代表性论文专著
一、第一作者论文
google scholar: 总被引:2003,h指数:25 (https://scholar.google.com/citations?hl=zh-CN&user=xuLrSLsAAAAJ)
52. Z.S. Lu*, Experimental and theoretical analysis of Metal-Organic Frameworks, energy storage performance for heating, cooling, power generation, and desalination, Applied Thermal Engineering, 2024, 122271
51. Z.S. Lu*, Study on the Energy Storage and Energy Conversion Performance of Eight Types of MOFs,The 3rd International Conference for Global Chinese Academia on Energy and Built Environment, July 28-31, 2023, in Shanghai, China.
50. Z.S. Lu*, Comprehensive Investigation of Cooling, Heating, and Power Generation Performance in Adsorption Systems Using Compound Adsorbents: Experimental and Computational Analysis, sustainability, 2023, 15: 2618463 (IF=3.9 ).
49. Z.S. Lu*, Experimental analysis of energy storage-power generation system, Journal of Energy Storage, 2023, 60,106647 (2区, IF=6.583 )
48 Z.S. Lu*, Analysis of China students’ laboratory accidents in the past 39 years and the laboratory management reform in the future, Education for Chemical Engineers, 2023, 42: 54-60 (SCI, Q2区, IF=3.200 )
47 陆紫生.综合实验教学改革 提升学生创新能力[J].实验室研究与探索,2023,42(12):174-178.
46 陆紫生.立体式实践教学提高学生创新能力[J].实验室研究与探索,2023,42(07):209-212.
45 陆紫生, 高校实验室事故分析及大学“双一流”实验室建设, 实验室研究与探索, 2022,已录用, 中文核心
44 Z.S. Lu*, Engineering design, test analysis and exergy calculation of multifunctional adsorption systems using chemical adsorbent and different thermal transfer fluids, Journal of Energy Storage, 2021, 44:1-12, 103412(1区,IF=6.583 )
43 Z.S. Lu*, Operation performance study and numerical analysis of the multi-objective adsorption system driven by low-grade heat of solar energy and industrial waste heat, Solar Energy, 2020, 199: 575-584 (2区,IF=4.674)
42 Z.S. Lu*, Experimental and theoretical performance analysis of the silica gel, LiCl with water, methanol multifunction adsorption system, International Journal of Energy Research, 2019 (14):8509-8521 (2区,Top,IF=2.515)
41 Z.S. Lu*, Experimental and simulation analysis of the combined adsorption system driven by 80-140 oC heat source, Energy Conversion and Management, 2019, 184: 726-734 (1区,Top,IF=6.377)
40 陆紫生,世界一流实验室管理经验对“双一流”大学启示[J],实验技术与管理, 2019, 6 : 267-273
39 Z.S. Lu*, Technical engineering design, thermal experimental and economic simulation analysis of absorption cooling/heating systems in China, Energy Conversion and Management, 2018, 172:155-163 (1区,Top,IF=6.377)
38 Z.S. Lu*, R.Z. Wang, Experimental and simulation analysis of low temperature heat sources driven adsorption air conditioning, refrigeration, integrating ammonia and organic expanding power generation, International Journal of Energy Research, 2018, 42(13) : 4157-4169 (2区,Top IF=3.009)
37 陆紫生,王如竹,罗伟莉,开放高校科研实验室培养学生创新实践能力[J],实验室研究与探索, 2018, 9:286-290
36 陆紫生,海外一流院所的现代实验室规划和建设经验对我国“双一流”大学实验室建设的启示[J], 实验技术与管理, 2018, 3: 1-5
35 陆紫生,王如竹,柯霞,博弈论视角下的高校科研实验室安全教育制度建设研究[J], 安全与环境学报, CSCD, 2018, 6: 2273-2278
34 Z.S. Lu*, R.Z. Wang, L. Gordeeva, Novel multi-step sorption-reaction energy storage cycles for air conditioning and temperature upgrading, Energy, 2017, 118: 464-472 (1区,Top,IF= 4.968)
33 Z.S. Lu*, R.Z. Wang, Performance analysis of multi-step sorption energy storage using compound adsorbents, International Journal of Energy Research, 2017;41:2297-2307 (2区,Top,IF=3.009)
32 Z.S. Lu*, R.Z. Wang, 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, 2017, 24 (3) :813-820 (4区,IF=1.858)
31 Z.S. Lu*, R.Z. Wang, Experimental performance study of sorption refrigerators driven by waste gases from fishing vessels diesel engine, Applied Energy, 2016, 174: 224-231 (1区,Top,IF= 7.900)
30 Z.S. Lu*, R.Z. Wang, Novel adsorption refrigerators with separate type two phase closed thermosyphon designs, International Journal of Energy Research, 2015, 39(12):1681-1688 (2区,Top,IF=3.009)
29 陆紫生.制冷与低温工程研究所实验室建设与管理探索[J].实验技术与管理(中文核心期刊),2015,32(7):229-232.
28 Z.S. Lu*, R.Z. Wang, Experimental performance investigation of small solar air-conditioning systems with different kinds of collectors and chillers, Solar Energy, 2014, 110: 7-14 (2区,IF= 4.374)
27 Z.S. Lu*, R. Z. Wang, 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, 2014, 63: 445-451 (2区,IF=3.746)
26 Z.S. Lu*, R.Z. Wang, Z.Z. Xia, L.X. Gong, Experimental investigation adsorption chillers using micro-porous silica gel-water and compound adsorbent-methanol, Energy Conversion and Management, 2013: 65: 430-437 IF=4.923)
25 Z.S. Lu*, R.Z. Wang, Z.Z. Xia, X.R. Z.S. Lu*, C.B. Yang, Y.C. Ma, G.B. Ma, Study of a novel solar adsorption cooling system and a solar absorption cooling system with new CPC collectors, Renewable Energy, 2013, 50: 2013 299-306 (2区,IF=3.746)
24 Z.S. Lu*, R.Z. Wang, Z.Z. Xia, Experimental analysis of an adsorption air conditioning with micro-porous silica gel-water, Applied Thermal Engineering, 2013, 50: 1015-1020 (2区,Top,IF=3.075)
23 Z.S. Lu*, R. Z. Wang, 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, 2013, 36(5): 1504-1511 (2区,IF=2.437)
22 Z.S. Lu*, R. Z. Wang, L. W. Wang, Dynamic characteristics of a novel adsorption refrigerator with compound mass-heat recovery, International Journal of Energy Research, 2013, 37(1): 59-68 (2区,Top,IF=2.515)
21 Z.S. Lu*, R. Z. Wang, Performance improvement by mass-heat recovery of an innovative adsorption air-conditioner driven by 50-80 oC hot water, Applied Thermal Engineering, 2013, 55 (1): 113-120 (2区,Top,IF=3.075)
20 Z.S. Lu*, Z.Z. Xia, D. La, Experimental study with operational solar-sorption cooling, International Journal of Energy Research, 2013, 37(6): 673-682 (2区,Top,IF=2.515)
19 Z.S. Lu*, R. Z. Wang, Thermal characteristics in two-reactor adsorption refrigerator using metal chloride compound adsorbent, Industrial & Engineering Chemistry Research, 2013, 52 (22): 7327-7332 (2区,Top,IF=2.666)
18 Z.S. Lu*, L.W. Wang, R.Z. Wang, Experimental analysis of an adsorption refrigerator with mass and heat-pipe heat recovery process, Energy Conversion and Management, 2012, 53: 291-297 (1区,Top,IF=4.923)
17 Z.S. Lu*, R. Z. Wang, Z.Z. Xia, Q.B. Wu, Y.M. Sun, Z.Y. Chen, An analysis of the performance of a novel solar silica gel-water adsorption air conditioning, Applied Thermal Engineering, 2011, 31: 3636-3642 (2区,Top,IF=3.075)
16 Z.S. Lu*, R.Z. Wang*, T.X. Li, L.W. Wang, C.J. Chen, 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, 2007, 30(1): 76-85 (2区,IF=2.437)
15 Z.S. Lu*, R.Z. Wang*, L.W. Wang, C.J. Chen, A study on multifunction heat pipe high efficient adsorption refrigerator using compound adsorbent-ammonia, Chinese Science Bulletin, 2006, 51(2): 239-42
14 Z.S. Lu*, R.Z. Wang*, L.W. Wang, C.J. Chen, Performance analysis of an adsorption refrigerator using activated carbon in a compound adsorbent, Carbon, 2006, 44(4): 747-52 (1区,Top, IF=6.244)
13 Z.S. Lu*, experimental analysis and exergy calculation of adsorption cooling-energy storage- power generation systems, 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and PolZ.S. Lu*, August 13-16, 2019, Novosibirsk, Russia
12 Z.S. Lu*, Innovation Engineering Design, Experimental Characterization Comparison and Calculation of Two Adsorption Cooling-Expanding Power Generation Systems with Different Heat Transfer FZ.S. Lu*, 5th International Conference on Polygeneration (ICP 2019)May 15–17, 201 9, Ky ushu University, Fukuoka, Japan
11 Z.S. Lu*, Innovation engineering design, experimental characterization comparison and calculation simulation and economic analysis of two adsorption cooling-expanding power generation systems with silica gel-water and silica gel/licl-methanol, ICSERA 2019, Republic of Korea, Mar ch 12 – Friday March 15, 2019, Korea
10 Z.S. Lu*, R.Z. Wang, Experimental and simulation analysis of solar/ waste heat driven adsorption air conditioning, refrigeration, integrating expanding electric generation with ammonia and ten different organics, The 5th The International Conference on Cryogenics and Refrigeration (I CCR), 12-14 April, 2018 at Shanghai Jiao Tong University, Shanghai, China
9 Z.S. Lu*, R.Z. Wang, 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
8 陆紫生*, 船舶吸附制冷系统改进, 2015中国制冷学会学术年会, 2015年11月17-20日,中国,成都, 2015.11.17-2015.11.20
7 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
6 Z.S. Lu*, Experimentalstudy of the matching of three kinds of solar collectors with differentsorption chillers, The International Conference on Cryogenics and Refrigeration 2013, 江苏省常州市, 2013.4.6-2013.4.9
5 Z.S. Lu*, R.Z. Wang, 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
4 Z.S. Lu*, R.Z. Wang, 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, G uil in, China.
3 Z.S. Lu*, R.Z. Wang, 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, 2011, Busan, Korea
2 Z.S. Lu*, R.Z. Wang, 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
1 Z.S. Lu*, R.Z. Wang, Solar powered silica gel-water adsorption chiller: design and test, Proceedings of renewable energy 2010, 27 June-2 July 2010, Yokohama, Japan
三、合作论文(非第一作者)
16 中国特色高水平工程实验队伍建设探究——基于世界一流大学建设的改革实践[J].开云网页登录
学报(哲学社会科学版),2023,31(09):137-151.
15 新工科背景下能源动力类实验教学改革及探索[J].高等工程教育研究,2023(S1):149-151.
14 曹玮,许亚敏,陆紫生.能源动力类虚拟仿真综合实践平台建设[J].中国教育信息化,2021(04):71-74.
13 李可顺,陆紫生*, 船舶余热驱动制冷-发电系统的设计与性能测试[J], 船舶工程, 2019, 41 : 1-5
12 黄永华,承磊,吴静怡,许煜雄,陆紫生,张良俊,徐世超.基于斯特林制冷机的氦气氛高低温箱深冷试验研究[J].开云网页登录
学报,2014,48(09):1309-1314.
11 余楠,王如竹,陆紫生,王丽伟.三相吸收跨季节储能循环的理论分析[J].工程热物理学报,2014,35(03):423-427.
10 承磊,黄永华,吴静怡,许煜雄,陆紫生,刘冠军,徐烈.以液氮为冷源的氦气强制对流高低温箱实验研究[J].低温与超导,2013,41(12):19-24.
9 A. Grekova, L. Gordeeva⁎, Z.S. Lu, R.Z. Wang, Y.I. Aristov, Composite “LiCl/MWCNT” as advanced water sorbent for thermal energy storage: Sorption dynamics, Solar Energy Materials and Solar Cells, 2018, 176: 273-279
8 Q.W. Pan, R.Z. Wang*, Z. S. Lu, & L. W. Wang, Experimental study of a thermally driven composite adsorption refrigerator, Heat Transfer Research, 2015, 46(4) : 333-345
7 N. Yu, R.Z. Wang*, Z.S. Lu, L.W. Wang, Study on consolidated composite sorbents impregnated with LiCl for thermal energy storage, International Journal of Heat and Mass Transfer, 2015, 84: 660-670
6 Q.W. Pan, R.Z. Wang*, Z.S. Lu, L.W. Wang, Experimental investigation of an adsorption refrigeration prototype with the working pair of composite adsorbent-ammonia, Applied Thermal Engineering, 2014, 72 : 275-282
5 F.T. Ishugah, R.Z. Wang*, L.W., Z.S. Lu, Performance improvement of an adsorption chiller using composite adsorbent, silica gel impregnated with lithium chloride, paired with methanol as the adsorbate, International Journal of Air-Conditioning and Refrigeration, 2014, 22(2): 1440001-14400014
4 Q.W. Pan , R.Z. Wang , Z.S. Lu, L.W. Wang, Thermodynamic analysis and performance simulation of different kinds of mass recovery processes applied in adsorption refrigeration system, HVAC&R Research, 2014, 20 : 311-319
3 H.S. Bao*, Y.D. Wang, C. Charalambous, Z.S. Lu, L.W. Wang, R.Z. Wang, A.P. Roskilly, Chemisorption cooling and electric power cogeneration system driven by low grade heat, Energy, 2014, 72: 590-598
2 N. Yu, R.Z.Wang, Z.S.Lu, L.W.Wang, Development and characterization of silicagel-LiCl composite sorbents for thermal energy storage, Chemical Engineering Science, 2014, 111: 73-84
1 N. Yu, R.Z. Wang*, Z.S. Lu, L.W. Wang, T.F. Ishugah, Evaluation of a three-phase sorption cycle for thermal energy storage, Energy, 2014, 67: 468-478
二、主编书籍
陆紫生, 高校实验室安全技术概论及多级立体管理制度体系, 2020, 开云网页登录
出版社, 上海, 中国
软件版权登记及专利
一、发明专利
30 发明专利,一种面向海岛的冷热电储水农微系统,CN202310770484.7 2023年10月6日
29 陆紫生等,发明专利, 多模态吸附性能测试系统 CN202210014715.7 2022年1月7日
28 陆紫生等,实用新型, 液位式海水淡化测量实验装置 CN202220030979.7 2022年1月7日
27 陆紫生等,实用新型, 基于风电的制氢燃料电池测量实验装置 CN202220030981.4 2022年1月7日
26 陆紫生, 发明专利, 一种吸附系统综合性能分析装置及基于该装置的分析方法,中国, ZL201610712159.5, 授权日期:2020年6月12日
25 陆紫生, 发明专利, 吸附剂分析装置及其联用分析方法, 2018.09, 中国, CN201811248245.0
24 陆紫生, 发明专利, 吸附平衡特性分析装置及其分析方法, 2018.09, 中国, CN201811326535.2
23 陆紫生, 发明专利, 宽温度范围均匀温场恒温箱系统与恒温方法, 2018.01, 中国,CN108295917A
22 陆紫生, 发明专利, 基于MOF材料的复合吸附剂及其制备方法, 2016.08, 中国, CN201610740796.3,授权日期:2018年12月28日
21 陆紫生, 发明专利, 相变连续加热吸附床系统, 2016.08, 中国, CN201610712215.5,授权日期:2019年6月21日
20 陆紫生, 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, 2016.08, 中国, CN201610712177.3
19 陆紫生, 发明专利, 四重热量回收紧凑型氨水制冷系统, 2016.08, 中国, CN201610712257.9,授权日期:2019年11月1日
18 陆紫生, 发明专利, 相变连续冷却吸附床系统, 2016.08, 中国, CN201610712213.6,授权日期:2019年8月9日
17 陆紫生, 发明专利, 采用PVT集热器进行吸附制冷与发电系统, 2016.08, 中国, CN201610712159.5, 授权公告日: 2020-06-12
16 陆紫生, 发明专利, 吸附床系统, 2016.08, 中国, CN201610695067.0,授权日期:2019年3月15日
15 陆紫生, 发明专利, 四重热量回收的氨水吸收制冷及发电系统, 2016.08, 中国, CN201610697410.5,授权日期:2018年9月21日
14 陆紫生, 发明专利, 连续吸附制冷与发电系统, 2016.08, 中国, CN201610697367.2,授权日期:2018年9月21日
13 陆紫生, 发明专利, 基于PVT的制冷与发电系统, 2016.08, 中国, CN201610694915.6,授权日期:2019年1月11日
12 陆紫生, 发明专利, 太阳能驱动高效吸湿-热化学反应单级空调系统, 2014.07, 中国, CN201410345561.5,授权日期:2017年1月18日
11 陆紫生, 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, 2014.07, 中国, CN201410345121.X,授权日期:2017年2月1日
10 陆紫生, 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, 2014.07, 中国, CN201410347934.2,授权日期:2016年5月25日
9 陆紫生, 发明专利,一种太阳能驱动高效吸湿-热化学反应热泵系统, 2014.07, 中国, CN201410347357.7,授权日期:2016年5月25日
8 陆紫生, 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,2014.07, 中国, CN201410345109.9,终止日:2019年2月22日
7 陆紫生,王如竹,王丽伟,陈传涓,发明专利, 采用复合吸附剂的热管回热型发生器,中国, CN1696591,终止日:2012年7月25日
6 陆紫生,夏再忠,王如竹,发明专利, 船舶废气驱动的氨水吸收式制冷机, 中国, CN101915478A,终止日:2015年9月30日
5 陆紫生,夏再忠,王如竹,吴启斌等,发明专利, 制冷剂自动平衡的-水吸附制冷机,中国, CN101818962A,终止日:2016年6月15日
4 吴静怡 ;李雪元 ;许煜雄 ;黄永华 ;张良俊 ;胡燕飞 ;陆紫生 ;徐烈 ;蔡爱峰 ; 一种大型高低温环境模拟试验室箱内舱体结构, 201310532880.2, 授权日期2016.04.06
3 吴静怡 ;许煜雄 ;黄永华 ;张良俊 ;陆紫生 ;胡燕飞 ; 用于高低温环境模拟试验箱的保温结构,CN201310525914.5,授权日期 2016.04.06
2 吴静怡 ;许煜雄 ;黄永华 ;张良俊 ;胡燕飞 ;杨光 ;陆紫生 ;徐烈 ; 一种大型高低温保温箱体 CN201310531111.0 授权日期2015.10.14
1 王如竹 ;李程 ;陆紫生 ;翟晓强 ; 可再生卫生间吸附除臭装置 CN200910310626.1 授权日期2009.11.30