1、Xufei Liu, Lin Zhang*, Yaqing Du, et al. Microplastics in China’s surface water systems: Distribution, driving forces and ecological risk[J]. Journal of Hazardous Materials, 2025, 485:e136864.

2、Jiasen Zhang, Lin Zhang*, Xufei Liu, et al. Gravity-driven membrane based on solid waste for water purification: Manufacturing, XDLVO theory and algae removal evaluation[J]. Chemical Engineering Science, 2025, 311:e121589.

3、Mengxue Han, Lin Zhang*, Xiao Zhao, et al. Subsurface Irrigation With Ceramic Emitters Improved the Water Productivity and Nitrogen Use Efficiency of Greenhouse Melons[J].Irrigation and Drainage, 2025, 74(3):885-899.

4、Xue Yang, Lin Zhang*, Xufei Liu. Optimizing water-fertilizer integration with drip irrigation management to improve crop yield, water, and nitrogen use efficiency: A meta-analysis study[J]. Scientia Horticulturae, 2024, 338:e113653.

5、Xufei Liu, Lin Zhang*, Yaqing Du, et al. Spatiotemporal variations and the ecological risks of microplastics in the watersheds of China: Implying the impacts of the COVID-19 pandemic[J]. Science of The Total Environment, 2024, 951:e175988.

6、Yaqing Du, Lin Zhang*, Fuhui Yang, et al. Effects of algal organic matters on microporous ceramic emitters clogging in agricultural water distribution systems: Experiment and molecular simulation investigations [J]. Science of The Total Environment, 2024, 951:e175709.

7、Xufei Liu, Lin Zhang*, Yuli Sun, et al. A novel variable discharge emitter for irrigation and salt-leaching[J]. Biosystems Engineering, 2024, 246:178-182.

8、Jiasen Zhang, Lin Zhang*, Xufei Liu. Supplementary irrigation with ceramic emitter promotes Platycladus orientalis growth by enhancing soil bacterial α diversity under extremely high-temperature[J]. Agricultural Water Management, 2024, 301:e108958.

9、Xufei Liu, Lin Zhang*, Qi Liu, et al. In-situ supplementary irrigation device for afforestation under extreme high temperature: An exploration in North China [J]. Journal of Environmental Management, 2024, 361:e121240.

10、Xufei Liu, Lin Zhang*, Mengxue Han, et al. Flow rate uncertainty quantification of a microporous ceramic emitter[J]. Biosystems Engineering, 2024, 240:14-18.

11、Jiasen Zhang, Lin Zhang*, Xufei Liu, et al. Quantitative evaluation of soil water balanceunder a ridge-furrow rainwater harvestingsystem in Chinese rainfed agroecosystem[J]. Journal of Science of Food and Agriculture, 2024, 104(13):1-11.

12、Mengxue Han, Lin Zhang*, XiaoqiangLiu. Subsurface irrigation with ceramic emitters improves wolfberry yield and economic benefits on the Tibetan Plateau, China [J]. Journal of Arid Land, 2023, 15(11):1376-1390.

13、Yaqing Du, Wei Zhou, Lin Zhang*, et al. Gravity-driven membrane coupled with oxidation technology to modify the surface properties and biofilm formation: Biofouling mitigation[J]. Journal of Environmental Management, 2023, 345:e118444.

14、Mengxue Han, Jiasen Zhang, Lin Zhang*, et al. Effect of biochar addition on crop yield, water and nitrogen use efficiency: A meta-analysis[J]. Journal of Cleaner Production, 2023, 420:e138425.

15、Xufei Liu, Mengxue Han, Lin Zhang*, et al. A new subsurface ceramic emitter for smallholders without pumps: design, hydraulic performance, and field application [J]. Irrigation Science, 2023, 41:835-845.

16、Xufei Liu, Lin Zhang*, Chunhua Zhang, et al. Optimization algorithm for determining working water head of subsurface irrigation with ceramic emitters based on soil wetting patterns [J]. Computers and Electronics in Agriculture, 2023, 212:e108069.

17、Yaqing Du, Xufei Liu, Lin Zhang*,et al. Drip irrigation in agricultural saline-alkali land controls soil salinity and improves crop yield: Evidence from a global meta-analysis [J]. Science of The Total Environment, 2023, 880:e163226.

18、Xufei Liu, Lin Zhang*, Fuhui Yang, et al. Determining reclaimed water quality thresholds and farming practices to improve food crop yield: A meta-analysis combined with random forest model [J]. Science of The Total Environment, 2023, 862:e160774.

19、Xufei Liu, Lin Zhang*, Qi Liu, et al. Subsurface irrigation with ceramic emitters: Optimal working water head improves yield, fruit quality and water productivity of greenhouse tomato [J]. Scientia Horticulturae, 2023, 310:e111712.

20、Xufei Liu, Xuefei He, Lin Zhang*. Simplified method for estimating discharge ofmicroporous ceramic emitters for drip irrigation [J]. Biosystems Engineering, 2022, 219:38-55.

21、Boyang Fu, Yu Huang, Lin Zhang*. Estimating water distribution of the rotating sprinkler with pulsatingpressure on sloping land [J]. International Journal of Agricultural and Biological Engineering, 2022,15(2):39-47.

22、Xufei Liu, Lin Zhang*, Xuefei He. Emitter clogging characteristics underreclaimed wastewater drip irrigation:a meta-analysis[J]. Journal of Science of Food and Agriculture, 2022,102.

23、Xufei Liu, Lin Zhang*, Pute Wu, et al. A new small-scale system of rainwater harvesting combined with irrigationfor afforestation in mine area: Optimizing design and application [J].Journal of Environmental Management, 2022,322:e116129.

24、Lin Zhang, Boyang Fu, Xin Hu, et al. Simplified method for estimating throw radius of rotating sprinklers on sloping land[J].Irrigation Science, 2018,36(6) : 329-337.

25、Lin Zhang, Gary P. Merkley, Pute Wu, et al. Effect of catch-can spacing on calculation of  sprinkler irrigation application uniformity[J].Clean-Soil, Air, Water, 2018, 46(7) :1-6.   

26、Lin Zhang, Xin Hui, Junying Chen. Effect of terrain slope on water distribution and application uniformity for sprinkler irrigation[J].International Journal of Agricultural and Biological Engineering, 2018, 11(3) :120-125.

27、Lin Zhang, Pute Wu, Delan Zhu, et al. Effect of pulsating pressure on labyrinth emitter clogging[J].Irrigation Science, 2017,35(3) :267-274.                                                 

28、Lin Zhang, Pute Wu, Delan Zhu. Flow regime and head loss in a drip emitter equipped with a labyrinth channel[J].Journal of Hydrodynamics, 2016, 28(4):

610-616.                         

29、Lin Zhang, Gary P. Merkley, Kasem Pinthong. Assessing whole-field sprinkler irrigation application uniformity[J]. Irrigation Science, 2013,31(2): 87-105.

30、Lin Zhang, Pute Wu, Delan Zhu. Hydraulic design procedure for drip irrigation submain unit based on relative flow difference[J]. Irrigation Science, 2013,31(5):1065-1073.

31、Lin Zhang, Gary P. Merkley. Relationships between common irrigation application uniformity indicators[J]. Irrigation Science, 2012,30(2): 83-88.

32、Chunping Yao#, Lin Zhang#, Pute Wu*, et al. Clogging formation and an anti-clogging method in subsurface irrigationsystem with porous ceramic emitter [J].Agricultural Water Management, 2021, 250:e106770.

33、Wei Zhou#, Lin Zhang#, Pute Wu*, et al. Aneffective method for improving the permeation flux of a ceramic membrane:Single-matrix spherical ceramic membrane [J]. Journal of Hazardous Materials, 2020,400: 1-15.  

34、Wei Zhou#, Lin Zhang#, Pute Wu*, et al. Prepar ation of SiO2/Si3N4 ceramicswith step gradient porosity andheavy metal ion adsorption [J].CeramicsInternational, 2020, 46:13263-13271. 

35、Wei Zhou#, Lin Zhang#, Pute Wu*, et al.Hydraulic performance and parameteroptimisation of a microporousceramic emitter using computationalfluid dynamics, artificial neuralnetwork and multi-objective geneticalgorithm [J].Biosystems Engineering, 2020, 189:11-23.

36、张林，惠鑫，陈俊英. 坡地喷灌水滴直径与动能强度分布规律研究[J].农业机械学报，2018，49（6）：263-270.                                            

37、张林，惠鑫，陈俊英. 喷灌水量分布由平地向坡地转换的计算模型[J].农业机械学报，2018，49（7）：1-8. 

38、张林，吴普特，朱德兰，等.基于制造偏差的滴灌系统综合流量偏差率研究[J].农业机械学报，2013，44（12）：135-139.

39、张林，吴普特，朱德兰，等. 多点源滴灌条件下土壤水分运移模拟试验研究[J].排灌机械工程学报，2012，30(2)：237-243.                                                      

40、张林，吴普特，范兴科.多点源滴灌条件下土壤水分运动的数值模拟[J].农业工程学报，2010，26（9）：40-45. 

41、张林，范兴科，吴普特，等. 均匀坡度下考虑三偏差的滴灌系统流量偏差率的计算[J].农业工程学报，2009，25（4）：7-14.                                                       

42、张林，吴普特，牛文全，等. 均匀坡度下滴灌系统流量偏差率的计算方法[J].农业工程学报，2007 ，23（8）：40-44. 

43、陈俊英，刘畅，张林（通讯作者），向友珍，等. 斥水程度对脱水土壤水分特征曲线的影响[J].农业工程学报，2017，33（21）：188-193.                                                         

44、张以升，张林（通讯作者），朱德兰，等. 基于弹道理论坡地喷灌水量分布模拟及均匀度计算，农业工程学报，2016，32（13）：59-66.

45、张林，范兴科，吴普特，等.小流量微压滴灌条件下作物生长试验研究[J].灌溉排水学报，2010，29（2）：65-68.

46、张林，吴普特，范兴科，等.低压滴灌灌水均匀度试验研究[J].西北农林科技大学学报(自然科学版)，2009，37（12）：207-211.

47、张林，范兴科，吴普特.低压条件下滴灌灌水均匀度试验研究[J].灌溉排水学报，2008，27（5）：22-24.

出版专著

1、张林，吴普特，朱德兰，范兴科，小流量微压滴灌技术理论与实践，北京：中国水利水电出版社，2019

2、朱德兰，吴普特，张林，滴灌系统水力设计新方法，北京：中国水利水电出版社，2019

3、朱德兰，吴普特，张林，移动式喷灌水流运动特性及均匀度评价，北京：中国科学出版社，2018

4、吴普特，朱德兰，吕宏兴，张林，灌溉水力学引论，北京：中国科学出版社，2012

发明专利

1、张林，贺雪菲，吴普特，周伟，孙钰理，杨福慧，刘旭飞，韦轶骞一种滴灌灌水器的测试装置及测试方法，2025.12.02，中国，ZL202310130254.4

2、张林，王兆国，吴普特，周伟，贺雪菲，孙钰理，一种贴片式变量滴灌带自动化生产线，2025.12.02，中国，ZL202310598034.4

3、张林，贺雪菲，吴普特，周伟，孙钰理，杨福慧，刘旭飞，韦轶骞，一种数字化变量灌溉群控系统和数字化变量灌水器，2024.03.22，中国，ZL202310184319.3

4、张林，贺雪菲，吴普特，周伟，孙钰理，杨福慧，刘旭飞，韦轶骞，一种数字化变量灌溉群控方法，2024.04.26，中国，ZL202310188262.4

5、张林，吴普特，朱德兰，范兴科，一种滴灌灌水小区水力设计方法，2014.2.25，中国，ZL201310518792.7

6、张林，蔡耀辉，吴普特，朱德兰，吴守军，一种微孔陶瓷灌水器及其制备方法，2016.07.14，中国，ZL201610511677.0