俞和胜,教师、博导,2013年6月赢得加拿大滑铁卢大学博士学位。2014年获加拿大外洋博士后最高荣誉——加拿大国度当然科学基金委员会工业博士后基金(NSERC IRDF)。2017年8月以破格教师身份算作引进东谈主才入职中国矿业大学化工学院。2020年受聘江苏特聘教师,并受邀任江苏省侨联特聘大家、国度当然科学基金、江西省科技厅科技东谈主才格式等评审大家。
主要从事东谈主工智能、动力资源清洁讹诈、空气浑浊适度,及废水处治方面的推敲。主握“江苏特聘教师”格式、国度当然科学基金面上格式、江苏省“六大东谈主才岑岭”高线索东谈主才格式、江苏省“双创博士”格式、徐州市重心研发格式、校企互助格式等革命创业及东谈主才格式。在Environmental Science & Technology、Environment International、AIChE Journal、Carbon、Chemical Engineering Journal、Small、Journal of Materials Chemistry A 等期刊上以第一作家或通信作家发表SCI论文48篇;影响因子10+以上的论文18篇。发表于《清华大学学报(当然科学版)》对于“双碳策略”的文章被《科技日报》推介。发表于AIChE Journal期刊上的对于氨基CO2捕集的论文被遴择为该刊物2016年度8篇“Editor’s Choice”文章之一。获The 16th International Green Energy Conference (IGEC-XVI) and The 5th International Conference on Energy and AI (ICEAI-V) and Symposium on Chemical Engineering and AI 最好论文奖及最好理论陈说奖。授权发明专利7件,软件文章权5件。担任盛名外洋会议扩充主席1次;分会主席3次,作念外洋会议特邀陈说3次。获江苏省高级学校科学时候推敲恶果奖三等奖(R1)。
教悔推敲生及本科生获获寰球高级学校矿物加工执行作品大赛一等奖(2次)、国度奖学金 (3次)、江苏省省级“三勤学生”、国度级大创(3项;1项结题优秀,入选国创年会)、“挑战杯”寰球大学生课外学术科技作品竞赛江苏省决赛一等奖、第十四届“挑战杯”中国大学生创业洽商竞赛江苏省遴荐赛终审决赛银奖、江苏大学生革命大赛(2024)高教主赛谈二等奖(2项)、寰球大学生节能减排社会执行与科技作品大赛三等奖、江苏省第六届大学生水创意筹算大赛三等奖、挑战杯创业洽商大赛中国矿业大学校决赛金奖、国度励志奖学金(2次)、校级优秀学生名称、小米一等奖学金、首届寰球煤炭行业矿山AI模子大赛三等奖(入选决赛15支队伍中惟一的矿加团队)。
课题组每年招收矿物加工、东谈主工智能、矿物材料学术博士/硕士,以及资源与环境专科博士/硕士!
宥恕矿物加工(包括东谈主工智能)、化学、化工、环境科学、环境工程等专科有志于动力资源高效清洁讹诈、新材料缔造及智能化推敲的学生报考!
论文列表 (*通信作家; †共兼并作):
发表论文第一/通信作家50篇; 影响因子大于10的以为18篇。
环境类代表作:Environmental Science & Technology, Environment International, Journal of Cleaner Production, Atmospheric Environment
化工类代表作:AIChE Journal (Editor’s Choice), Chemical Engineering Science, Industrial & Engineering Chemistry Research, Chemical Engineering Journal
材料类代表作:Small, Journal of Materials Chemistry A, Carbon, Applied Surface Science
动力类代表作:Applied Energy, Energy, Energy Conversion and Management, Energy and AI
56 Yang, X.L., Zhang, K.F., Wang, T., Xie, G.Y., Thé, J., Tan, Z.C., Yu, H.S.* (2025) Multi-scale multi-task neural network combined with transfer learning for accurate determination of the ash content of industrial coal flotation concentrate. Minerals Engineering, 220, 109093.
55 Yang, X.L., Zhang, K.F., Thé, J., Tan, Z.C., Yu, H.S.* (2025) Multi-scale neural network for accurate determination of the ash content of coal flotation concentrate using froth images. Expert Systems with Applications, 262, 125614.
54 Huang, Y.Q., Chen, Q., Li, Y.F., Li, X.G., Yu, H.S.*, Tan, Z.C.* (2025) Multi-scale modeling of fog harvesting using thin-fiber grids – Towards new design rubrics. Separation and Purification Technology, 354, 129137.
53 Nie, Q.Q.†, Wang, M.D.†, Xie, G.Y., Tan, Z.C.*, Yu, H.S.* (2024) CFD modeling of H2S removal from liquid sulfur in a pilot-scale gas-liquid contactor. Process Safety and Environmental Protection, 189, 1246-1257.
52 Zhang, K.F., Wang, T., Yang, X.L., Xu, L., Thé, J., Tan, Z.C., Yu, H.S.* (2024) STATNet: One-stage coal-gangue detector based on deep learning algorithm for real industrial application. Energy and AI, 17, 100388.
51 Wang, T., Yang, X.L., Zhang, K.F., Cao, H., Tan, Z.C.*, Yu, H.S.* (2024) COFNet: A Deep Learning Model to Predict the Specific Surface Area of Covalent-Organic Frameworks Using Structural Images and Statistic Features. Chemical Physics Letters, 847好色客, 141383.
50 Nie, Q.Q.†, Jia, L.H.†, Cui, Y.P., Luan, J.F., Liu, J.Y., Tan, Z.C.*, Yu, H.S.* (2024) Enhancing Visible-Light-Driven Photocatalytic Degradation of Nitric Oxide with Lignite-Derived Graphene Quantum Dots/BiOBr Heterojunctions. Separation and Purification Technology, 343, 127118.
49 Luan, J.F., Liu, J.Y., Huang, X.X., Tan, Z.C.*, Yu, H.S.* (2024) Experimental and computational study on removal of nitric oxide using NH2-MIL-125: Revisiting removal mechanism. Molecular Catalysis, 554, 113856.
48 Huang, Y.Q., Li, Y.F., Zhang, Y., Yu, H.S.* , Tan, Z.C.* (2024) Near-field Electrospinning for 2D and 3D Structuring: Fundamentals, Methods, and Applications. Materials Today Advances, 21, 100461. (影响因子:10.0)
47 Nie, Q.Q.†, Liu, L.F.†, Liu, J.Y., Shen, M.W., Huang, X.X., Tan, Z.C.*, Yu, H.S.* (2024) Photodegradation of xanthate using Bi2Fe4O9/ZnIn2S4 heterojunction: Experimental and DFT studies. Industrial & Engineering Chemistry Research, 2024, 63, 1, 184–199 (化工三大期刊之一).
46 Nie, Q.Q. †, Jia, L.H. †, Luan, J.F., Cui, Y.P., Liu, J.Y., Tan, Z.C.*, Yu, H.S.* (2024) Graphene quantum dots/BiOCl visible-light active photocatalyst for degradation of NO. Chemical Engineering Science, 285, 119614. (化工三大期刊之一)
45 Zhang, G.Q., Liu, J.Y., Tan, Z.C.*, Yu, H.S.* (2024) Multivariate modeling of intrinsic kinetics for gas-solid heterogeneous photocatalytic reaction: A general method for different pollutant-photocatalyst systems. Chemical Engineering Journal, 479, 147651(, 影响因子:15.1)
44 Zhang, K.F., Yang, X.L., Xu, L., Thé, J., Tan, Z.C., Yu, H.S.* (2024) Enhancing coal-gangue object detection using GAN-based data augmentation strategy with dual attention mechanism. Energy, 287, 129654. (影响因子:9;中科院一区)
43 Liu, J.Y., Huang, X.X., Hu, L.Z., Liu, P.L., Jia, L.H., Sasaki, K., Tan, Z.C.*, Yu, H.S.* (2023) Nitric oxide removal by synergistic photooxidation and adsorption using Pd1/g-C3N4-UiO-66-NH2 P-A heterojunction. Chemical Engineering Journal, 476, 146768. (影响因子:15.1)
42 Yu, H.S., Gao, E.Q., Tan, Z.C.* (2023) Automated nanofiber sizing by multi-image processing and deep learning with revised UNet model. The Canadian Journal of Chemical Engineering, (Accept)
41 Hu, L.Z., Gao, N.S., Huang, B., Yu, H.S.*, Chen, Q.Q.* (2023) Modification of VPO4 with carbon and 3DG for high performance lithium-ion battery anode. The Canadian Journal of Chemical Engineering, (Accept)
40 Zhang, Y. †, Li, Y.F. †, Zuo, Z.G., Musselman, K., Duan, X.M., Yu, H.S.*, Xu, Z.H., Tan, Z.C.* (2023) A Facile and Strategic Approach to Superhydrophobic Fibrous Structure with Biaxially Aligned Electrospun Porous Fibers. Advanced Materials Interfaces, 2300507 (Accept, DOI: 10.1002/admi.202300507)
39 Hu, L.Z.†, Liu, J.Y.†, Huang, X.X., Nie, Q.Q., Liu, P.L., Tan, Z.C.*, Yu, H.S.* (2023) Carbon-bridged Atomically Dispersed Platinum on MOF-derived ZnO/C for Selective Photocatalytic Oxidation of NO into Nitrates and Nitrites. Carbon, 214, 118299. (好意思国碳学会官方期刊, 影响因子:10.9)
38 Zhang, G.Q., Liu, J.Y., Jia, L.H., Wang, H.M., Tan, Z.C.*, Yu, H.S.* (2023) A novel numerical method coupling CFD with PSO vs. mathematical approach in the modeling of photocatalytic degradation of NO. Reaction Chemistry & Engineering, 8, 2592-2605.
37 Wang, M.D., Nie, Q.Q., Xie, G.Y., Tan, Z.C.*, Yu, H.S.* (2023) Mathematical Modelling and CFD Simulation for Oxygen Removal in a Multi-function Gas-Liquid Contactor. Processes, 11, 1780.
36 俞和胜,祁海鹰,谭忠超(2023)“双碳”布景下传统化石动力脱碳制氢升值化讹诈时候. 清华大学学报(当然科学版), 63:1226-1235. 【该文被《科技日报》推介:_www.kjrb.com/kjrb/html/2024-04/08/content_569733.htm】
35 Jin, H., Li, S.H.*, Yu, H.S., Yuan, L., Zhou, F.B.*, Tan, Z.C. (2023) Filtration of dust particles in underground coal mines. Powder Technology, 423, 118506.
34 Zhang, K.F., Yang, X.L., Wang, T., Thé, J., Tan, Z.C., Yu, H.S.*(2023) Multi-step carbon price forecasting using a hybrid model based on multivariate decomposition strategy and deep learning algorithms. Journal of Cleaner Production, 405, 136959(影响因子:11.072)
巨乳风俗33 Shen, M.W., Zhang, G.Q., Liu, J.Y., Liu, Y.H., Zhai, J.Y., Zhang, H.C., Yu, H.S.* (2023) Visible-light driven photodegradation of xanthate in a continuous fixed-bed photoreactor: Experimental Study and Modeling. Chemical Engineering Journal, 461, 141833. (影响因子:16.744,本科生一作)
32 Liu, J.Y., Huang, X.X., Jia, L.H., Liu, L.F., Nie, Q.Q., Tan, Z.C.*, Yu, H.S.* (2023) Microwave-assisted Rapid Substitution of Ti for Zr to Produce Bimetallic (Zr/Ti)UiO-66-NH2 with Congenetic “Shell-Core” Structure for Enhancing Photocatalytic Removal of Nitric Oxide. Small, 2207198. (Accept, 10.1002/smll.202207198, 影响因子:15.153)
31 Li, Y.F., Yu, H.S., Jiang, X.H., Deng, G.R., Wen, J. Z., Tan, Z.C.* (2023) Techno-economic analysis for hydrogen-burning power plant with onsite hydrogen production unit based on methane catalytic decomposition. Energy Conversion and Management, 277, 116674. (影响因子:11.533)
30. Wang, M.D., Ni, C., Bu, X.X., Peng, Y.L., Xie, G.Y., Tan, Z.C.*, Yu, H.S.* (2023) CFD-PBM Simulation of the Colum Flotation Unit of FCMC: Importance of Gas-Liquid Interphase Forces Models. The Canadian Journal of Chemical Engineering, (Accept, https://doi.org/10.1002/cjce.24828)
29. Hu, L.Z., Huang, X.X., Nie, Q.Q., Wang, T., Liu, P.L., Liu, J.Y., Tan, Z.C.*, Yu, H.S.* (2023) Single Pd Atoms Supported on Ultra-thin Bismuth Tungstate Nanosheets with Oxygen Vacancy as an Efficient Photocatalyst. Journal of Materials Chemistry A, 11, 1723-1733 (HOT Paper, 影响因子:14.511)
28. Zhang, K.F., Yang, X.L., Cao, H., Thé, J., Tan, Z.C., Yu, H.S.* (2023) Multi-step forecast of PM2.5 and PM10 concentrations using convolutional neural network integrated with spatial-temporal attention and residual learning. Environment International, 171, 107691 (影响因子:13.352)
27. Zhang, Y., Huang, Y.Q., Li, Y.F., Yu, H.S.*, Tan, Z.C.* (2022) Free energy barrier in wetting parallel-structured surfaces. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 655, 130214.
26. Hu, L.Z., Wang, T., Nie, Q.Q., Liu, J.Y., Cui, Y.P., Zhang, K.F., Tan, Z.C., Yu, H.S.* (2022) Single Pd atoms anchored graphitic carbon nitride for highly selective and stable photocatalysis of nitric oxide. Carbon, 200, 187-198. (好意思国碳学会官方期刊, 影响因子:11.307).
25. Yang, X.L., Zhang, K.F., Ni, C., Cao, H., Thé, J., Xie, G.Y., Tan, Z.C., Yu, H.S.* (2022) Ash determination of coal flotation concentrate by analyzing froth image using a novel hybrid model based on deep learning algorithms and attention mechanism. Energy, 260, 125027. (中科院一区)
24. Liu, J.Y., Huang, X.X. Liu, L.F., Nie, Q.Q., Tan, Z.C., Yu, H.S.* (2022) New insights into the removal of nitric oxide using UiO-66-NH2: Synergistic photooxidation and subsequent adsorption. Journal of Environmental Chemical Engineering, 10, 108294.
23. Li, Y.F., Zhang, Y., Zhou, N., Yu, H.S.*, Tan, Z.C.* (2022), Electrospun-nanofibrous Redox-active Separator for Enhancing the Capacity of Lithium-ion Batteries. Chemical Engineering Science, 260, 117873. (化工三大期刊之一)
22. Li, Y.F., Yu, H.S., Zhang, Y., Zhou, N., Tan, Z.C.* (2022), Kinetics and Characterization of Preparing Conductive Nanofibrous Membrane by In-situ Polymerization of Polypyrrole on Electrospun Nanofibers. Chemical Engineering Journal 433, 133531. (影响因子:16.744)
21. Cui, Y.P., Huang, X.X., Wang, T., Jia, L.H., Nie, Q.Q., Tan, Z.C., Yu, H.S.* (2022), Graphene Quantum Dots / Carbon Nitride Heterojunction with Enhanced Visible-Light Driven Photocatalysis of Nitric Oxide: An Experimental and DFT Study. Carbon, 191:502-514. (好意思国碳学会官方期刊, 影响因子:11.307).
20. Zhang, K.F., Cao, H., Thé, J., Yu, H.S.* (2022), A hybrid model for multi-step coal price forecasting using decomposition technique and deep learning algorithms. Applied Energy 306, 118011. (影响因子:11.446)
19. Ni, C., Zhang, Q.S., Jin, M.G., Xie, G.Y., Peng, Y.L., Yu, H.S.*, Bu, X.N.* (2022), Effect of high-speed shear flocculation on the flotation kinetics of ultrafine microcrystalline graphite. Powder Technology 396:345-353.
18. Wang, T., Zhang, K.F., Thé, J., Yu, H.S.* (2022), Accurate prediction of band gap of materials using stacking machine learning model. Computational Materials Science. 201, 110899.
17. Cui, Y.P., Wang, T., Liu, J.Y., Hu, L.Z., Nie, Q.Q., Tan, Z.C., Yu, H.S.* (2021), Enhanced Solar Photocatalytic Degradation of Nitric Oxide using Graphene Quantum Dots/Bismuth Tungstate Composite Catalysts. Chemical Engineering Journal 420, 129595. (影响因子:16.744)
16. Liu, J.Y., Wang, T., Nie, Q.Q., Hu, L.Z., Cui, Y.P., Tan, Z.C., Yu, H.S.* (2021), One-step synthesis of metallic Bi deposited Bi2WO6 nanoclusters for enhanced photocatalytic performance: An experimental and DFT study. Applied Surface Science. 559, 149970. (中科院一区)
15. Zhang, K.F., Thé, J., Xie, G.Y., Yu, H.S.* (2020), Multi-step ahead forecasting of regional air quality using spatial-temporal deep neural networks: A case study of Huaihai Economic Zone. Journal of Cleaner Production. 277, 123231. (影响因子:11.072)
14. Liu, J.Y., Nie, Q.Q., Tan, Z.C., Luo, Y.L., Wang, S., Yu, H.S.* (2020), Insights into the impurities of Bi2WO6 synthesized using the hydrothermal method. RSC Advances 10 (67), 40597-40607.
13. Hu, P., Liang, L., Peng, Y., Yu, H.S.*, Xie, G. Y.* (2020), Recovery of microcrystalline graphite from quartz using magnetic seeding, Minerals 10 (1), 24.
12. 刘嘉友,聂倩倩,俞和胜*,李亚萍 (2020),卷心菜状Bi2WO6光催化降解黄药废水. 金属矿山,524: 122-128.
11. Ni, C., Bu, X.N., Xia, W., Peng, Y., Yu, H.S.*, Xie, G.Y.* (2018), Observing slime-coating of fine minerals on the lump coal surface using particle vision and measurement. Powder technology. 339, 434-439.
10. Thé, J., Yu, H.S.* (2017), A critical review on the simulations of wind turbine aerodynamics focusing on hybrid RANS-LES methods. Energy, 138: 257-289. (中科院一区)
9. Yu, H.S., Thé, J. (2017), Simulation of gaseous pollutant dispersion around an isolated building using the k–ω SST (shear stress transport) turbulence model. Journal of the Air & Waste Management Association. 67: 517-536.
8. Yu, H.S., Thé, J. (2016), Validation and Optimization of SST k-ω Turbulence Model for Pollutant Dispersion within A Building Array. Atmospheric Environment, 145: 225-238.
7. Yu, H.S., Thé, J., Tan, Z.C., Feng, X.S. (2016), Modeling SO2 Absorption into Water Accompanied with Reversible Reaction in a Hollow Fiber Membrane Contactor.Chemical Engineering Science,156: 136–146. (化工三大期刊之一)
6. Yu, H.S., Tan, Z.C., Thé, J., Feng, X.S., Croiset, E., Anderson, W.A. (2016), Kinetics of the Absorption of Carbon Dioxide into Aqueous Ammonia Solutions. AIChE Journal, 62, 3673–3684. (化工三大期刊之首,Editor’s Choice Paper, 1 out of 8 “Editor’s Choice” Papers in 2016).
5. Wu, D.H., Tan, Z.C., Yu, H.S., Li, Q.H., Thé, J., Feng, X.S. (2016) Use of nanofiltration to reject cobalt (II) from ammoniacal solutions involved in absorption of SO2/NOx, Chemical Engineering Science145, 97-107. (化工三大期刊之一)
4. Yu, H.S. and Tan. Z.C. (2014) On the Kinetics of the Absorption of Nitric Oxide into Ammoniacal Cobalt(II) Solutions. Environmental Science & Technology 48, 2453–2463. (影响因子:11.357)
3. Yu, H.S. and Tan. Z.C. (2013) Determination of Equilibrium Constants for Reactions between Nitric Oxide and Ammoniacal Cobalt(II) Solutions at Temperatures from 298.15 to 309.15 K and pH Values between 9.06 and 9.37 under Atmospheric Pressure in a Bubble Column. Industrial & Engineering Chemistry Research52, 3663-3673. (化工三大期刊之一)
2. Yu, H.S., Zhu, Q.Y. and Tan, Z.C. (2012) Absorption of nitric oxide from simulated flue gas using different absorbents at room temperature and atmospheric pressure. Applied Energy 93, 53-58. (影响因子:11.446)
1. Yu, H.S. and Tan. Z.C. (2012) New Correlations of Volumetric Liquid-Phase Mass Transfer Coefficients in Gas-Inducing Agitated Tank Reactors. International Journal of Chemical Reactor Engineering 10, 1-20.