Patents Assigned to Institute of Geochemistry, Chinese Academy of Sciences
-
Patent number: 11939645Abstract: This invention discloses a method for extracting lithium from carbonate clay type lithium ore based on ion exchange, which belongs to the field of lithium extraction technologies. This method aims to, with iron salt as the extractant, extract lithium into the solution through exchange reaction with lithium ore, which mainly involves the following steps: have clay type lithium ores crushed and ground prior to high-temperature roasting activation, and then conduct iron exchange reaction by iron salt solution while heating, followed by solid-liquid separation by means of filtration. The filtrate obtained will be lithium-bearing solution, and the extraction rate of lithium can reach as high as over 90%.Type: GrantFiled: April 3, 2020Date of Patent: March 26, 2024Assignee: INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCESInventors: Hanjie Wen, Hannian Gu, Li Zhu, Chongguang Luo, Shengjiang Du
-
Patent number: 11834729Abstract: A method for extracting rare earth elements (REEs) from a REE hyperaccumulator, including: subjecting the REE hyperaccumulator to microwave-assisted digestion to obtain a REE extract; subjecting the REE extract to absorption with a chelating resin and elution to obtain a purified REE solution; and subjecting the purified REE solution to precipitation and calcination to obtain high-purity rare earth compound.Type: GrantFiled: November 30, 2022Date of Patent: December 5, 2023Assignee: Guangzhou Institute of Geochemistry, Chinese Academy of SciencesInventors: Jianxi Zhu, Hongping He, Gaofeng Wang, Yuanyuan Wang, Mingqi Sun, Liuqing He, Xiaoliang Liang, Jingming Wei, Qingze Chen, Runliang Zhu
-
Patent number: 11585736Abstract: A hydrocarbon generation pyrolysis simulation experimental device for centrifugal continuous gas sampling of a hydrocarbon source rock, including a centrifugal turntable, a motor, a quartz sample tube, a heating set, a cooling set, a rotary joint mounted coaxially with a rotating shaft of the centrifugal turntable, a vacuum pump, and vacuum gas collecting pipes, wherein a sealing plug is arranged at an orifice of the quartz sample tube, a thermocouple and a first exhaust pipeline connected with an inlet of the rotary joint are mounted on the sealing plug, the rotary joint is communicated with a vacuum pump through a second exhaust pipeline, a plurality of vacuum gas collecting pipes are respectively communicated with the second exhaust pipeline through an electromagnetic valve, a vacuum pump switching valve is mounted on the second exhaust pipeline at an inlet end of the vacuum pump, and a control circuit board is mounted on the centrifugal turntable.Type: GrantFiled: July 9, 2020Date of Patent: February 21, 2023Assignee: GUANGZHOU INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCESInventors: Qiang Wang, Jinzhong Liu, Ping-An Peng
-
Patent number: 11499956Abstract: The present invention discloses a method for estimating soil organic carbon in karst area, including: step 1, establishing a soil organic carbon estimation model for the karst area; step 2, revising a soil depth; step 3, subtracting an exposure rate of bedrock for different types of soil and positive and negative terrains; step 4, revising a soil organic carbon density estimation formula for different types of soil and positive and negative terrains; and step 5, revising a soil organic carbon storage estimation method. This invention has solved the problem of overestimating soil organic carbon pool by existing methods, has improved the calculation accuracy, and has promoted the research process of soil carbon cycle in karst area.Type: GrantFiled: May 27, 2020Date of Patent: November 15, 2022Assignee: Institute of Geochemistry, Chinese Academy of SciencesInventors: Xiaoyong Bai, Shijie Wang, Luhua Wu, Miao Zhou, Fei Chen, Huiwen Li, Yue Cao, Jianyong Xiao, Qinghuan Qian, Cheng Zeng, Qin Li, Jinfeng Wang, Yichao Tian, Guangjie Luo, Yujie Yang, Chaojun Li, Yuanhong Deng, Zeyin Hu
-
Patent number: 11493496Abstract: Methods and systems for estimating a surface runoff based on a pixel scale are disclosed. In some embodiments, the method includes the following steps: (1) calculating a vegetation canopy interception water storage, a litterfall interception water storage, and a soil water storage according to an obtained original remote sensing dataset of a climate element in a study area; (2) calculating a vegetation-soil interception water conservation in the study area based on an established vegetation-soil interception water conservation estimation model according to the vegetation canopy interception water storage, the litterfall interception water storage, the soil water storage, and monthly precipitation; and (3) calculating a surface runoff in the study area based on an established water balance water conservation estimation model according to the monthly precipitation, monthly snowmelt, monthly actual evapotranspiration, and the vegetation-soil interception water conservation in the study area.Type: GrantFiled: April 30, 2020Date of Patent: November 8, 2022Assignee: Institute of Geochemistry, Chinese Academy of SciencesInventors: Xiaoyong Bai, Shijie Wang, Luhua Wu, Fei Chen, Miao Zhou, Yichao Tian, Guangjie Luo, Qin Li, Jinfeng Wang, Yuanhuan Xie, Yujie Yang, Chaojun Li, Yuanhong Deng, Zeyin Hu, Shiqi Tian, Qian Lu, Chen Ran, Min Liu
-
Patent number: 11467298Abstract: The present application provides a vector denoising method and a vector denoising device for multicomponent seismic data, which relate to the field of seismic data processing technologies. The vector denoising method for multicomponent seismic data includes: decomposing multicomponent seismic gather data to obtain a plurality of small multicomponent seismic data; obtaining quaternary frequency domain seismic data by performing a quaternary Fourier transformation according to each of the plurality of small multicomponent seismic data; extracting frequency slices from the quaternary frequency domain seismic data in a quaternary frequency domain, and filtering the frequency slices by using a Cadzow filtering method to obtain filtered quaternary frequency domain seismic data; and performing an inverse quaternary Fourier transformation on the filtered quaternary frequency domain seismic data to obtain filtered seismic data of each component.Type: GrantFiled: September 18, 2020Date of Patent: October 11, 2022Assignee: INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCESInventors: Chao Wang, Yun Wang
-
Publication number: 20220205880Abstract: A hydrocarbon generation pyrolysis simulation experimental device for centrifugal continuous gas sampling of a hydrocarbon source rock, including a centrifugal turntable, a motor, a quartz sample tube, a heating set, a cooling set, a rotary joint mounted coaxially with a rotating shaft of the centrifugal turntable, a vacuum pump, and vacuum gas collecting pipes, wherein a sealing plug is arranged at an orifice of the quartz sample tube, a thermocouple and a first exhaust pipeline connected with an inlet of the rotary joint are mounted on the sealing plug, the rotary joint is communicated with a vacuum pump through a second exhaust pipeline, a plurality of vacuum gas collecting pipes are respectively communicated with the second exhaust pipeline through an electromagnetic valve, a vacuum pump switching valve is mounted on the second exhaust pipeline at an inlet end of the vacuum pump, and a control circuit board is mounted on the centrifugal turntable.Type: ApplicationFiled: July 9, 2020Publication date: June 30, 2022Applicant: GUANGZHOU INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCESInventors: QIANG WANG, JINZHONG LIU, PING-AN PENG
-
Patent number: 11300709Abstract: The present invention relates to a method for determining a surface runoff yield in a vegetation-covered area. The present invention improves and integrates a water conservation model with a Zhang's model based on remote sensing data. The present invention constructs a new method for calculating a surface runoff yield in a vegetation-covered area on a spatial pixel scale based on a water balance equation of the vegetation-covered area. This method utilizes real-time dynamic multi-temporal remote sensing data to calculate a vegetation canopy interception water storage, a vegetation litterfall interception water storage, a soil water storage change, a vegetation water conservation, a vegetation evapotranspiration and a vegetation runoff yield. The method realizes the long-term dynamic estimation of the surface runoff yield in regional and global vegetation-covered areas on a spatial pixel scale. It has the advantages of being efficient, fast, accurate, and applicable to large-scale vegetation-covered areas.Type: GrantFiled: April 30, 2020Date of Patent: April 12, 2022Assignee: INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCESInventors: Xiaoyong Bai, Shijie Wang, Luhua Wu, Fei Chen, Miao Zhou, Yichao Tian, Guangjie Luo, Qin Li, Jinfeng Wang, Yuanhuan Xie, Yujie Yang, Chaojun Li, Yuanhong Deng, Zeyin Hu, Shiqi Tian, Qian Lu, Chen Ran, Min Liu
-
Publication number: 20210341454Abstract: Methods and systems for estimating a surface runoff based on a pixel scale are disclosed. In some embodiments, the method includes the following steps: (1) calculating a vegetation canopy interception water storage, a litterfall interception water storage, and a soil water storage according to an obtained original remote sensing dataset of a climate element in a study area; (2) calculating a vegetation-soil interception water conservation in the study area based on an established vegetation-soil interception water conservation estimation model according to the vegetation canopy interception water storage, the litterfall interception water storage, the soil water storage, and monthly precipitation; and (3) calculating a surface runoff in the study area based on an established water balance water conservation estimation model according to the monthly precipitation, monthly snowmelt, monthly actual evapotranspiration, and the vegetation-soil interception water conservation in the study area.Type: ApplicationFiled: April 30, 2020Publication date: November 4, 2021Applicant: Institute of Geochemistry, Chinese Academy of SciencesInventors: Xiaoyong BAI, Shijie Wang, Luhua WU, Fei CHEN, Miao ZHOU, Yichao TIAN, Guangjie LUO, Qin LI, Jinfeng WANG, Yuanhuan XIE, Yujie YANG, Chaojun LI, Yuanhong DENG, Zeyin HU, Shiqi TIAN, Qian LU, Chen RAN, Min Liu
-
Publication number: 20210341453Abstract: Methods and systems for estimating a groundwater recharge based on a pixel scale are disclosed. In some embodiments, a method includes the following steps: (1) obtaining an original remote sensing dataset of a climate element in a study area and a pixel area of the study area; (2) calculating a total water resource yield in the study area by a water balance equation according to the original remote sensing dataset of the climate element and the pixel area of the study area; and (3) estimating the groundwater recharge in the study area according to the total water resource yield and the monthly runoff in the study area. The original remote sensing dataset of the climate element includes monthly precipitation per unit pixel area, monthly actual evapotranspiration per unit pixel area, monthly snowmelt per unit pixel area, monthly soil moisture change per unit pixel area, and monthly runoff.Type: ApplicationFiled: April 30, 2020Publication date: November 4, 2021Applicant: Institute of Geochemistry, Chinese Academy of SciencesInventors: Xiaoyong BAI, Shijie WANG, Luhua WU, Fei CHEN, Miao ZHOU, Yichao TIAN, Guangjie LUO, Qin LI, Jinfeng WANG, Yuanhuan XIE, Yujie Yang, Chaojun LI, Yuanhong DENG, Zeyin HU, Shiqi TIAN, Qian LU, Chen RAN, Min LIU
-
Patent number: 10753831Abstract: Disclosed is a method for detection of air-water exchange flux of organic contaminants, which passively and continuously collects contaminants at consecutive points close to a sea surface microlayer, acquires the freely dissolved concentration at the consecutive points of the air and water body close to a water body surface microlayer, and obtains the air-water exchange flux of the contaminants through fitting a self-developed model, wherein the consecutive points include a plurality of sampling points along a height direction above an air-water interface and a plurality of sampling points along a depth direction below the air-water interface. The present invention can be applied to determine the air-water body exchange flux of organic contaminants.Type: GrantFiled: June 12, 2015Date of Patent: August 25, 2020Assignee: GUANGZHOU INSTITUTE OF GEOCHEMISTRY, CHINESE ACADEMY OF SCIENCESInventors: Eddy Y. Zeng, Chenchou Wu, Fengchang Wu, Lianjun Bao
-
Patent number: 9518896Abstract: The present invention discloses a gradually-ascending spiraled passive sampler for measuring sediment-water diffusion flux of organic polutants, which comprises a sediment pore-water sampler and a water sampler arranged above the sediment pore-water sampler, wherein a plurality of sediment sampling units are vertically arranged in the sediment pore-water sampler, and the water sampler is provided with a plurality of water sampling units arranged transversely along the vertical direction in sequence.Type: GrantFiled: January 9, 2013Date of Patent: December 13, 2016Assignee: Guangzhou Institute of Geochemistry, Chinese Academy of SciencesInventors: Eddy Y. Zeng, Shiping Xu, Huihui Liu
-
Patent number: 9073765Abstract: This invention discloses a kind of method to remove organic pollutants through coupling microwave degradation based on microporous mineral adsorption. It consists of the following major steps: Fill hydrophobic porous mineral adsorbent into the adsorption column to adsorb organic pollutants in the organic wastewater, and start up the microwave generator after the adsorbent reaches saturation so that the organic pollutants adsorbed inside the adsorption column can be degraded under microwave induction. With the alternative operation and regeneration of two adsorption columns, the organic wastewater can be treated continuously. In the invention, with the technologies of microwave-induced degradation through hydrophobic microporous mineral coupling adsorption, organic pollutants can be removed from water efficiently, and the degradation process and carrier can be circulated. The pollutants can be mineralized into non-toxic and harmless micromolecular substance completely.Type: GrantFiled: February 11, 2012Date of Patent: July 7, 2015Assignee: Guangzhou Institute of Geochemistry, Chinese Academy of SciencesInventors: Hefa Cheng, Erdan Hu
-
Publication number: 20140165712Abstract: The present invention discloses a gradually-ascending spiraled passive sampler for measuring sediment-water diffusion flux of organic polutants, which comprises a sediment pore-water sampler and a water sampler arranged above the sediment pore-water sampler, wherein a plurality of sediment sampling units are vertically arranged in the sediment pore-water sampler, and the water sampler is provided with a plurality of water sampling units arranged transversely along the vertical direction in sequence.Type: ApplicationFiled: January 9, 2013Publication date: June 19, 2014Applicant: Guangzhou Institute of Geochemistry, Chinese Academy of SciencesInventors: Eddy Y. Zeng, Shiping Xu, Huihui Liu
-
Publication number: 20140027381Abstract: This invention discloses a kind of method to remove organic pollutants through coupling microwave degradation based on microporous mineral adsorption. It consists of the following major steps: Fill hydrophobic porous mineral adsorbent into the adsorption column to adsorb organic pollutants in the organic wastewater, and start up the microwave generator after the adsorbent reaches saturation so that the organic pollutants adsorbed inside the adsorption column can be degraded under microwave induction. With the alternative operation and regeneration of two adsorption columns, the organic wastewater can be treated continuously. In the invention, with the technologies of microwave-induced degradation through hydrophobic microporous mineral coupling adsorption, organic pollutants can be removed from water efficiently, and the degradation process and carrier can be circulated. The pollutants can be mineralized into non-toxic and harmless micromolecular substance completely.Type: ApplicationFiled: February 11, 2012Publication date: January 30, 2014Applicant: Guangzhou Institute of Geochemistry, Chinese Academy of SciencesInventors: Hefa Cheng, Erdan Hu
-
Patent number: 8578797Abstract: The present invention discloses a multi-section sediment pore water sampler, which comprises a plurality of sampling units arranged coaxially and separated with each other; this arrangement ensures no water exchange occurred between two adjacent sampling units, collection of the sediment pore water samples from different depths of a same position is realized, whereby to facilitate organic pollutant sampling in sediment pore water at different depths according to different time resolutions. Furthermore, as the heights of the sampling units as well as the clearances between two neighboring sampling units may be various, in use users can configure the sampler according to the actual condition of the time resolution required, thus this sampler can also help improve the time resolution of water sampling.Type: GrantFiled: January 29, 2011Date of Patent: November 12, 2013Assignee: Guangzhou Institute of Geochemistry Chinese Academy of SciencesInventors: Eddy Y. Zeng, Shiping Xu, Lianjun Bao
-
Patent number: 8343750Abstract: The invention discloses an Ochrobactrum sp. for degrading TBBPA and its application in environmental remediation. An Ochrobactrum sp. for degrading TBBPA was isolated from the sludge in a high risk area of electronic waste in the invention. The strain is named as Ochrobactrum sp. T, which has been deposited in China Center for Type Culture Collection (CCTCC) on Oct. 28, 2009 with an accession number of CCTCC M209246. Ochrobactrum sp. T obtained in the invention has high degradation capability to TBBPA in environment. The degradation efficiency of the strain achieves 96.2%. The strain could be applied to degrading TBBPA in environmental remediation.Type: GrantFiled: December 30, 2009Date of Patent: January 1, 2013Assignee: Guangzhou Institute of Geochemistry, Chinese Academy of ScienceInventors: Guiying Li, Taicheng An, Lei Zu
-
Publication number: 20110281332Abstract: The invention discloses an Ochrobactrum sp. for degrading TBBPA and its application in environmental remediation. An Ochrobactrum sp. for degrading TBBPA was isolated from the sludge in a high risk area of electronic waste in the invention. The strain is named as Ochrobactrum sp. T, which has been deposited in China Center for Type Culture Collection (CCTCC) on Oct. 28, 2009 with an accession number of CCTCC M209246. Ochrobactrum sp. T obtained in the invention has high degradation capability to TBBPA in environment. The degradation efficiency of the strain achieves 96.2%. The strain could be applied to degrading TBBPA in environmental remediation.Type: ApplicationFiled: December 30, 2009Publication date: November 17, 2011Applicant: Guangzhou Institute of Geochemistry, Chinese Academy of SciencesInventors: Guiying Li, Taicheng An, Lei Zu
-
Patent number: 5700369Abstract: A novel process for adsorptive aggregation and also floatation of Carling type gold ores, which goes far beyond the conventional floatation method. Said novel technological procedures comprise fine grinding as well as sluicing of raw ores and adding special floatation agents such as stripping agent, adsorptive aggregation agent as well as collecting agent and flocculant in the course of coarse screening and sweep screenings. The fine ore obtained using the present process is graded as 22 g/T with a recovery yield langer than 83%. Said process has a screening index high and stable, it is safe and reliable and can be effectively put into industrial production.Type: GrantFiled: January 14, 1997Date of Patent: December 23, 1997Assignee: Guangzhou Institute of Geochemistry Chinese Academy of SciencesInventors: Zheng Zhou, Zailan Zou