraviolet activation to obtain the vanadium electrolyte, for use in an all-vanadium redox flow battery stack. The high-temperature tail gas in the reduction fluidized bed is combusted for preheating the vanadium powder material, to recover the sensible heat and latent heat of the high-temperature tail gas, and the sensible heat of the reduction product is recovered through heat transfer between the reduction product and the fluidized nitrogen gas. An internal member is arranged in the reduction fluidized bed to realize the precise regulation of the valence state of the reduction product, and ultraviolet is used to activate the vanadium ions, improving the activity of the electrolyte.Type: ApplicationFiled: January 16, 2017Publication date: February 7, 2019Applicants: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Haitao YANG, Qingshan ZHU, Chuanlin FAN, Wenheng MU, Jibin LIU, Cunhu WANG, Qixun BAN
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Publication number: 20190036134Abstract: A system and method for preparing a high-activity specific-valence electrolyte of an all-vanadium redox flow battery. A vanadium-containing material is reduced into a low-valence vanadium oxide with an average valence in the range of 3.0-4.5 through precise control of fluidization, then water and sulfuric acid are added for dissolution, and microwave field is further adopted for activation, so as to obtain a specific-valence vanadium electrolyte. Efficient utilization of heat is achieved through heat exchange between the vanadium-containing material and reduction tail gas and heat exchange between the reduction product and fluidized nitrogen gas. An internal member and feed outlets at different heights are arranged in a reduction fluidized bed to achieve precise control over the valence state of the reduction product, and the special chemical effect of the microwave field is used to activate the vanadium ions, thereby improving the activity of the electrolyte greatly.Type: ApplicationFiled: January 16, 2017Publication date: January 31, 2019Applicants: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Qingshan ZHU, Haitao YANG, Chuanlin FAN, Wenheng MU, Jibin LIU, Cunhu WANG, Qixun BAN
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Patent number: 10125024Abstract: The present invention provides a system and method for purifying and preparing vanadium pentoxide powder. Industrial grade vanadium pentoxide is converted to vanadium oxytrichloride by low temperature fluidizing chlorination, wherein chlorinating gas is preheated via heat exchange between fluidizing gas and chlorination flue gas, and an appropriate amount of air is added to enable a part of carbon powder to combust so as to achieve a balanced heat supply during the chlorination, thereby increasing the efficiency of chlorination and ensuring good selectivity in low temperature chlorination. The vanadium oxytrichloride is purified by rectification, and then subjected to fluidized gas phase ammonification, thereby obtaining ammonium metavanadate, and further obtaining a high-purity vanadium pentoxide powder product through fluidized calcination.Type: GrantFiled: January 28, 2016Date of Patent: November 13, 2018Assignees: INSTITUTE OF PROCEES ENGINEERING CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTD.Inventors: Qingshan Zhu, Haitao Yang, Chuanlin Fan, Wenheng Mu, Jibin Liu, Cunhu Wang, Qixun Ban
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Patent number: 10112846Abstract: The present invention provides a system and method for producing high-purity vanadium tetraoxide powder. Industrial grade vanadium pentoxide is converted to vanadium oxytrichloride by low temperature fluidizing chlorination, wherein chlorinating gas is preheated via heat exchange between fluidizing gas and chlorination flue gas, and an appropriate amount of air is added to enable a part of carbon powder to combust so as to achieve a balanced heat supply during the chlorination, thereby increasing the efficiency of chlorination and ensuring good selectivity in low temperature chlorination. The vanadium oxytrichloride is purified by rectification, and then subjected to fluidized gas phase hydrolyzation, thereby producing a high-purity vanadium pentoxide product and a by-product solution of hydrochloric acid, and further obtaining a high-purity vanadium tetraoxide powder product through fluidized hydrogen reduction.Type: GrantFiled: January 28, 2016Date of Patent: October 30, 2018Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTDInventors: Qingshan Zhu, Chuanlin Fan, Wenheng Mu, Jibin Liu, Cunhu Wang, Qixun Ban
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Patent number: 10100379Abstract: A system and method for the fluidized direct reduction of iron ore concentrate powder. A two-phase fluidized bed is used for the direct reduction of iron ore concentrate powder. Each phase of the fluidized bed is formed by a bubbling bed and a circulating bed. Use of serial-connection processing involving gas and of high-gas-velocity processing of the circulating bed increase the gas utilization rate and the reduction efficiency of single-phase reduction. Once reduced gases are subjected to preheating, each gas is sent into an initial reduction phase and a final reduction phase so as to implement reduction of minerals. Use of mixed-connection processing involving gas appropriately reduces processing pressure. Hot flue gas produced by combustion in a gas heater is sent to a mineral pre-heating system that is used for pre-heating iron ore concentrate powder.Type: GrantFiled: December 30, 2014Date of Patent: October 16, 2018Assignees: INSTITUTE OF PROCESS ENGINEERING, CHINESE ACADEMY OF SCIENCES, BEIJING ZHONGKAIHONGDE TECHNOLOGY CO., LTD.Inventors: Qingshan Zhu, Chuanlin Fan, Hongzhong Li, Zhaohui Xie, Wenheng Mu, Cunhu Wang, Xingang Jiao