陆紫生    
高级工程师    
    
办公电话    
通讯地址    
上海交通大学机械与动力工程学院C268室
电子邮件    
个人主页    
教育背景
时间
毕业院校
学历
2004-2007
上海交通大学
博士
2001-2004
大连海事大学
硕士
1997-2001
大连海事大学
学士
工作经历
2014- 上海交通大学 高级工程师 制冷所实验室主任 
2008-2013 上海交通大学 专职科研 助研
2007-2008 开利(中国)研发中心 高级工程师

出访及挂职经历
研究方向
1. 吸附式、吸收式制冷制热技术
2. 太阳能、工业余热高效回收利用技术
3. 低品位余热高效储能技术 
科研项目
一、纵向项目
9. 教育部高等学校能源动力类专业教育学改革项目,负责人
   面向能动类本科生开放科研实验室长效管理与运行机制研究
8. 国家自然科学基金与俄罗斯基础研究基金会合作交流项目, 负责人
   High performance compound sorbents for thermal energy storage
7. 国家自然科学基金项目, 负责人
   吸湿剂固液汽三相储能/制冷/制热的循环机理研究
6. 国家自然科学基金重点项目,第三负责人
   基于干燥剂除湿和蒸发制冷耦合的高效热泵循环研究
5. 国家自然科学基金国际重大中合作项目,子项目负责人
   中日韩A3太阳能/地热驱动的吸附-吸收四联供系统的中方合作课题高效太阳能吸附制冷系统研究中的
4. 国家自然科学基金项目,第二负责人
   太阳能热化学吸附变温能量贮存研究
3. 国家自然科学基金项目,第二负责人
   高效太阳能空调相变蓄冷调控机理及输冷过程动态特性研究
2. 国家自然科学基金项目,第三负责人
   双模式太阳能热化学吸附长周期复合储能特性研究
1. 国家科技支撑计划项目,主要参与人
   基于中温的高效太阳能制冷装置及应用示范
二、横向项目
20.上海交通大学实验室创新研究课题,负责人
   建设与世界一流大学要求相适应的科研实验室安全教育体系研究
19.企事业单位合作项目,负责人
   工业余热用高效压缩式热泵
18.晨星奖励计划项目,负责人
   高效吸收-热化学反应式太阳能和低品位废热储能研究
17.企事业单位合作项目,第二负责人
   上海交通大学海外留学生暑假实习项目
16.企事业单位合作项目,负责人
   复合能源系统规范编制
15.企事业单位合作项目,负责人
   家庭用太阳能规范与图集编制
14.企事业单位合作项目,负责人
   关于极热器研制技术指导和性能测试
13.航天项目,主要参与人
   高低温运动***
12.新加坡政府、新加坡国立大学项目,主要参与人
   超大城市的能源环境可持续发展方案
11.英国纽卡斯尔大学项目,第二负责人
   英国纽卡斯尔大学3kW吸附制冷机
10.上海世博项目,第三负责人
   公共卫生间通风及除臭技术研究
9. 上海世博项目,第三负责人
   变压器余热驱动吸附空调系统
8. 企事业单位合作项目,第二负责人
   太阳能热水驱动的硅胶-水吸附制冷机组
7. 企事业单位合作项目,第二负责人
   太阳能吸附式空调机组开发应用
6. 企事业单位合作项目,第三负责人
   硅胶-水吸附式制冷机
5. 企事业单位合作项目,主要参与人
   船用氨水吸收式制冷机
4. 企事业单位合作项目,第二负责人
   利用中温集热器的太阳能空调与供热系统设计与示范
3. 企事业单位合作项目,主要参与人
   轧钢区域低品位余热资源梯级利用研究
2. 航天项目,主要参与人
   高低温展开***
1. 企事业单位合作项目,主要参与人
   基于黑箱吸热体的跟踪式聚光型中温太阳能集热系统
代表性论文专著
一、第一作者SCI期刊论文
19. Z.S. Lu(First author), et al, Performance analysis of an adsorption refrigerator using activated carbon in a compound adsorbent, Carbon, 44(4) 2006 747-52 (SCI检索;EI检索;IF= 6.196)
18. Z.S. Lu(First author and corresponding author), et al, Engineering design and experimental study of indoor air adsorption purification for people’s health by removing hazard gases of H2S and NH3 using different carbon adsorbents with filter and matrix, Journal of Porous Materials 2016, doi:10.1007/s10934-016-0320-y
17. Z.S. Lu(First author and corresponding author), et al, Novel multi-step sorption-reaction energy storage cycles for air conditioning and temperature upgrading, Energy, 2017,Volume 118, Pages 464–472
16. Z.S. Lu(First author and corresponding author), et al, Novel adsorption refrigerators with separate type two phase closed thermosyphon designs, International Journal of Energy Research, 2015, 39(12):1681–1688 (SCI检索;EI检索)
15. Z.S. Lu(First author and corresponding author), et al, Experimental performance study of sorption refrigerators driven by waste gases from fishing vessels diesel engine, Applied Energy, Volume 174, 15 July 2016, Pages 224–231(SCI检索;EI检索)
14. Z.S. Lu* (First author and corresponding author), et al,Experimental performance investigation of small solar air-conditioning systems with different kinds of collectors and chillers, Solar Energy 2014 7-14 (SCI检索;EI检索;IF=3.541 )
13. Z.S. Lu*(First author and corresponding author), et al, Study of a novel solar adsorption cooling system and a solar absorption cooling system with new CPC collectors, Renewable Energy 50 2013 299-306 (SCI检索;EI检索;IF= 2.978)
12. Z.S. Lu* (First author and corresponding author), et al, Experimental investigation adsorption chillers using micro-porous silica gel–water and compound adsorbent-methanol, Energy Conversion and Management 65 2013 430–437 (SCI检索;EI检索;IF= 2.216)
11. Z.S. Lu*(First author and corresponding author), et al, Experimental analysis of an adsorption air conditioning with micro-porous silica gel-water, Applied Thermal Engineering 50 2013 1015-1020 (SCI检索;EI检索;IF= 2.064)
10. Z.S. Lu*(First author and corresponding author), et al, Experimental analysis of an adsorption refrigerator with mass and heat-pipe heat recovery process, Energy Conversion and Management 53 2012 291–297 (SCI检索;EI检索;IF= 2.216)
9. Z.S. Lu*(First author and corresponding author), et al, Experimental study with operational solar-sorption cooling, International Journal of Energy Research, 37(6) 2013 673–682 (SCI检索;EI检索;IF= 2.122)
8. Z. S. Lu*(First author and corresponding author), et al, Dynamic characteristics of a novel adsorption refrigerator with compound mass-heat recovery, International Journal of Energy Research, 37(1),pp59–68 (SCI检索;EI检索;IF= 2.122)
7. Z.S. Lu*(First author and corresponding author), et al, An analysis of the performance of a novel solar silica gel-water adsorption air conditioning, Applied Thermal Engineering 31 2011 3636-3642 (SCI检索;EI检索;IF= 2.064)
6. Z.S. Lu*(First author and corresponding author), et al, Performance improvement and comparison of mass recovery in CaCl2/activated carbon adsorption refrigerator and silica gel/LiCl adsorption chiller driven by low grade waste heat, International Journal of Refrigeration, 36(5) 2013 1504–1511 (SCI检索;EI检索;IF= 1.817)
5. Z.S. Lu*(First author and corresponding author), et al, Performance improvement by mass-heat recovery of an innovative adsorption air-conditioner driven by 50–80 °C hot water, Applied Thermal Engineering, 55 (1) 2013 113–120 (SCI检索;EI检索;IF= 2.064)
4. Z.S. Lu*(First author and corresponding author), et al,Study of the new composite adsorbent of salt LiCl /Silica gel-methanol used in an innovative adsorption cooling machine driven by low temperature of hot water, Renewable Energy, 63,pp445–451 (SCI检索号;EI检索号;IF= 2.989)
3. Z. S. Lu * (First author and corresponding author), et al, Thermal characteristics in two-reactor adsorption refrigerator using metal chloride compound adsorbent, Industrial & Engineering Chemistry Research, 52 (22) 2013 7327–7332 (SCI检索;EI检索;IF= 2.237)
2. Z.S. Lu(First author), et al, Experimental investigation of a novel multifunction heat pipe solid sorption ice-maker for fishing boats using CaCl2/activated carbon compound-ammonia, International Journal of Refrigeration, 30(1) 2007 76-85 International Journal of Refrigeration 31 2008 1104–1112 (SCI检索;EI检索;IF= 1.817)
1. Z.S. Lu(First author), et al, A study on multifunction heat pipe high efficient adsorption refrigerator using compound adsorbent-ammonia, Chinese Science Bulletin, 51(2) 2006 239-42 (SCI检索;EI检索;IF= 1.321)

二、第一作者国际会议论文论文
7. Z.S. Lu*, R.Z. Wang, Z.S. Lu*, et al, Solar multi-step sorption energy storage using silica gel / LiCl, activated carbon / LiCl, MWCNT / LiCl and MWCNT / CaCl2, The 5th International Symposium on Heat Transfer and Energy Conservation, 11-13th November 2016, in Guangzhou, China
6. Z.S. Lu*, R.Z. Wang, Experimental performance investigation and economic analysis of small solar air-conditioning systems with different kinds of collectors and chillers, Proceedings of the 7th Asian Conference on Refrigeration and Air Conditioning, ACRA2014, May 18-21, 2014, Jeju, KOREA
5. Z.S. Lu*(First author and corresponding author), et al, Experimental investigation of mass-heat recovery performance under different working conditionings of an innovative solar silica gel-water chiller, The Yellow Sea Rim International Exchange Meeting on Building Environment and Energy January 23 Busan, Korea
4. Z.S. Lu*(First author and corresponding author), et al, An analysis of the performance of a novel solar silica gel-water adsorption air-conditioning, 9th International Conference on Sustainable Energy Technologies, 24-27 August 2010, Shanghai, China
3. Z.S. Lu*(First author and corresponding author), et al, Solar powered silica gel-water adsorption chiller: design and test, Proceedings of renewable energy 2010, 27 June-2 July 2010, Yokohama, Japan
2. Z.S. Lu*(First author and corresponding author), et al, Experimental study of the matching of three kinds of solar collectors with different sorption chillers, The International Conference on Cryogenics and Refrigeration 2013, April 6-9 2013 Zhejiang University, Hangzhou, China
1. Z.S. Lu*(First author and corresponding author), et al, Performance comparison of two adsorption refrigerators with different types of heat pipe design driven by waste heat, The 26th international conference on efficiency, cost, optimization, simulation and environmental impact of energy systems, July 16-19 2013, Guilin, China

三、第一作者中文核心期刊论文
5. 陆紫生等, 采用复合吸附剂-氨的多功效热管型高效吸附制冷机,科学通报,50,pp2180-2182
4. 陆紫生, 制冷与低温工程研究所实验室建设与管理探索, 实验技术与管理,2015, (7),pp 229-232
3. 陆紫生*等,太阳能吸附空调的全性能实验研究及其应用, 制冷学报, 31,pp1-3
2. 陆紫生*等,回质-回热过程对硅胶-水吸附机性能的影响及优化分析, 制冷学报, 31(4),pp 7-13
1. 陆紫生*等, “可再生能源与建筑集成技术研究与示范”项目——课题二/ 子课题:小型硅胶- 水吸附太阳能空调研制及应用, 建筑科技,24,pp37-39

四、合作论文(非第一作者)
14. R.Z. Wang*, Z.Z. Xia, L.W. Wang, Z.S. Lu, et al, Heat transfer design in adsorption refrigeration systems for efficient use of low-grade thermal energy, Energy, 36 2011 5425-5439 (SCI检索;EI检索;IF= 3.487)
13. C.J. Chen, R.Z. Wang*, Z.Z. Xia, J.K. Kiplagat, Z.S. Lu, Study on a compact silica gel–water adsorption chiller without vacuum valves: Design and experimental study, Applied Energy 87 (2010) 2673–2681, (SCI检索;EI检索;IF= 5.106)
12. T.X. Li, R.Z. Wang *, L.W. Wang, Z.S. Lu, J.Y. Wu, Influence of mass recovery on the performance of a heat pipe type ammonia sorption refrigeration system using CaCl2/activated carbon as compound adsorbent, Applied Thermal Engineering 28 2008 1638–1646 (SCI检索;EI检索;IF= 2.064)
11. T.X. Li, R.Z. Wang*, L.W. Wang, Z.S. Lu, Experimental investigation of an innovative dual-mode chemisorption refrigeration system based on multifunction heat pipes, International Journal of Refrigeration 31 2008 1104–1112 (SCI检索;EI检索;IF= 1.817)
10. L.X. Gong, R.Z. Wang*, Z.Z. Xia, Z.S. Lu, Experimental study on an adsorption chiller employing lithium chloride in silica gel and methanol, International Journal of Refrigeration, 35 2012 1950-1957 (SCI检索;EI检索;IF= 1.817)
9. T.X. Li, R.Z. Wang *, L.W. Wang, Z.S. Lu, Experimental study on an innovative multifunction heat pipe type heat recovery two-stage sorption refrigeration system, Energy Conversion and Management 49 (2008) 2505–2512 (SCI检索;EI检索;IF= 2.216)
8. L.W. Wang, R.Z. Wang*, Z.S. Lu, C.J. Chen, K. Wang, J.Y. Wu. The performance of two adsorption ice making test units using activated carbon and a carbon composite as adsorbents. Carbon, 44 2006 2671-2680 (SCI检索;EI检索;IF= 5.378)
7. L.W. Wang, R.Z. Wang*, Z.S. Lu, C.J. Chen, J.Y. Wu. Comparison of the Adsorption Performance of Compound Adsorbent in a Refrigeration Cycle with and without Mass Recovery. Chemical Engineering Science. 61 (11) 2006 3761-3770 (SCI检索;EI检索;IF= 2.431)
6. L.W. Wang, R.Z. Wang*, Z.S. Lu, Y.X. Xu, J.Y. Wu. Split heat pipe type compound adsorption ice making unit for fishing boats. International Journal of Refrigeration, 29 2006 456–468 (SCI检索;EI检索;IF=1.817)
5. L.W. Wang, R.Z. Wang*, Z.S. Lu, C.J. Chen. Studies on Split Heat Pipe Type Adsorption Ice-making Test Unit for Fishing Boats: Choice of Heat Pipe Medium and Experiments under Unsteady Heating Sources. Energy Conversion and Management, 47 2006 2081-2091 Energy Conversion and Management 53 2012 291–297 (SCI检索;EI检索;IF= 2.216)
4. L. X. Gong, R. Z. Wang*, Z. Z. Xia, & Z. S. Lu, Study on an adsorption chiller employing lithium chloride in silica gel and methanol: design and experimental study. In Proceedings of International Sorption Heat Pump Conference, April 5-10 2011 pp. 329-39 Padua, Italy
3. 李廷贤,王如竹*,王丽伟,陆紫生,余热驱动多功能热管型吸附制冰机组的性能,机械工程学报,44,pp101-105
2. 李廷贤,王如竹*,王丽伟,陆紫生,多功能热管型二级吸附制冷的循环特性研究,工程热物理学报 29,pp1993-1997
1. 余楠,王如竹*,陆紫生, 改进型硅胶-水吸附制冷机的实验研究,33,pp1663-1666
教学工作
协助指导多名博士生、硕士生和本科生,其中本科生曾获得最佳毕业论文。
软件版权登记及专利
一、发明专利
21.发明专利, 基于MOF材料的复合吸附剂及其制备方法
20.发明专利, 相变连续加热吸附床系统
19.发明专利, 可实现相变加热和强制对流冷却的连续吸附制冷系统
18.发明专利, 四重热量回收紧凑型氨水制冷系统
17.发明专利, 相变连续冷却吸附床系统
16.发明专利, 采用PVT集热器进行吸附制冷与发电系统
15.发明专利, 吸附床系统
14.发明专利, 四重热量回收的氨水吸收制冷及发电系统
13.发明专利, 连续吸附制冷与发电系统
12.发明专利, 基于PVT的制冷与发电系统
11.发明专利:太阳能驱动高效吸湿-热化学反应单级空调系统
10.发明专利:低品位热能驱动高效吸湿-热化学反应单级变温器
9.发明专利:一种太阳能驱动高效吸湿-热化学反应双级空调系统
8.发明专利:制冷剂自动平衡的硅胶-水吸附制冷机
7.发明专利:船舶废气驱动的氨水吸收式制冷机
6.发明专利:一种太阳能驱动高效吸湿-热化学反应热泵系统
5.发明专利:采用复合吸附剂的热管回热型发生器
4.发明专利:低品位废热驱动高效吸湿-热化学反应双级变温器
4.发明专利:可再生卫生间吸附除臭装置
3.发明专利:泵液式复合交变分离热管型船用复合吸附制冰机
2.发明专利:一种大型高低温保温箱体
1.发明专利:用于高低温环境模拟试验箱的保温结构 
学术兼职
特邀审稿
12 “Research Grants Council of Hong Kong” (香港研究资助局),项目函评专家
11 《Renewable & Sustainable Energy Reviews》SCI期刊审稿人
10 《Energy》 SCI期刊审稿人 
9. 《Solar Energy》 SCI期刊审稿人 
8. 《Energy Conversion & Management》SCI期刊审稿人
7. 《International Journal of Refrigeration》SCI期刊审稿人
6. 《Heat Transfer Research》SCI期刊审稿人
5. 《Chinese Optics Letters》审稿人
4. 《Journal of Mechanical Engineering Science》SCI期刊审稿人 
3. 《Journal of Mechanical Science and Technology》SCI期刊审稿人
2. 《Scientia Iranica》SCI期刊审稿人
1. “ASME 2013 7th International Conference on Energy Sustainability”国际会议审稿人
荣誉奖励
14. 2016 上海市科技进步一等奖(第十三获奖人)
13. 2016 上海交通大学安全微电影最佳人气奖
12. 2016 上海交通大学安全知识竞赛一等奖
11. 2015 上海交通大学机动学院优秀实验室管理奖获得者
10. 2015 上海交通大学年度考核优秀获得者
9. 2014 上海交通大学年度考核优秀获得者 
8. 2013 上海交通大学SMC-晨星青年学者奖励计划
7. 2011 第四届中国制冷学会优秀论文奖一等奖
6. 2009 国际铜业协会TPPC二等奖 
5. 2007 EURAMMON NATURAL REFRIGERATION PARTICIPATION AWARD
4. 2007 上海交通大学优秀毕业生奖
3. 2006 上海交通大学柏克德奖学金一等奖
2. 2005 上海交通大学新时达电气奖学金一等奖
1. 2004 教育部上海交大太阳能发电和制冷工程中心优秀论文一等奖
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