本研究组氛围好，科研经费充裕，所涉及的科研项目创新性高

欢迎积极向上、善于听从导师指导的研究生报考！

1.  2023年度太原市关键核心技术攻关“揭榜挂帅”“SiC用石墨制品高温纯化装备研发及产业化应用”项目，2023-2026，在研，主持。

2.  国家自然科学基金青年项目，2022/01-2024/12，在研，主持。

3.  多个横向项目，2020-2027，在研，主持。

4.  中央高校基本科研业务费，2020，已完成，主持。

5.  南开大学人才引进项目，2019，主持

6.  宁波市2018年“3315计划”B类创新团队项目，2019/01-2022/12，在研，主持。

7.  福建省自然科学基金青年项目，2019/04-2021/04，已完成，主持。

8.  美国国家环保署（EPA）项目，2013/01-2015/12，主要负责人。

9.  美国默沙东公司（Merck）项目，2011/01-2014/12，主要负责人。

已发表学术论文40余篇，其中主要论文如下：

1.       MinY，Wang B*, RW. Field. Design,optimization and evaluation of wavy channels in a flat-sheet membranebioreactor, Chemical Engineering Research and Design，2025. （IF=3.7,三区）

2.       MinY, Wang B*, RW. Field. Water treatment with free-bubbling corrugated sheetMBR. Journal of Water Process Engineering. 2024, 59, 105097.（IF=7.34,二区）

3.       FangY, Min Y, Field R, Wang B*. MBR water treatment: a CFD and experimentalinvestigation with a focus upon shear stress and the role ofc-di-GMP. Journal of Membrane Science. 2024.（IF=10.53,一区）

4.       WangM, Wang B*, Robert Field. Assessment of different designs of Arch-typefilament spacers for spiral-wound membrane filtration. Desalination.2024 （IF=11.211,一区）

5.       吴忠举，闵宇玉，王冰*，薛巍。高温纯化装备有效空间高度对流场及温度场的影响研究。南开大学学报。2025。

6.       YinJ, Zhang X, Wang B, Zhu X*. A copper-loaded self-assembled nanoparticlefor disturbing the tumor redox balance and triple anti-tumortherapy. Journal of Materials Chemistry B. 2024, 16(2):240.（IF=6.1,二区）

7.       白杨丰，闵宇玉，王冰*，薛巍。高温纯化装备加热器构型研究。碳素。2024。

8.       LiuC, Wang B, Lu Q*. C2D MOF based-heterostructure with hierarchicalarchitecture as antibacterial wound dressing. International Journal ofPharmaceutics. 2024, 651, 123745.（IF=5.3,二区）

9.       白杨丰，闵宇玉，王冰*，薛巍。高温纯化装备内气体流动与传热研究。碳素。2024。

10.    YaoW, Wang B*, Zhang K. Comparative Study of Membrane Fouling with AerationShear Stress in Filtration of DifferentSubstances. Membranes, 2023, 13 (11), 867.

11.    FangY; RW. Field; Wang B*. Influence of shear stress on the intracellularbis-(3′-5′)-cyclic dimeric guanosine monophosphate (c-di-GMP) level within anMBR biofilm, Chemical Engineering Science, 2023, 280, 118989.（IF=4.7,二区）

12.    YuJ, Chen D, Wang B*. Performance Optimization of Spiral-wound MembraneModules Feed Spacer Based on CFD. Desalination. 2022, 540, 115980.（IF=11.211,一区）

13.    WangB, Zhang K*, Field R. Innovation and Optimization of Aeration in FreeBubbling Flat Sheet MBRs. Journal of Membrane Science. 2022,635:119522.（IF=10.53,一区）

14.    WangB*, Zhang Y, Fang Y. Aeration Pipe Design for Free Bubbling HydrodynamicOptimization of Flat Sheet MBRs. Journal of Membrane Science. 2022, 646,120222.（IF=10.53,一区）

15.    YuanFang, Bing Wang*, Robert Field. Wastewater treatment in large-scale novelcorrugated-sheet MBR. Journal of Water Process Engineering. 2022, 50,103215.（IF=7.34,二区）

16.    ZhangG, Wang B*, Razaqpur G. Thermal Performance of A Novel Building WallIncorporating A Dynamic Phase Change Material Layer for Efficient Utilizationof Passive Solar Energy. Construction and Building Materials. 2022, 317,126017. （IF=6.141,二区）

17.    XiaoN1, Wang B1, Huang JH*. Hydrodynamic optimization for design and operatingparameters of an innovative continuous-flow miniaturized MFCbiosensor, Chemical Engineering Science. 2021, 235, 116505. （IF= 3.871,二区）

18.    GaoX#, Wang B#, Chen D*, et al. Fluid Dynamic and Heat TransferSimulations of Solid Hollow Fiber Cooling Crystallizer for Continuous Synthesisof Drug Nanoparticles. Crystal Growth & Design. 2020, 20, 6,4020–4029. （IF=4.089,一区）

19.    WangB, Zhang K*, Field R. Novel Economical Three-stage Slug Bubbling Processin a Large-scale Flat-sheet MBR of Double Deck Configuration. AIChEJournal. 2020. https://doi.org/10.1002/aic.16501.（IF=3.519,二区）

20.    LiuQ1, Zhu X1, Wang B, Zhou X, Liu C, Gao X, Sirkar K K⁎, Chen D⁎, Continuoussynthesis of drug nanocrystals by solid hollow fiber cooling crystallization, InternationalJournal of Pharmaceutics, 2020, 576, 118978. （IF= 4.845,二区）

21.    ZhouX1, Wang B1, Chen D*, et al. An Extended Duration Operation for PorousHollow Fiber-Based Antisolvent Crystallization, Industrial &Engineering Chemistry Research. 2019, 58, 12431−12437. （IF= 3.573,二区）

22.    WangB, Zhang K*, Field R. Slug Bubbling in Flat Sheet MBRs: HydrodynamicOptimization of Membrane Design Variables through Computational andExperimental Studies. Journal of Membrane Science. 2018,548:165-175. （IF=10.53,一区）

23.    WangB, Zhang K*, Field R. Optimization of Aeration Variables in a CommercialLarge-scale Flat-sheet MBR Operated with Slug Bubbling. Journal ofMembrane Science. 2018,567: 181-190.（IF=10.53,一区）

24.    ChenD#, Wang B#, Sirkar K*. Hydrodynamic Modeling of Porous Hollow FiberAnti-solvent Crystallizer for Continuous Production of DrugCrystals. Journal of Membrane Science. 2018,556: 185-195.（IF=10.53,一区）

25.    WangB, Zhang K*, Field R. Novel Aeration of a Large-Scale Flat Sheet MBR: aCFD and Experimental Investigation. AIChE Journal. 2018, 64: 2721-2736.（IF=3.519,二区）

26.    WangB, Bredael G, Armenante P*. Computational Hydrodynamic Comparison of aMini Vessel and a USP 2 Dissolution Testing System to Predict the DynamicOperating Conditions for Similarity of DissolutionPerformance. International Journal of Pharmaceutics. 2018, 539: 112-130.（IF=4.845,二区）

27.    ZhouX, Zhu X, Wang B, Li J, Liu Q, Gao X, Sirka K K*, Chen D*, Continuousproduction of drug nanocrystals by porous hollow fiber-based anti-solventcrystallization, Journal of Membrane Science, 2018,564,682-690. （IF=10.53,一区）

28.    WangB, Armenante P*. Experimental and Computational Determination of theHydrodynamics of Mini Vessel Dissolution Testing Systems. InternationalJournal of Pharmaceutics. 2016, 510 (1):336-349. （IF=4.845,二区）

29.    WangB, G. Bredael, Armenante P*. Effect of a Fiber-Optic Probe on theDissolution of Salicylic Acid Tablets in USP Acid Tablets in USP Apparatus2. Dissolution Technologies. 2013, 20 (2): 21-30.（IF=0.915,四区）

30.    王冰.板式萃取塔降液管结构变化对传质影响的CFD研究. 全国化学工程与生物化工年会. 第六届全国化学工程与生物化工年会论文集. 2010.

31.    王冰*. 新工科背景下全英文课程教学的探索与研究. 高教学刊. 2021, 12.（中文核心期刊）

32.    ZhaoL, Wang B, Armenante P, Conmy R, Boufadel C. Characterization of TurbulentProperties in the EPA Baffled Flask for Dispersion EffectivenessTesting. Journal of Environmental Engineering. 2016, 142(1). (IF=1.264,四区)

33.    DuanC, Wang B, Liu C, Yuan X. Flow Pattern Optimization of a Sieve PlateExtraction Column Using Computational Fluid Dynamics Simulations and ParticleImage Velocimetry Measurements. Industrial & Engineering ChemistryResearch. 2013, 52 (10): 3858-3867. （IF=3.573,二区）

专利：

1. 实用新型:“一种3D进水格网”ZL2024 2 0104264.0

2. 实用新型:“一种3D复合波纹膜”ZL2024 2 0104337.6

3. 实用新型:“一种拱式进水格网”ZL 2023 2 1237015.0

4. 实用新型:“一种降低压降抗污染型卷式膜进水格网”20220718441.5.

5. 实用新型:“一种卷式反渗透膜元件”20220743912.8.

6. 发明:“一种应用于平板膜生物反应器的活塞流曝气装置”201711391453.1

7. 发明:“用实壁纤维管束结晶器制丙烯酸树脂包覆纳米药物的方法”2017100951528

8. 发明:“聚合物包覆纳米药物制备装置与制备方法”2017100951617

9. 实用新型:“丙烯酸树脂包覆纳米药物的制备装置”2017201595920

10. 实用新型:“一种聚合物包覆纳米药物制备装置”2017201586739

11. 实用新型:“一种双层玻璃窗户和相变材料墙组合的围护结构”202120514484.7

12. 实用新型:“一种新型动态相变材料墙结构”ZL202023316129.3

13. 实用新型:“一种新型流线开孔式抗污染型进水隔网”

14. 实用新型:“一种新型流线式低压降进水隔网”

实用新型:“一种格构式再生混凝土节能墙体”2021102370910