IntroductionThe main research directions include advanced molding of polymer materials, modification and preparation of polymer composite materials, solar energy utilization and enhanced heat transfer, CAD/CAE, etc. Presided over and participated in multiple vertical projects funded by the National Natural Science Foundation and National Key Research and Development, and presided over 20 horizontal research and development projects; Published over 100 academic papers in academic journals, authorized 69 invention patents, evaluated 5 achievements, and won 3 first prizes and 4 second prizes in provincial and ministerial level science and technology and scientific and technological progress awards. Director of the Mechanical Drawing Teaching and Research Office, concurrently serving as an executive director of the Beijing Engineering Drawing Society. In the past 5 years, has won 9 provincial and ministerial level teaching achievement awards, including the third prize of the National Teaching Innovation Competition for College Teachers in 2023 and the first prize of Beijing City, and 9 school level teaching achievement awards. Hosted and participated in 1 educational reform project in Beijing and 12 school level educational reforms; Guide 13 innovative projects for college students. As the person in charge of organizing the Advanced Mapping Technology and Product Information Modeling Innovation Competition, have won more than 30 national level awards and over 100 Beijing municipal awards. EducationWork ExperienceSocial PositionSocial ActivitiesResearchAdvanced processing of polymer materials Modification and preparation of polymer composite materials Utilization of solar energy and enhanced heat transfer CAD/CAE and digital twin technology TeachingModern Engineering Graphics Engineering Graphics Application Software Practice Advanced drawing technology and product information modeling PostgraduatesFundingVertical ProjectHorizontal ProjectPublicationsPapers: 1. Haowei Li, Xiahua Zuo, Dailing Zhang, Hongyuan Yin, Weimin Yang, Hua Yan, Fenghua Zhang, Zhiwei Jiao, Ying An*, Heat collection characteristics of nanofluids in direct absorption solar collector with built-in rotors(J),Case Studies in Thermal Engineering,Volume2024(53): 103868 2. Wenlei Zhu, Xiahua Zuo, Yumei Ding, Ying An*, Weimin Yang, Experimental comparison of the photothermal conversion performance of coal and plant soot nanofluids for direct absorption solar collectors,Solar Energy, Volume 264,2023,112056,ISSN 0038-092X, 3. Wenlei Zhu, Xiahua Zuo, Yumei Ding, Hua Yan, Ying An*, Weimin Yang, Experimental investigation on the photothermal conversion performance of cuttlefish ink nanofluids for direct absorption solar collectors, Applied Thermal Engineering, Volume 221,2023,119835,ISSN 1359-4311, 4. Xiahua Zuo, Lijian Song, Weimin Yang, … …, Hua Yan, Ying An*, Silicon dioxide coating nanocomposites and cellulose-modified stable nanofluid for direct absorption solar collection,Solar Energy,Volume 262,2023,111797,ISSN 0038-092X, 5.Haowei Li, Xiahua Zuo, Dailing Zhang, Hongyuan Yin, Hua Yan, Weimin Yang, Ying An*, Experimental and numerical investigation of flow and heat transfer characteristics of Chinese ink nanofluid in built-in rotor tube,International Journal of Thermal Sciences,Volume 186,2023,108115,ISSN 1290-0729, 6. Xiahua Zuo; Weimin Yang; Lijian Song; Changfeng Guan; Hua Yan; Jin Zhan; Ying An*; Haoyi Li; Nanocarbon-Coated Basalt Fabric as Photothermal Membrane for Solar Interfacial Evaporation, Materials Letters, 2022, 329:133172. 7. Xiahua Zuo; Weimin Yang; Zhenghe Zhang; …. …, Xin Wen; Ying An*; Experimental investigation on photothermal conversion properties of collagen solution-based carbon black nanofluid, Case Studies in Thermal Engineering, 2022, 38:102371. 8.Ying An, Shaoyang Yu,Shoumeng Li,Xun Wang,Weimin Yang,Maryam Yousefzadeh,Mahmoud M. Bubakir,Haoyi Li.Melt-electrospinning of Polyphenylene Sulfid, Fibers and Polymers,2018,19(12). 9. 楼爽,马秀清*,任子初,孔祥号,安瑛*, 航天用氟塑料/金属密封件模压工艺的数值模拟, 高分子材料科学与工程, 2024,40(5):87-98. 10.左夏华,宋立健,关昌峰,阎华,杨卫民,安瑛*. 用于直接吸收式太阳能集热器的纳米流体研究进展. 材料导报. 2023,37(21):1-9 11. 张岱凌,丁玉梅,左夏华,黎昊为,杨卫民,阎华,安瑛* .废弃墨粉纳米流体的光热特性[J].化工进展, 2023,42(09):4791-4798. 12.李凯,魏鹤琳,左夏华,杨卫民,阎华,安瑛*.水基炭黑-胶原蛋白纳米流体制备及稳定性实验研究[J].化工进展, 2023, 43(4):1944-1952. 13.于晓宇,安瑛*,左夏华,李凯,张锋华,焦志伟,杨卫民.旋流作用下水基炭黑纳米流体集热性能研究, 化工学报, 2023, 74(10):4097-4108. 14.张欢雷,程礼盛,张政和,谭晶,杨卫民,安瑛*,激光与微波协同加热碳纤维的温度与热应力分布规律,化工进展,2020,S1期:195-199,5 15.吕婷婷,安瑛,李好义等.静电纺动物蛋白纳米纤维研究进展.纺织学报, 2019,40(12):140--45.DOI:10.13475/j.fzxb.20181206406. 16.余韶阳,安瑛,李守猛等.高黏度聚乳酸(PLA)熔体微分离心静电纺丝.化工进展,2019,38(03):1176-1181.DOI:10.16085/j.issn.1000-6613.2018-1096. 17.吕婷婷,安瑛,刘宇健等.静电纺丝制备蛋清蛋白/聚氧化乙烯纳米纤维[J].化工进展,2019,38(12):5487-5491.DOI:10.16085/j.issn.1000-6613.2019-0557. 18. Wen, X., Zuo, X., Li, H., Yang, W., Ding, Y., Yan, H., & An, Y*. Waste Printer Toner: Excellent Heat Collecting Medium for Solar Collectors. SSRN 2023-03,4376763. 19. Li, H., Yang, W., Zuo, X., Zhang, D., Wen, X., Yan, H., & An, Y. Numerical Simulation of Flow and Heat Transfer Characteristics of Chinese Ink Nanofluid in Built-In Rotor Tube. SSRN ,2022-5,4112948 20. 安瑛,李骜原,张毅,王朔,杜长彪,杨卫民,李好义.离心静电纺丝制备异麦芽酮糖醇纤维膜.塑料,2023,52(05):162-166 21.安瑛,王静东,陈明军,杜长彪,刘宇亮,李好义.熔体微分静电纺PLA滤膜过滤性能及矿下应用性能分析[J].塑料,2023,52(04):82-86. 22.黎昊为,左夏华,张岱凌,温馨,阎华,杨卫民,安瑛*. 内置转子太阳能集热管流动与传热特性的数值模拟研究[J].北京化工大学学报(自然科学版),2023,50(02):89-96. 23.安瑛; 刘宇亮; 谭晶; 杨卫民; 阎华; 李好义 ; 聚合物离心静电纺丝技术研究进展, 中国塑料, 2022, (1): 172-177 24.安瑛,王军,李好义,陈明军,戴雄飞,杨卫民,阎华,中空电极板对狭缝式聚合物熔体微分电纺的影响,工程塑料应用,2021,49(4):P61-65。 25.谭晶,谭敏,杨卫民,安瑛*,轮胎电磁感应加热直压硫化模具内鼓瓦感应线圈的优化设计,北京化工大学学报(自然科学版),2021,48(3):P99-105。 26.范帅帅,周宏伟,安瑛*,基于拓扑优化的水平转盘对射机底座结构设计,机械设计,2020, 37(12):P22-27。 27.安瑛,刘宇亮,李好义. 离心静电纺丝装置电场模拟分析[C]//中国力学学会产学研工作委员会,中国航空学会结构与强度分会,中国塑料加工工业协会注塑制品专业委员会,陕西省国防科技工业信息化协会.第十七届中国CAE工程分析技术年会论文集.2021.11.12 28.郭斌杰,安瑛*,谭晶.免充气塑料轮胎支撑结构对性能的影响[J].塑料科技,2020,48(03):17-20. 29.张欢雷,程礼盛,王安,谭晶,杨卫民,安瑛*,碳纤维石墨化专用微波矩形槽波导谐振腔的设计及数值模拟,北京化工大学学报,2020,47(5),P104-108 30.张欢雷,程礼盛,张政和,谭晶,杨卫民,安瑛*,微波激光协同石墨化碳纤维的仿真模拟研究,红外,2020年02期:,7 31.丁秦; 关昌峰; 左夏华; 阎华; 杨卫民; 安瑛*,中华墨纳米颗粒在太阳能海水蒸馏中的应用, 现代化工, 2019, 2019(09): 89-92 Patents 1. A naturally degradable nanofiber environmentally friendly mask, CN202010400330.5 2. A device for preparing two-component fibers based on melt differential centrifugal spinning, CN216107346U 3. Quality testing equipment and methods for low-density ablative materials, CN202010748378.5 4. A melt blown device for dual electrode high-voltage electrospinning, CN202010875736.9 5. A patrol type film forming homogenization electrospinning device, CN202010716922.8 6. A carbon nanotube dispersion device based on tensile rheology, CN201310434933.7 7. A planetary magnetic stirring device, CN201210384621.5 8. Melt differential precision injection molding machine, CN200810227241.4 9. A hybrid driven clamping mechanism for a fully electric injection molding machine, CN200810227240. X Awards1. Research and industrialization of injection molding process and equipment for large and complex optical grade parts, June 15, 2021, provincial and ministerial level science and technology award, First Prize 2. Molding process and equipment for large and complex plastic components of urban underground pipelines, October 15, 2019, Social Science and Technology Award, Second Prize 3. Key process and equipment for extrusion molding of super wide rubber blanks for 49 -63 giant tires, November 20, 2013, Social Science and Technology Award, Second Prize 4. A complete set of processes and equipment for efficient processing and high-value reuse of solid recycling polymer materials, February 18, 2018, Social Science and Technology Award, Second Prize. 5. Research and industrialization of shape control technology and molding equipment for optical grade plastic parts, November 9, 2021, social science and technology award, First Prize. 6. Online testing technology and application of PVT performance of polymer materials, social science and technology award, Second Prize. 7. Research and industrialization of surplus equipment for injection molding process of large and complex optical grade parts, June 15, 2021, provincial and ministerial level science and technology award, First Prize. PatentHonor RewardAdmissions Information |