中国·奇异果体育入口(MGTY)官方网站·Maigoo百科

姓名:

徐建新

职称:

教授

学位:

博士

电话:

电子邮箱:

xujianxina@163.com

研究方向:

数据挖掘；质量统计；能源管理

学习工作经历

2002.09–2006.07，本科，山东理工大学，信息与计算科学；

2007.09–2010.03，硕士研究生，昆明理工大学，计算数学；

2008.09–2012.03，博士研究生，昆明理工大学，冶金工程控制；

2012.04–2015.10，昆明理工大学，质量发展研究院，讲师；

2015.11–2017.09，昆明理工大学，质量发展研究院，副教授（破格）；

2017.07–2018.06，英国曼彻斯特大学，数学系，访问学者（合作导师：潘建新）；

2017.10–2019.06，昆明理工大学，质量发展研究院，教授（破格）；

2019.06–至今，    昆明理工大学，冶金与能源工程学院，教授；

研究项目

1.国家自然科学基金-地区项目，低温余热驱动直接接触式-间壁式耦合沸腾换热过程流场特性及强化传热机理，2022-2025，主持

2.企业委托，官渡区市场监管局质量分析报告，2021-04-2021-10，主持

3.企业委托，基于数据挖掘的知识产权管理信息系统技术开发，2021-2023，主持

4.企业委托，PS转炉造渣/造铜终点智能化判断系统研发与应用，2020-2022，主持

5.企业委托，玉溪矿业铜冶炼智能化发展路径咨询研究，2020-2021，主持

6.企业委托，昆明市官渡区“十四五”市场监管规划编制，2019-2021，主持

7.企业委托，昆明市官渡区“十四五”质量强区规划编制，2019-2021，主持

8.企业委托，基于数据挖掘技术的食品安全信息评价系统研发，2018-2020，主持

9.云南省中青年学术与技术带头人后备人才项目，2019-2023，主持

10.云南省“兴滇英才支持计划”项目，2019-2023，主持

11.国家自然科学基金-地区项目，低温压驱动下直接接触沸腾换热气泡群演变过程的场均匀性精确表征及其强化传热机理，2017-2020，主持

12.自主课题，低温余热驱动下直接接触沸腾换热过程气泡群可视化测量及其分布规律，2016-2018，主持 

13.国家自然科学基金-青年项目，有机工质直接接触式沸腾传热过程中汽泡群混沌行为与强化传热协同机制研究，2015-2017，主持，结题评价：优  

14.云南省科技厅，面上项目，基于混沌理论的低温驱动直接接触换热过程汽泡团聚行为与换热耦合机理研究，2013-2016，主持。

代表性成果

论文、专利、专著、获奖等等。

获奖：

1. 徐建新(6/6)，基于多相混沌强化混合与铁价态调控的铜熔渣贫化技术（发明），中国有色金属工业科学技术奖，一等奖, 2020.

2.徐建新（12/15），冶金炉窑强化供热关键技术及应用，云南省科技进步特等奖，2019.

3.徐建新（4/6），加热炉均匀精准加热关键技术及应用，中国有色金属工业科学技术奖，一等奖，2017.

4.徐建新（3/3），有色金属熔池熔炼过程强化与搅拌效果评价关键技术及应用（发明），中国有色金属工业科学技术奖，一等奖，2016.

5.徐建新（1/1），冶金优秀青年支撑计划，中国有色金属学会，二等奖，2021.

6.徐建新（1/1），多相体系搅拌混合效果评价方法及其应用，云南省优秀博士论文，2014.

7.徐建新（1/1），多相体系搅拌混合效果评价技术，中国有色金属学会图书奖，二等奖，2014.

论文：

1. Sun Hui，Li Zexi，Wang Shibo，Xu Jianxin*，Wang Hua.Evolution and quantification of distribution uniformity of bubbles using computational geometry,CHEMICAL ENGINEERING SCIENCE,247:116910.

2. Li, Zexi#，Li, Biao#，Wang, Hua，Yang, Puyi，Xu, Jianxin*.Effect of gas-liquid two-phase macro-mixing on the uniformity of temperature distribution in a top-blown stirred tank using image analysis.INTERNATIONAL JOURNAL OF THERMAL SCIENCES,168: 107083.

3. HechangCai^#; YulingZhai^#; YaoChen^*; FanhanLiu^*; HuaWang; JianxinXu^*. Numerical study on uniformity of temperature difference field in a spiral tube heat exchanger. Applied Thermal Engineering. 2021.

4. Cai, Hechang^#; Liu, Fanhan^#; Huang, Junwei^#; Wu, Manman; Wang, Hua; Xu, Jianxin^*. Effect of size distribution of bubble groups on average volumetric heat transfer coefficient in the process of direct contact boiling heat transfer[J]. International Communications in Heat and Mass Transfer, 2020, 104709.

5. Wang, Qin; Huang, Junwei; Pan, Jianxin; Wang, Hua; Xu, Jianxin^*. A novel method for measuring spatial uniformity of irregular boiling bubbles in a direct contact heat exchanger[J]. International Journal of Energy Research. 2020,44:8823–8840.

6. Xu, Jianxin^#; Liu, Fanhan; Xiao, Qingtai^#; Huang, Junwei^#; Fei, Yu*; Yang, Yunfei*; Zhai, Yuling*; Pan,Jianxin*;Wang,Hua*. Synergistic effect of flow pattern evolution of dispersed and continuous phases in direct-contact heat transfer process[J]. International Journal of Refrigeration, 2020, 112:201-214.

7. Xiao, Qingtai; Luo, Wen; Huang, Junwei; Xu, Jianxin^*; Wang, Hua^*. Interplay of fluids mixing and heat transfer in a dual-loop ORC direct contact heat exchanger used for waste heat utilization[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2020, 0954406220902493.

8. Kai, Yang; Shi-Bo, Wang; Xiu-Le, Zhu; Jian-Xin, Xu^*; Hua, Wang^*. Flow pattern visualization and nonlinear analysis of gas-liquid mixing process with top-blowing gas stirring[J]. Journal of Central South University,2019, 26(8): 2029-2040.

9. Xu, Jianxin^#; Xiao, Qingtai^#; Lv, Zhihan^#; Huang, Junwei^#; Xiao, Ruoxiu; Pan, Jianxin^*; Wang, Hua^*. New metrics for measuring multiphase mixing effects in a direct-contact heat exchanger. Applied Thermal Engineering, 2019, 147:592-601.

10. 吴曼曼,徐建新*,王钦.基于数据分解的 AQI 的CEEMD-Elman神经网络预测研究[J].中国环境科学, 2019, 39(11):4580-4588.

11. Xiao, Qingtai^*; Gao, Qin; Zhang, Jing; Xu, Jianxin^*; Pan, Jianxin^*; Wang, Hua^*. Extraction and evolution of bubbles attributes in a two-phase direct contact evaporator[J]. International Journal of Heat and Mass Transfer, 2018, 124:761-768.

12. Xiao, Qingtai; Zhang, Yanxia.; Zhu, Xiule.; Xu Jianxin^*; Pan, Jianxin^*; Wang, Hua^*. Novel 3-D homogeneity metrics of multiple components in gas-stirred liquid systems[J]. Powder Technology, 2018, 336:210-219.

13. Xiao Qingtai, Yang Kai, Wu Manman, Pan Jianxin*, Xu Jianxin*, Wang Hua*.Complexity evolution quantification of bubble pattern in a gas-liquid mixing system for direct-contact heat transfer[J]. Applied Thermal Engineering, 2018, 138:832-839.

14. Qingtai Xiao^*; Jianxin Pan^*; Yunying Fan^*; Jianxin Xu^*; HUA WANG^*. An original technique for quantifying the flow-field characteristics in an electrodeposition process of Zn-SiO2 with Fe[J]. Journal of Alloys and Compounds, 2018, 737:448-455.

15. Xiao, Qingtai; Zhai, Yuling; Lv, Zhihan; Xu, Jianxin^*; Pan, Jianxin^*; Wang, Hua^*. Nonuniformity quantification of temperature and concentration fields by statistical measure and image analysis[J]. Applied Thermal Engineering, 2017, 124:1134-1141.

16. Xiao, Qingtai^#; Pan, Jianxin^#; Lv, Zhihan; Xu, Jianxin^*; Wang, Hua. Measure of bubble nonuniformity within circular region in a direct-contact heat exchanger[J]. International Journal of Heat and Mass Transfer, 2017, 110:257-261.

17. Xiao Qingtai, Pan Jianxin, Xu Jianxin*, Wang Hua, Lv Zhihan. Hypothesis-testing combined with image analysis to quantify evolution of bubble swarms in a direct-contact boiling heat transfer process[J]. Applied Thermal Engineering, 2017, 113:851-857.

18. Qing-tai Xiao^#; Jian-xin Pan^#; Jian-xin Xu^*; Hua Wang^*; Zhi-han Lv. Numerical method and model for calculating thermal storage time for an annular tube with phase change material[J]. Journal of Central South University, 2017, 24(1):217-226.

19. 肖清泰，黄峻伟，潘建新，刘赟，徐建新*; 王华, 直接接触式沸腾换热过程气泡混合均 匀度评价[J], 化工学报, 2017, 08:3049~3055.

20. Xiao Qingtai, Xu Jianxin*, Wang Hua. Quantifying the evolution of flow boiling bubbles by statistical testing and image analysis: toward a general model[J]. Scientific Reports, 2016, 6:31548.

21. Jianxin Xu^#; Qingtai Xiao^#; Yu Fei^*; Shibo Wang; Junwei Huang. Accurate estimation of mixing time in a direct contact boiling heat transfer process using statistical methods. International Communications in Heat and Mass Transfer, 2016, 75:162-168.

22. Jianxin Xu^#; Qingtai Xiao^#; Yin Chen; Yu Fei^*; Jianxin Pan^#; Hua Wang. A modified L2-star discrepancy method for measuring mixing uniformity in a direct contact heat exchanger[J]. International Journal of Heat and Mass Transfer, 2016, 97:70-76.

23. Yu Fei^#; Qingtai Xiao^#; Jianxin Xu^#*; Jianxin Pan^#*; Shibo Wang; Hua Wang^*; Junwei Huang. A novel approach for measuring bubbles uniformity and mixing efficiency in a direct contact heat exchanger[J]. Energy, 2015, 93:2313-2320.

24. Junwei Huang^#; Jianxin Xu^#; Xiuli Sang; Huitao Wang; Hua Wang^*. Quantifying the synergy of bubble swarm patterns and heat transfer performance using computational homology[J]. International Journal of Heat and Mass Transfer, 2014, 75(4):497-503.

25. Jianxin Xu; Xiuli Sang^*; Hua Wang; Yunying Fan. An assessment of the effects of micronparticle aggregation on the performance of zinc-silica composite coatings using Betti numbers[J]. Advances in Materials Science & Engineering, 2013, 2013(1):1-8.

26. Xu, Jianxin; Wang, Hua^*; Fang, Hui. Multiphase mixing quantification by computational homology and imaging analysis[J].Applied Mathematical Modelling,2011, 35(5):2160-2171.

27. Xu Jianxin; Wang Hua^*; Fang Hui. Characterization of periodic, quasiperiodic, and chaotic states in non-premixed biodiesel/air jet flames[J]. Mathematical Problems in Engineering,2011.

专著：

1.Hua Wang, Qingtai Xiao and JianxinXu. Direct contact heat exchanger[M], InTech Press.2017

2.王华, 徐建新，房辉. 多相体系搅拌混合效果评价技术[M], 科学出版社, 2012.