杨大章(副教授)

发布者:郝洁发布时间:2024-01-16浏览次数:4390

政治面貌:中共党员

工作单位:555050注册大白菜2023白菜网址官网大全制冷与空调系、上海市教委“食品冷链及品质控制”高水平团队科研成员

职称:副教授硕士生导师

社会兼职:上海市室内环境净化行业协会副会长、上海制冷学会组织工作委员会副主任、中国建筑学会会员、中国水产学会渔业制冷分会委员、上海市科技管理项目评审专家世界技能大赛(WSC)制冷与空调项目上海专家组成员

研究方向:食品低温物流品质控制制冷空调新技术室内环境品质控制

主要承担课程:建筑设备安装工程经济、食品制冷系统设计通风工程、建筑电气等

E-mail:dzyang@shou.edu.cn; ydz201@163.com

科研项目:

1)国家重点研发计划子课题:水产品船载冻结保鲜的品质监测与评估技术研究,主持。

2上海高校青年科研骨干培养计划(晨光计划):Ni-P-Ag-PTFE镀层海水换热器换热特性与SRB污垢特性研究,主持。

3上海高校青年教师培养资助计划:高效冲击式食品速冻技术研究,主持。

4555050注册大白菜科技发展基金:冲击式食品速冻技术的喷射流动特性与强化换热研究,主持。

5产学研项目:风机性能及流场数值模拟分析主持。

获奖情况:

1. 水产品保鲜贮运关键技术研发与设备创制,2023年度中国商业联合会科学技术奖一等奖(排名第五),2023年12月

2. 海产品海陆一体化冷链装备及其节能关键技术的研发,2018年度上海市浦东新区科学技术三等奖(排名第三),2020年4月

3. “天加杯”第十四届中国制冷空调行业大学生科技竞赛二等奖,2020年8月,指导教师。

4. “格力杯”第十二届中国制冷空调行业大学生科技竞赛(华东赛区),三等奖,2018年8月,指导教师。

专利著作:

1. 《洁净室检测》,副主编,中国劳动社会保障出版社,ISBN 978-7-5167-4181-8

2. 一种带双级喷射器的船舶太阳能蒸气压缩制冷循环系统,发明专利,专利号ZL2021100124428

3. 一种船用双级压缩喷射跨临界CO2熟冻装置,实用新型,专利号:ZL202021927872.X

4. 一种带喷射器和涡流管的太阳能辅助增效船舶用制冷系统,实用新型,专利号:ZL202021926837.6

代表性论文:

[1] Dazhang Yang, Jie Zhu, Naixin Wang, Jing Xie*, Experimental study on the performance of  trans-critical CO2 two-stage compression refrigeration system with and without an ejector at low temperatures[J]. International Journal of Refrigeration, 154 (2023) 231–242.

[2] Yang Dazhang, Li Yang, Xie Jing*, Wang Jinfeng. Energetic and entropy analysis of a novel transcritical CO2 two-stage compression/ejector refrigeration cycle for shipboard cold chamber[J]. Thermal science, 27 (4A) , pp.2607-2621.

[3] Zhikang Yang, Guosen Ye, Dazhang Yang*, Jing Xie*, Yilin Huo. Observation on the ice crystal formation process of large yellow croaker (Pseudosciaena crocea) and the effect of multiple cryoprotectants pre-soaking treatments on frozen quality[J]. Cryobiology, 113 (2023) 104580.

[4] Huo Yilin, Yang Dazhang*, Xie Jing*, Yang Zhikang. Simulation Analysis and Experimental Verification of Freezing Time of Tuna under Freezing Conditions[J]. Fishes 2023, 8, 470.

[5] Yang Dazhang, Li Yang, Xie Jing*, et al. Research and application progress of transcritical CO2 refrigeration cycle system: a review[J]. International Journal of Low-Carbon Technologies, 2021,17: 245-256.

[6] Yang Dazhang, Wang Naixin, Xie Jing*, et al. Comparative Numerical Study on Global Heat Transfer Process in Micro-Channel Gas Coolers with Different Structures[J]. Journal of Applied Fluid Mechanics, 2022,15(2): 579-589.

[7] Yang Dazhang, Wang Naixin, Xie Jing*, et al. A comprehensive numerical study of energy efficiency analysis of a double pipe gas cooler[J]. Thermal science, 2022, 26(6A): 4711-4722.

[8] Dazhang Yang, Yang Li, Jing Xie*, Jinfeng Wang.Exergy destruction characteristics of a transcritical carbon dioxide two-stage compression/ejector refrigeration system for low-temperature cold storage[J]. Energy Reports, 8:8546-8562.

[9] Dazhang Yang, Jie Zhu, Qiang Zhang, Jing Xie, Jinfeng Wang. Evaluation of the ejector two-stage compression refrigeration cycle with work performance from energy, conventional exergy and advanced exergy perspectives[J]. Energy Reports, 8: 12944–12957.

[10] Dazhang Yang, Yilin Huo, Qiang Zhang, JingXie*, Zhikang Yang. Recent advances on air heating system of cabin for pure electric vehicles: A review[J]. Heliyon, 8:e11032.

[11] Dazhang Yang, Naixin Wang, Jing Xie*, Jinfeng Wang. Study on Microbial Corrosion Resistance of Ni-P-Ag Coatings in Artificial Marine Environments Containing Sulphate-reducing Bacteria. Int. J. Electrochem. Sci., 15 (2020) 11779-11790.

[12] Dazhang Yang, Yanhua Lei, Jing Xie*, Zhitao Shu & Xingwei Zheng (2019): The microbial corrosion behaviour of Ni-P plating by sulfate-reducing bacteria biofouling in seawater[J], Materials Technology, 2019, vol. 34(8):444-454.

[13] Yang, Dazhang, Jing Xie, Wan Tang, Jinfeng Wang, and Zhitao Shu. Air-Impingement Freezing of Peeled Shrimp: Analysis of Flow Field, Heat Transfer, and Freezing Time[J]. Advances in Mechanical Engineering, 2019, vol. 11(3) 1-8.

[14] Dazhang Yang, Jing Xie*; Jinfeng Wang; Zhitao Shu, Effects of Jet Arrangement and Jet Height on Flow Characteristics of Air Impingement[J], Journal of Chemical Engineering of Japan, 2019.1.20, 52(2): 179~184.