Research output per year
Research output per year
Personal profile
Personal profile
Presided over 2 National Natural Science Foundation projects and undertook 2 enterprise cooperation projects; Participated in 4 National Natural Science Foundation projects. So far, he has published 48 academic papers in academic journals and conferences at home and abroad, including 39 indexed by SCI, 2 indexed by EI, and 2 authorized patents.
Research Interests
1. Microchemical System
2. Chemical process strengthening
3. Basic Theory of Chemical industry
2. Chemical process strengthening
3. Basic Theory of Chemical industry
Education
2006.09-2011.07 Tsinghua University, Chemical Engineering and Technology major, Doctor of Engineering
2002.09-2006.07 Tsinghua University, Chemical Engineering and Technology, Bachelor of Engineering
2002.09-2006.07 Tsinghua University, Chemical Engineering and Technology, Bachelor of Engineering
Professional Experience
2016.07-present Associate Professor, School of Chemistry and Chemical Engineering, Beijing Institute of Technology
2015.07-2016.07 Associate Professor, School of Chemical Engineering and Environment, Beijing Institute of Technology
2015.05-2015.06 School of Chemical Engineering and Environment, Beijing Institute of Technology, Lecturer
2014.03-2015.04 Research Assistant, Department of Mechanical Engineering, University of Hong Kong
2011.07-2014.06 Postdoctoral Fellow, Department of Chemical Engineering, Tsinghua University
2015.07-2016.07 Associate Professor, School of Chemical Engineering and Environment, Beijing Institute of Technology
2015.05-2015.06 School of Chemical Engineering and Environment, Beijing Institute of Technology, Lecturer
2014.03-2015.04 Research Assistant, Department of Mechanical Engineering, University of Hong Kong
2011.07-2014.06 Postdoctoral Fellow, Department of Chemical Engineering, Tsinghua University
Research Achievement
Presided over 2 National Natural Science Foundation projects and undertook 2 enterprise cooperation projects; Participated in 4 National Natural Science Foundation projects. So far, he has published 48 academic papers in academic journals and conferences at home and abroad, including 39 indexed by SCI, 2 indexed by EI, and 2 authorized patents.
1. The construction of microscale heterogeneous system with microchemical equipment proved that new interfacial dispersion behavior would appear at microscale and micron-sized droplets and bubbles could be obtained.
2. The separation process based on the heterogeneous system is realized with the micro-scale heterogeneous system. It is proved that the mass transfer process is significantly faster with the decrease of dispersion size due to the decrease of mass transfer distance and the increase of specific surface area.
3. To realize the strengthening system of mass transfer process, to realize the strengthening of chemical processes such as precipitation reaction and catalytic oxidation treatment of phenol-containing wastewater.
Representative Papers
1. Ji Yani, Geng Wenjie, Ma Chunyang, Tan Jing*, Deng Wensheng, Liu Bin, Su Yuefeng. Preparation of microdispersed droplets by phase inversion in gas/liquid/liquid microdispersion system. Chemical Engineering Science, 2020, 217:115498
2. Li Zhikang, Shang Luwei, NIE Miaomiao, DENG Wensheng, TAN Jing *. G/O/W micro-dispersion system for extraction and separation of formic acid/trioctylamine - n-octanol system. Journal of Chemical Engineering, 2020, 71:4219-4227
3. Liu Mingyue, Liu Na, Tan Jing*, Su Yuefeng*, Deng Wensheng, Chen Lai, Xue Ruixue, Zhang Qiyu. Micromixer-assisted co-precipitation method for fast synthesis of layered Ni-rich materials for Lithium-ion batteries. ChemElectroChem, 2019, 6:3057-3064
4. Feng Tingfan, Tan Jing*, Deng Wensheng, Su Yuefeng. Intensification of high-phase-ratio extraction via microbubble-agitation in gas-liquid-liquid systems. Chemical Engineering Science, 2018,177:270-283
5. Tan Jing, ZHAO Jing-Jing, Xu Jian-Hong, Luo Guang-Sheng *. Gas/ionic liquid two-phase flow and dispersion properties in microchannels. Journal of Chemical Engineering, 2014,65:55-60
6. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Modeling investigation of mass transfer of gas-liquid concurrent flow processes. Separation and Purification Technology, 2013,109:77-86
Purification Technology, 2013,109:77-86 7. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Modeling investigation of mass transfer of gas-liquid-liquid dispersion systems. Separation and Purification Technology, 2013,108:111-118
Purification Technology, 2013,108:111-118 8. Tan Jing, Zhang Jisong, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Process intensification of catalytic hydrogenation of ethylanthraquinone with gas-liquid microdispersion. AIChE Journal, 2012,58:1326-1335
9. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Mass transfer performance of gas-liquid segmented flow in microchannels. Chemical Engineering Journal, 2012181:229-235 < br > 10. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Mass transfer characteristic in the formation stage of gas-liquid segmented flow in microchannel. Chemical Engineering Journal, 2012,185:314-320
11. Tan Jing, Dong Chen, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Coupling process of oxidation and extraction in a gas-liquid-liquid microdispersion system for H2O2 synthesis. Industrial & Engineering Chemistry Research, 2012,51:1834-1845
12. Tan Jing, Xu Jianhong, Lv Yangcheng, Luo Guangsheng *. Mass transfer performance of bubble dispersion flow in T-shaped microchannels. Science in China: Chemistry, 2012,42:340-346
13. Tan Jing, Du Le, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Surfactantfree microdispersion process of gas in organic solvents in microfluidic devices. AIChE Journal, 2011,57:2647-2656
14. Tan Jing*, Shao Huawei, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Development of a membrane dispersion micro-absorber for CO2 capture. Journal of Membrane Science, 2011385:123-131 < br > 15. Tan Jing, Du Le, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Development of a gas-liquid microstructured system for oxidation of hydrogenated 2 - ethyltetrahydroanthraquinone. Chemical Engineering Journal, 2011171:1406-1414 < br > 16. Tan Jing, Liu Zhendong, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Process intensification of H2O2 extraction using gas-liquid-liquid microdispersion system. Separation and Purification Technology, 2011,80:225-234
17. Tan Jing, Shao Huawei, Xu Jianhong, Du Le, Luo Guangsheng*. Mixture absorption system of monoethanolamine triethylene glycol for CO2 capture. Industrial & Engineering Chemistry Research, 2011,50:3966-3976
18. Tan Jing, Xu Jianhong, Wang Kai, Luo Guangsheng*. Rapid measurement of gas solubility in liquids using a membrane dispersion microcontactor. Industrial & Engineering Chemistry Research, 2010,49:10040-10045
19. Tan Jing, Li Shaowei, Wang Kai, Luo Guangsheng*. Gas - liquid flow in Tjunction microfluidic devices with a new perpendicular rupturing flow route. Luo guangsheng *. Gas - liquid flow in t junction microfluidic devices with a new perpendicular rupturing flow route. Chemical Engineering Journal, 2009,146:428-433
20. Tan Jing, Xu Jianhong, Li Shaowei, Luo Guangsheng*. Drop dispenser in a cross-junction microfluidic device: Scaling and mechanism of break-up. Chemical Engineering Journal, 2008,136:306-311
Undertaking project
1. Research on the Process and Mechanism of Enhancing gas/liquid/Solid Catalytic Reaction in TBR by Microchemical Technology, Supported by the National Natural Science Foundation of China (21206081), 2019.01-2022.12, 650,000 yuan, led by
2. Supported by Beijing Natural Science Foundation (2182063), 2018.01-2020.12, 200,000 yuan, Host
3. Basic research of microbubble strengthening extreme comparison between liquid and liquid mass transfer process, supported by National Natural Science Foundation of China (21206081), 2013.01-2015.12, 250,000 yuan, Host 4. Study on dispersion and mass transfer Properties of gas/Highly viscous fluid systems in Microchannels, Supported by China Postdoctoral Science Foundation (2012M510032), 2012.05-2014.06, 80,000 yuan, Host
1. The construction of microscale heterogeneous system with microchemical equipment proved that new interfacial dispersion behavior would appear at microscale and micron-sized droplets and bubbles could be obtained.
2. The separation process based on the heterogeneous system is realized with the micro-scale heterogeneous system. It is proved that the mass transfer process is significantly faster with the decrease of dispersion size due to the decrease of mass transfer distance and the increase of specific surface area.
3. To realize the strengthening system of mass transfer process, to realize the strengthening of chemical processes such as precipitation reaction and catalytic oxidation treatment of phenol-containing wastewater.
Representative Papers
1. Ji Yani, Geng Wenjie, Ma Chunyang, Tan Jing*, Deng Wensheng, Liu Bin, Su Yuefeng. Preparation of microdispersed droplets by phase inversion in gas/liquid/liquid microdispersion system. Chemical Engineering Science, 2020, 217:115498
2. Li Zhikang, Shang Luwei, NIE Miaomiao, DENG Wensheng, TAN Jing *. G/O/W micro-dispersion system for extraction and separation of formic acid/trioctylamine - n-octanol system. Journal of Chemical Engineering, 2020, 71:4219-4227
3. Liu Mingyue, Liu Na, Tan Jing*, Su Yuefeng*, Deng Wensheng, Chen Lai, Xue Ruixue, Zhang Qiyu. Micromixer-assisted co-precipitation method for fast synthesis of layered Ni-rich materials for Lithium-ion batteries. ChemElectroChem, 2019, 6:3057-3064
4. Feng Tingfan, Tan Jing*, Deng Wensheng, Su Yuefeng. Intensification of high-phase-ratio extraction via microbubble-agitation in gas-liquid-liquid systems. Chemical Engineering Science, 2018,177:270-283
5. Tan Jing, ZHAO Jing-Jing, Xu Jian-Hong, Luo Guang-Sheng *. Gas/ionic liquid two-phase flow and dispersion properties in microchannels. Journal of Chemical Engineering, 2014,65:55-60
6. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Modeling investigation of mass transfer of gas-liquid concurrent flow processes. Separation and Purification Technology, 2013,109:77-86
Purification Technology, 2013,109:77-86 7. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Modeling investigation of mass transfer of gas-liquid-liquid dispersion systems. Separation and Purification Technology, 2013,108:111-118
Purification Technology, 2013,108:111-118 8. Tan Jing, Zhang Jisong, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Process intensification of catalytic hydrogenation of ethylanthraquinone with gas-liquid microdispersion. AIChE Journal, 2012,58:1326-1335
9. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Mass transfer performance of gas-liquid segmented flow in microchannels. Chemical Engineering Journal, 2012181:229-235 < br > 10. Tan Jing*, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Mass transfer characteristic in the formation stage of gas-liquid segmented flow in microchannel. Chemical Engineering Journal, 2012,185:314-320
11. Tan Jing, Dong Chen, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Coupling process of oxidation and extraction in a gas-liquid-liquid microdispersion system for H2O2 synthesis. Industrial & Engineering Chemistry Research, 2012,51:1834-1845
12. Tan Jing, Xu Jianhong, Lv Yangcheng, Luo Guangsheng *. Mass transfer performance of bubble dispersion flow in T-shaped microchannels. Science in China: Chemistry, 2012,42:340-346
13. Tan Jing, Du Le, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Surfactantfree microdispersion process of gas in organic solvents in microfluidic devices. AIChE Journal, 2011,57:2647-2656
14. Tan Jing*, Shao Huawei, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Development of a membrane dispersion micro-absorber for CO2 capture. Journal of Membrane Science, 2011385:123-131 < br > 15. Tan Jing, Du Le, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Development of a gas-liquid microstructured system for oxidation of hydrogenated 2 - ethyltetrahydroanthraquinone. Chemical Engineering Journal, 2011171:1406-1414 < br > 16. Tan Jing, Liu Zhendong, Lu Yangcheng, Xu Jianhong, Luo Guangsheng*. Process intensification of H2O2 extraction using gas-liquid-liquid microdispersion system. Separation and Purification Technology, 2011,80:225-234
17. Tan Jing, Shao Huawei, Xu Jianhong, Du Le, Luo Guangsheng*. Mixture absorption system of monoethanolamine triethylene glycol for CO2 capture. Industrial & Engineering Chemistry Research, 2011,50:3966-3976
18. Tan Jing, Xu Jianhong, Wang Kai, Luo Guangsheng*. Rapid measurement of gas solubility in liquids using a membrane dispersion microcontactor. Industrial & Engineering Chemistry Research, 2010,49:10040-10045
19. Tan Jing, Li Shaowei, Wang Kai, Luo Guangsheng*. Gas - liquid flow in Tjunction microfluidic devices with a new perpendicular rupturing flow route. Luo guangsheng *. Gas - liquid flow in t junction microfluidic devices with a new perpendicular rupturing flow route. Chemical Engineering Journal, 2009,146:428-433
20. Tan Jing, Xu Jianhong, Li Shaowei, Luo Guangsheng*. Drop dispenser in a cross-junction microfluidic device: Scaling and mechanism of break-up. Chemical Engineering Journal, 2008,136:306-311
Undertaking project
1. Research on the Process and Mechanism of Enhancing gas/liquid/Solid Catalytic Reaction in TBR by Microchemical Technology, Supported by the National Natural Science Foundation of China (21206081), 2019.01-2022.12, 650,000 yuan, led by
2. Supported by Beijing Natural Science Foundation (2182063), 2018.01-2020.12, 200,000 yuan, Host
3. Basic research of microbubble strengthening extreme comparison between liquid and liquid mass transfer process, supported by National Natural Science Foundation of China (21206081), 2013.01-2015.12, 250,000 yuan, Host 4. Study on dispersion and mass transfer Properties of gas/Highly viscous fluid systems in Microchannels, Supported by China Postdoctoral Science Foundation (2012M510032), 2012.05-2014.06, 80,000 yuan, Host
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
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Collaborations and top research areas from the last five years
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Catalytic hydrogenation of acetophenone via an intensified trickle bed reactor for efficient hydrogen storage
Tan, J., Zhou, Y., Li, Z. & Ji, Y., 11 Oct 2024, In: International Journal of Hydrogen Energy. 86, p. 800-807 8 p.Research output: Contribution to journal › Article › peer-review
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Separation of cobalt/lithium in spent NCM-based lithium ion battery leaching solution via reactive extraction-reextraction with microdispersed (G1/L1+G2)/L2 emulsion
Tan, J., Liu, K. X., Deng, W. S. & Su, Y. F., 1 Jan 2024, In: Journal of Power Sources. 589, 233757.Research output: Contribution to journal › Article › peer-review
2 Citations (Scopus) -
Process intensification in reactive extraction by phase inversion in gas/liquid/liquid microdispersion system
Tan, J., Sun, P. C., Nie, M. M., Shang, L. W., Deng, W. S. & Su, Y. F., 15 Mar 2023, In: Chemical Engineering Science. 268, 118295.Research output: Contribution to journal › Article › peer-review
5 Citations (Scopus) -
Process intensification in the extraction of Mn from spent Li-ion battery simulated leachate via (G1/W+G2)/O microdispersion system with phase inversion
Tan, J., Yang, C., Deng, W., Chen, L. & Su, Y., 15 Oct 2023, In: Separation and Purification Technology. 323, 124408.Research output: Contribution to journal › Article › peer-review
1 Citation (Scopus) -
Process intensification in gas/liquid/solid reaction in trickle bed reactors: A review
Tan, J., Ji, Y. N., Deng, W. S. & Su, Y. F., 15 Aug 2021, In: Petroleum Science. 18, 4, p. 1203-1218 16 p.Research output: Contribution to journal › Review article › peer-review
Open Access17 Citations (Scopus)