He has been responsible for and participated in the research work of more than 1 projects, such as the National Natural Science Foundation Project and the National Science and Technology Commission Key Project, which is pioneering in the research of environmental radon and environmental geophysics, and has established the theory and method for predicting the environmental radon concentration level by using the existing geophysical and geochemical data for the first time.
As the project leader or participant, he has carried out scientific research on more than 2 national-level projects, such as Research on Measurement and Anomaly Interpretation Methods of Radon and its Daughters, Development Status and Evaluation of Geophysical and Chemical Exploration Techniques for Searching for Leachable Sandstone Uranium, Theoretical Model of Earth-Atmosphere Radon Exchange under Natural Conditions, and Theory and Method of Anomaly Inversion by Surface Radon Method, among which Magnetotelluric Sounding Research in Yurdos Basin. (1) application and research of soil natural thermoluminescence and other geophysical and geochemical exploration methods in in-situ leachable sandstone-type uranium ore prospecting; (2) research on interpretation method of airborne gamma-ray spectrum data under complex terrain conditions; (3) application and research of new methods such as geogas in uranium ore prospecting; (3) project of nuclear industry geological bureau in 2-21. Study on the application of geophysical and geochemical exploration methods in prospecting sandstone-type uranium deposits The project of the Science, Technology and Industry Committee for National Defense in 2-21 is responsible for
(5) Underground rapid exploration and logging evaluation technology of uranium resources, and the project of the Ministry of Science and Technology in 863 (27 AA6Z111) in 22-25. Project leader
(6) Research on measurement method and anomaly interpretation of radon and its daughters
(7) Looking for the development status of geophysical and geochemical exploration technology of in-situ leachable sandstone uranium deposits and evaluating the project leader of National Nuclear Corporation 22-25
(8) Research on new methods and technologies of mineral exploration (research on nuclear methods) China Geological Survey 25-25. The research and numerical simulation of radon migration ability was supported by the National Natural Science Foundation (157522) from January 26 to 28. The project was responsible for
(1) Basic national defense research on the characteristics of geophysical field of sandstone-type uranium deposits (A4326145) from January 26 to 28, and the project was responsible for
(11) Three-dimensional resistivity acquisition system for uranium resource exploration and. The project is in charge of
(12) the underground rapid exploration and logging evaluation technology of uranium resources, which is a national 863 plan project. From 28 to 212, the project is in charge of
(13) the research on the evaluation method of environmental effect of decommissioning treatment of uranium smelting facilities. From 212 to 215, Liu Qingcheng, the National Natural Science Foundation of China, presided over the World Nuclear Geological Science, Geophysical Journal and Geoscience Frontier successively.
1. Liu Qingcheng, Wu Xinmin, Liu Yujuan, Yang Yaxin, Zhang Ye. Study on the law of radon geological potential in Beijing urban area, Nuclear Technology, 32 (1), 29:55-6.
2. Liu Qingcheng, Xia Fei, Hua Ming, Xu Lechang, Wu Dong. Present situation and post-evaluation of decommissioning treatment project of uranium metallurgical facilities. Qin Zhong, Qingcheng Liu. Preparation and Characterization of Microporous Nano-Tungsten Trioxide and Its Photocatalytic Activity after Doping Rare Earth, Journal of Rare Earths,24⑴ (1), 26:6-66.
4. Wu Hexi, Liu Qingcheng, Yang Bo, Liu Yujuan. Application of SNIP method in gamma-ray spectrum analysis of natural radionuclides. Nuclear Technology, 33 once, 21:513-516.
5. 19 (1), 21:124-126.
6. Du Yanjun, Liu Qingcheng, Qin Guoxiu. Investigation on radon pollution in the ambient air of a uranium mine, World Nuclear Geology Science, 26 (1), 29:59-62.
7. Wu Xinmin, Liu Qingcheng, Yang Yaxin, Zheng Yongming. 25:918-921.
8. Zhong Nianbing, Liu Qingcheng, et al. Electrode communication design of three-dimensional resistivity method, uranium geology, 27 (1), 211:56-6
9、A study on the method of terrain correction for airborne gamma-ray spectrometry under complex conditionsLiu, QC(2)24CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITIONISI:225924
1、Soil thermoluminescence at Xi-wang Deposit, Xiazhuang uranium ore field, ChinaLiu, QC(4)24JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRYISI:225598919
11、A new radon monitor with a positively charged aluminum diskLiu, QC(2)25JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRYISI:23514917
12、 Preparation and characterization of microporous nano-tungsten trioxide and its photocatalytic activity after doping rare earthLiu, QC (3) Journal of Rare Earths 26 ISI: 236434112 < P > 13. Determination of soil natural radioactivity and environmental impact assessment in Xiazhuang uranium mine, Guangdong Province Liu Qingcheng (2)25 Nuclear technology ISI:639642828
14, 326 ion spraying atmospheric radon measuring instrument Liu Qingcheng (2) 25 nuclear electronics and detection technology ISI:51298299
15. Preparation of TiO_2 nanowire array film and its photocatalytic degradation kinetics of gaseous formaldehyde Liu Qingcheng (3)26 Journal of Chemical Industry ISI:619986828
16. Overview of airborne gamma-ray spectrometry in China Liu Qingcheng (3)27 uranium mining and metallurgy (core) < Preliminary study on three-dimensional terrain correction method of airborne gamma-ray spectrometry Liu Qingcheng (2)27 uranium mining and metallurgy (core)
18, Ra-Rn equilibrium displacement effect in drilling process Liu Qingcheng (2)26 Journal of Chengdu University of Technology (natural science edition) (core)
19, Preparation and characterization of microporous nano-tungsten trioxide and study on photocatalytic activity after doping rare earth Liu Qingcheng (3) Hydrothermal-microwave drying synthesis of high crystalline nanorods WO_3 and its photocatalytic activity Liu Qingcheng (3)25 Chemical progress (core)
21. Study on comprehensive geophysical prospecting for deep concealed uranium deposits Liu Qingcheng (2)24 Journal of Minerals (core)
22. Application of radon and its daughters measurement method in landslide exploration Liu Qingcheng (3)28. Effect of Heat Treatment on the Structure and Photocatalytic Activity of Tungstic Acid Products Liu Qingcheng (3)25 Journal of Material Heat Treatment (Core) participated in the editing of the textbook Introduction to Nuclear Science in the Tenth Five-Year Plan of the Commission of Science, Technology and Industry for National Defense and the compilation of the National Dictionary of Earth Science, and co-authored and published the achievements and prospects of nuclear resources and environment research, the mystery of exploring the earth-geophysics, and the elastic changes and changes of space R field.
(1), edited by Liu Qingcheng, Jia Baoshan and Wan Jun, Introduction to Nuclear Science (Planning Textbook of the Commission of Science, Technology and Industry for National Defense), Harbin Institute of Technology Press, 25
(2), written by Lu Cunheng, Liu Qingcheng and Han Changqing, elastic change and application of spatial gamma field, Atomic Energy Press, 26 (1), Liu Qingcheng, Deng Juzhi and Fang Genxian.
(2) Yang Yaxin, Li Shumin, Liu Qingcheng, Wu Xinmin, Xia Zhonglei, Research on 326 Radon Detector and Radon Measuring Method, second prize of Jiangxi Science and Technology Progress, Jiangxi Provincial People's Government, March 28, ranked third.
(3) Liu Qingcheng, application research of geophysical and geochemical prospecting method for in-situ leaching sandstone uranium deposits, second prize of uranium geological achievements of Bureau of Geology, Bureau of Geology of Nuclear Industry, 27.5
(4) Yang Yaxin, Liu Qingcheng, Wu Xinmin and Deng Juzhi, third prize of scientific and technological achievements of colleges and universities in Jiangxi Province, Jiangxi Provincial Department of Education, 26.2
. Research on the measurement and anomaly interpretation method of radon and its daughters, the second prize of scientific and technological achievements of colleges and universities in Jiangxi Province, the title of "Nuclear Technology Exploration" in Jiangxi Province in 27.8
(6), the title of provincial quality course, and the "Research on the measurement and anomaly interpretation method of radon and its daughters" in Jiangxi Province in 26
(7), the award of excellent national defense science and technology report in 27.8
.