近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1. 卫宝立, 王琳, 冯美军. 路面清扫控制径流重金属污染研究 [J]. 中国海洋大学学报, 2015,45(5): 82-86.
2. 王琳,王丽,《好氧颗粒污泥》,北京:科学出版社 2014
3. 冯美军, 王琳, 卫宝立. 路面颗粒物粒度分布及其对重金属的吸附研究[J]. 中国给水排水, 2013, 29(23): 121-123.
4. 王晋,王琳, 展威,等. TPLP模型-一种湖库富营养化评价模型的原理与应用 [J]. 中国人口·资源与环境, 2015, S5: 26-29.
5. 王琳,展威,王晋. Zn胁迫下菖蒲的耐受机制及富集能力的研究. 环境工程, 2014(S1): 970-974+1023
6. 周玲玲,王琳, 余静. 基于水足迹理论的即墨市水资源可持续利用对策研究,中国海洋大学学报(自然科学版),第 44 卷,第 11 期,95-100,2014
7. 周玲玲,王琳,刘伟峰,余静. 基于客观组合赋权法的即墨市水资源可持续利用评价,水资源与水工程学报, 第 25 卷,第 4 期,50-55,2014
8. 周玲玲,王琳. 基于水足迹理论的水资源可持续利用评价体系,资源科学,第 36 卷,第 5 期,0913-0921,2014
9. 周玲玲,王琳,王晋.水足迹理论研究综述,水资源与水工程学报,第 24 卷,第 5 期,106-111,2013
10. 王琳, 窦娜莎. Biostyr 曝气生物滤池处理城市污水的影响因素.中国给水排水,2013(15);
11. 窦娜莎, 王琳. Biostyr 曝气生物滤池处理城市污水的沿程生化特性研究.环境工程学报,2013,7(8):2942-2946.
12. 张娜,王琳,A~2/O淹没式生物膜工艺处理城镇污水的研究,水处理技术,2012(02) 65-68;
13. 王琳,卫宝立,滨州高速公路径流污染特征分析,环境工程,2012 (S2): 494-497;
14. 王琳,马晓宁,宋凤鸣,栾志翔,山东省广饶县污水处理厂工艺对比研究,环境工程, 2012(s2): 79-81+87;
15. 窦娜莎,王琳.16S rDNA克隆文库法分析Biostyr曝气生物滤池处理城市污水的细菌多样性研究,环境科学学报[J],2011,31(10):2117- 2124;
16. 王琳,张海玲,林跃梅,活性污泥中提取的藻酸作为铜吸附剂的研究,中国给水排水, 2011(5):64-67;
17.王琳,张娜.A2/O工艺厌氧池有机物降解动力学模型对比研究.环境工程,2011 (S1)
18.张海玲,林跃梅,王琳,好氧颗粒污泥细菌藻酸盐对Cu~(2+)的生物吸附和机制探讨,环境科学,2010( 03);
19. 王琳,张海玲,林跃梅,厌氧颗粒污泥藻酸盐对铜离子的吸附研究,环境工程学报,2010(01):5。
20. 王琳,明磊,张伟,黄旭达,城市污水铁盐混凝预处理实验研究[J], 河南科学,2010(5)。
21. 王琳,张海玲,林跃梅,生物膜细菌藻酸盐对Cu~(2+)的吸附动力学研究,环境污染与防治,2009(10):15;
22. 王琳,张海玲, 林跃梅. 藻酸盐对重金属的吸附研究进展[J].环境污染与防治 2009(10).
23. 王琳,李煜. 酸度对好氧颗粒污泥生物吸附含铅废水影响的研究[J]. 环境工程学报,2009(7).
24. 王琳,李煜. 活性污泥和颗粒污泥生物吸附废水中Pb~(2+)的对比研究[J]. 中国海洋大学学报(自然科学版),2009,(3).
25. 杨杰军,王琳,王成见,黄绪达. 中国北方河流环境容量核算方法研究[J]. 水利学报,2009,(2)
26. 王琳, 窦娜莎,黄旭达,5.12大地震后北川县任家坪过渡安置板房区排洪工程[J],给水排水,2009,(11)
27. 王琳,杨杰军,黄绪达,王成见. 山东省胶州市水污染现状分析与控制对策[J].中国给水排水,2009,(2).
28. 林跃梅,王琳.好氧颗粒污泥藻酸盐提取物的聚集形态[J]. 环境科学,2008,29(5):29-34;
29. 王琳,张海玲, 林跃梅. 一种新型铜吸附剂:活性污泥藻酸盐[J]. 中国给水排水 2008(7)
30. 王琳, 林跃梅. 芽孢对提高好氧颗粒污泥环境耐受力的作用[J]. 中国海洋大学学报,2008,38(6):961-964
31. 李甲亮,陆兆华,王琳等. 芦苇湿地酶活性动态变化及其与净化功能相关性. 中国海洋大学学报(自然科学版), 2008(03): 483-488
32. 孙磊,王琳,元新艳,李世峰. MBR处理生活污水启动阶段的膜污染分析与对策[J]. 中国给水排水,2008,(21).
33. 王琳,曹敏,张炯. 济南市玉绣河水环境容量及排污控制分析[J].给水排水,2008,(S1)
34. 元新艳,王琳,孙磊,李世峰. 膜生物反应器在生活社区中水站的应用[J]. 中国给水排水,2008,(6).
35. 林跃梅,王琳. 好氧颗粒污泥藻酸盐提取物的聚集形态研究[J]. 环境科学,2008,(5).
36. 王琳,元新艳,孙磊,李世峰. 低有机负荷对SMBR系统的影响[J]. 中国海洋大学学报(自然科学版),2008,(3).
37. 曹敏,王琳,齐云婷,穆丹. 城市河道水质模拟研究[J]. 环境研究与监测,2008,(1).
38. 王琳,张炯,方娟. 分散式污水处理单元改善城市河道水环境的尝试[J].安全与环境工程,2008,(1).
39. 黄旭达,王琳,王洪辉. 麦岛污水处理厂BIOSTYR高效生物滤池设计[J].中国给水排水,2007,(24).
40. 黄绪达,王琳,青岛市麦岛污水处理厂扩建工程设计.给水排水,2007,(33)9:31-34.
41. 王正, 王琳,王宝贞,蒋轶锋,刘硕. 活性污泥中臭氧传质效率的理论分析与实验研究. 环境科学. 2007,28(8):55-61.(EI)
42. 王丽,王琳,王宝贞,刘硕,王正. 复合塘-湿地生态系统处理草浆造纸中段废水运行效果[J]. 中国造纸,2007,(6).
43. 王琳, 《滨海城市水资源保护与管理》(英文版), 中国海洋大学出版社 2007
45. 王正,王琳,王宝贞,蒋轶锋,刘硕. 臭氧污泥减量过程中混合液各参数的变化[J].城市环境与城市生态,2007,20(3):11-14.
46. 黄旭达,王琳. 青岛市麦岛污水处理厂扩建工程设计[J].给水排水,2007,Vol.33 No.9 pp31-34;
47. 王琳,林跃梅. 好氧颗粒污泥中细菌藻酸盐的提取与鉴定[J].中国给水排水,2007,Vol. 23 No. 24 pp 88-91;
48. 范迪,王琳,王娟. 新型复合混凝脱色剂处理印染废水试验研究[J].环境科学,2007,28(6):1285-1289.
49. 王丽,王琳,王宝贞. 污泥臭氧减量对淹没式生物膜工艺运行效能的影响[J].现代化工,2007,(1).
50. 李甲亮,王琳,吴水波. 青岛高校用水与节水现状调查与模式研究[J]. 水资源保护,2007,(2).
51. 李甲亮,王琳,陆兆华,陈平. 用于高校优质中水原位处理的设备研究[J].环境工程学报,2007,(11):
52. 李煜, 王琳. 厌氧颗粒污泥处理低浓度含铅(II)废水研究. 青岛理工大学学报.2007(28):534-537. (中文核心期刊)
53. 王琳,宫兆国,张炯,李永昌. 综合指标法评价城市河流生态系统健康[J].中国给水排水,2007,(10);
54. 王琳,元新艳,李世峰. 生活小区污水处理膜生物反应器设计[J].环境工程,2006 24(3):79-80;
55. 孙德栋,王琳. 利用臭氧化实现污泥的减量[J].水处理技术,2006,(6)
56. 丁永伟,王琳,王宝贞,刘硕,王正. 用复合式工艺提高活性污泥/生物膜法处理效率[J]. 中国给水排水,2006,(11).
57. 王琳, 孙磊, 林跃梅. 好氧颗粒污泥系统快速启动试验研究[J].中国海洋大学学报(自然科学版)2006,Vol.36 No.2 pp299-302
58. 刘晓云,王琳,林跃枚,谭金山,范瑞青. 好氧颗粒污泥胞外多糖的细胞化学定位研究[J]. 电子显微学报,2006,(S1).
59. 刘晓云,王琳,林跃梅,透射电镜技术在好氧污泥颗粒超微结构研究中的应用[J].中国海洋大学学报(自然科学版)2006 Vol.36 No.5 P.817-820
60. 丁永伟,王琳,王宝贞. 复合式A~2/O工艺中污泥沉降特性及污泥减量研究[J]. 水处理技术,2006,(8).
61. 王琳,孙德栋,黄海萍. 利用臭氧氧化实现复合生物反应器污泥减量[J].中国海洋大学学报(自然科学版),2006,(5).
62. 孙德栋,王琳,黄海萍. 污泥减量过程中臭氧氧化对消化和反硝化影响的实验研究[J].环境污染与防治2006,(3)
63. 丁永伟 ,王琳 ,王宝贞. 活性污泥和生物膜联合工艺在污水处理厂改造中的应用[J].给水排水,2005,12:41-46
64. 王琳, 杨杰军,宫兆国,刘艳玲.水资源综合规划中的城市节水——以青岛市沙子口区域为例[J].中国水利, 2005年13期.
65. 蒋轶锋,王琳,王宝贞, 刘硕, 王正. 污泥臭氧化对MBR运行效能的影响[J].中国环境科学,2005年05期
66. 王琳, 《发展中国家城市污水管理(Municipal Wastewater Management in Development Countries)》 第十章, 国际水协会出版社, 2005 (English Version)
67. 李甲亮,王琳. 污水人工湿地处理对滨海湿地生态修复研究进展[J].地质灾害与环境保护,2005,16(3):
68. 李甲亮,王琳,宫兆国. 燃煤电厂生态电力工业园区建设探讨[J].能源环境保护,2005,(2).
69. 张开海 王琳. 淹没式膜生物反应器处理城市污水和回用的中试研究[J].给水排水, 2005年 05期
70. 王琳,孙德栋. 臭氧化污泥的实验研究[J].环境污染与防治,Wol 27(2):99-102, 2005;
71. 刘艳萍,王琳. 低污染纳滤膜进行淋浴水回用的中试研究[J].哈尔滨工业大学学报,2005年05期5-9;
72. 刘研萍,王琳, 王宝贞, 刘硕. 一体化纳滤设备处理生活污水的中试研究[J].水处理技术. 2005, 31(1): 41~45
73. 王宝贞, 王琳, 《垃圾渗滤液处理技术》,北京:化学工业出版社,2005
74. 王宝贞,王琳,丁永伟,等.污水处理生态系统的研究与工程实践 [A]. 2005 中国国际水处理技术高级专家论坛,中国水污染治理技术装备论文集 [C]. 北京:中国环境保护产业协会污染治理委员会(CWPCC), 2005,20-28.
75. 王琳,孙德栋. 臭氧氧化分解污泥的试验研究[J]. 中国海洋大学学报(自然科学版),2005年01期
76. 丁永伟,王琳,王宝贞等. 活性污泥和生物膜复合工艺的应用[J]. 中国给水排水,2005,21(8):30~33
77. 刘艳萍,王琳.膜生物反应器污染及防治[J]. 工业水处理技术 2004年6期:
78. 王琳,宫照国,王为达,刘艳玲. 崂山区中水利用规划[A]. 第4届流域管理和城市供水国际会议[C]. 2004:.
79. 刘研萍,王琳,王宝贞. 压缩活性炭与超滤工艺用于优质饮用水的研究[J].中国给水排水. 2004, 20(11): 39~42
80. 王宝贞,王琳,包焕忠,刘硕,丁永伟,彭建峰,石雷. 污水处理与利用生态系统最近研究与工程实践[A]. 第4届流域管理和城市供水国际会议[C].2004:.
81. 王建玲,王琳,张景成. 洗车废水再生回用工艺改造[J].中国给水排水,2003,19(8):90-91;
82. 王琳, 王宝贞,《分散式污水处理与回用》,北京:化学工业出版社 2003
83. 王宝贞,王琳,《水污染控制新技术》,北京:科学出版社 2003
84. 王琳,王宝贞. 利用臭氧氧化实现污泥减量[J].中国给水排水, 19(5):38-40,2003;
85. 何圣兵,王宝贞,王琳,崔洪升.厌氧—好氧生物膜处理污水、污泥的研究[J].中国给水排水2002, 18(9):39-42
86. 何圣兵,王宝贞,王琳. 生物膜-膜生物反应器处理生活污水的试验研究[J]. 给水排水,28(11),2002,21-24;
87. 王琳,王宝贞,《饮用水深度处理技术》,北京:化学工业出版社 2002
88. 王宝贞,王琳,《水与废水的深度氧化处理技术》,南京:河海大学出版社,2000
89. 王琳,王宝贞,《优质饮用水净化技术》,北京:科学出版社 2000
90. 王宝贞,李高奇,王琳. 淹没式生物膜处理生活污水的运行实验研究[J].中国给水排水,2000,16(3):16-19;
91. 王宝贞,王琳,祁佩时.生态塘系统分析及生物种属合理组成的设想 [J]. 污染防治技术,2000,13(2):74-76.
92. 彭剑峰, 王宝贞, 王琳. Multi-stage ponds-wetlands ecosystem for effective wastewater treatment [J]. 浙江大学学报(英文版). 2005, 68(5): 346-352.
93. 王琳,王宝贞,徐景影,王绍文. 用革新技术改善水处理厂运行性能[J].中国环境科学,2000,21(2);
94. 王琳, 王宝贞. 污泥减量技术的新进展[J]. 污染防治技术,2000,13(1):48-50;
95. 王琳, 王宝贞. 安全优质饮用水[J]. 城市环境与城市生态,2000,13(1):1-3;
96. 王琳, 王宝贞. 纳滤-高效去除水中有机污染的新方法[J].污染防治技术,12(3):162-164,1999;
97. 王琳、王宝贞、王新泽,新型膜在饮用水深度净化中的应用[J].哈尔滨建筑大学学报,32(6):1-4,1999;
98. 王琳,王宝贞,膜与臭氧化生物活性炭组合系统的运行效能[J].中国环境科学, 1999,19(6):566-568;
99. 王宝贞,王琳,杨鲁豫,污水处理与利用生态系统的研究与工程实践,研究报告与论文,21世纪中国城市水管理国际研讨会,北京:中华人民共和国建设部,1999年9月,pp2-(95-99)
100. 王宝贞,王琳,时双喜,水源与饮用水中病原原生动物的危害及其控制[J].哈尔滨建筑大学学报,32(5):43-46,1999;
101. 王琳,王宝贞,马放,李伟光,张金松,孙建平,臭氧化-生物活性炭净化水厂的运行效能[J].中国环境科学,18(6):552-556;
102. 王宝贞,王琳,时双喜,水源与饮用水中病原原生动物的危害及其检测方法[J].哈尔滨建筑大学学报,Vol.32,No.5 pp.43-47,1999;
103. 王琳,聂梅生,王宝贞“饮用水深度净化技术对比实验研究” 《居住区环境质量及保障技术论文集-‘98全国居住区环境质量保障技术和设备研讨会》pp.63-68,1998
104. 王琳,聂梅生“饮用水的生物稳定与细菌控制技术”《居住区环境质量及保障技术论文集-‘98全国居住区环境质量保障技术和设备研讨会》pp.68-73, 1998
105. 王宝贞,王琳,马放,李伟光等“小区优质饮用水净化水厂运行试验研究” 《居住区环境质量及保障技术论文集-‘98全国居住区环境质量保障技术和设备研讨会》pp.58-63,1998
106. 王琳,聂梅生,王宝贞“深度氧化技术及其在污水处理中的应用”污染防治技术,Vol. 11, No. 39, pp.25-27, 1998
107. 王琳,王宝贞李军“垃圾填埋渗滤液的处理方法”城市环境与城市生态Vol. 11, No. 1, pp.25-27, 1998
108. 王琳,孙盛成“深度氧化技术及其在垃圾填埋渗滤液的处理中的应用” 哈尔滨建筑大学学报Vol. 31, No. 116, pp. 63-66, 1998;
109. 王宝贞,王琳,杨鲁豫,万玉衡“生态塘-简易高效的污水处理技术设计应用”城市环境与城市生态Vol. 11, No. 1, pp.25-27, 1998;
110. 王宝贞,王琳, 时双喜“延时曝气淹没式生物膜法同时去除有机物和氮的工艺研究”哈尔滨建筑大学学报Vol. 29, No. 5, pp. 5-10, 1996;
111. 聂梅生,王琳,王宝贞“饮用水深度净化技术对比研究”哈尔滨建筑大学学报Vol. 29, No. 5, pp. 10-16, 1996;
112. 王绍文,吴建松,王琳“论絮凝的动力学致因”给水与废水处理国际会议论文集,1994
113. Lin Wang, Baoli Wei, Meijun Feng. Prediction on effectiveness of road sweeping for highway runoff pollution control [J]. Journal of Southeast University (English Edition), 2014, 30(2): 255-260.
114. Dou Nasha, Wang Lin. Microbial Community Diversity of Full-scale Biological Aerated Filter for Domestic Wastewater. International conference on engrgy and environment engineering, 2015: 228-233.
115. Wang Lin, Wei Baoli. A Review: Research on Highway Runoff Pollution [C]. London: Taylor & Francis Group, 2012: 340-344
116. Wang, Lin; Pang, Yasong,A Review of Regional Ecological Security Evaluation 2nd International Conference on Civil Engineering, Architecture and Building Materials (CEABM 2012), 2012/5/25-2012/5/27, pp 337-344, Yantai, PEOPLES R CHINA, 2012.
117. Wang Lin, Li Yu, Ecological Stoichiometry of Microbial Interactions in Aquatic Ecosystems, Proceedings of the 6th National Ph.D. Candidates Academic Conference New Theories and New Technologies in Environmental Science and Engineering. Beijing, China, October 2012, 6004.
118. WANG Lin,Li Yu. Biosorption behavior and mechanism of lead (II) from aqueous solution by aerobic granules (AG) and bacterial alginate (BA). Journal of Ocean University of China, 2012 (11):495-500.
119. Wang Lin, Ma Xiaoning, The study of operation and dynamic on the modified A2/O Process, Applied Mechanics and materials Vols. 178-181(2012)pp.591-598;
120. Wang Jianchun, Wang Lin, Wang Xiaohu, etc. A Study on the Strategy of Sustainable of Development of Chemical Industry of Shandong Province. Energy Procedia. Vol 5(2011)pp962-968;
121. Dou nasha, Wang Lin, Huang Xuda, Effect of Operation Parameters on the Performance of Biological Aerated Filter in a Full-Scale Wastewater Treatment Plant International Conference on Bio-information and biomedical engineering, ICBBE pp1-4, 2011
122. Huang Xuda, Wang Lin, Thelisson Remi, Wang Weiyan, Elliott Mark. A holistic approach to odor control. Water and Wastewater International, 2009, 23(6):26-31;
123. Zhang Hai Ling, Lin Yue Mei and Wang Lin. Biosorption of copper by calcium alginate from excess activated sludge, Environmental Technology, 2009, 30: 13, 1461-1467.
124. Lin Y. M., Wang L., Chi Z. M., et al. Bacterial alginate role in aerobic granular bio-particles formation and settleability improvement. Separation Science and Technology, 2008, 7: 1642-1652;
125. Lin, Y. M., Wang, L., Chi, Z. M., Liu, X. Y, Bacterial alginate role in aerobic granular bio-particles formation and settleability improvement ,IWA International Conference on Particle Separation, pp 1642-1652, 2008(ISTP).
126. Z. Wang, Lin Wang, B. Z. Wang, S. Liu, Y. F. Jiang. Bench-scale study on zero excess activated sludge production process coupled with ozonation unit in membrane bioreactor. Journal of Environmental Science and Health, Part A. (In press)(SCI)
127. Wang Z. Lin Wang, Wang B. Z. Liu S. Jiang Y. F. Experimental study on zero excess sludge production process with ozonation unit in MBR process. Journal of Harbin Institute of Technology. (In press)
128. Lin Wang, YM. Lin, Spore detection in aerobic granules by different dipicolinic acid releasing methods, Bioresource Technology, 2007, 98:3164-3167
129. WANG Z. Lin WANG WANG BZ. JIANG YF. LIU S. The pattern of some important parameters in excess activated sludge reduction by ozonation. IWA Water Congress 2006. (Accepted, short platform presentation) NO.594212.
130. Lin Wang, W.D. Wang, Z.G. Gong, Integrity of local Ecosystems and storm water management in residential areas, Journal of ocean university of china, 2006, 5(4):363-368;
131. Lin Wang, W.D. Wang, Z.G. Gong, Y.L. Liu, J.J. Zhang, Integraged management of water and ecology in urban area of Laoshan district, Qingdao, China, Ecological Engineering, 2006 Vol. 27(2): 79-83;
132. Ding Y.W. L. Wang, B.Z. Wang, Removal of nitrogen and phosphorus in a combined A2/O-BAF system with a short aerobic SRT, Journal of Environmental Sciences 2006, 18(6):1082-1087;
133. Wang Lin. Peng, I. Wang, B. Yang, L. Design and operation of an eco-system for municipal wastewater treatment and utilization. Water Science and Technology,2006,54(11-12):429-436;
134. Peng Jianfeng, B.Z. Wang, L. Wang, Multi-stage ponds-wetlands ecosystem for effective wastewater treatment, Journal of Zhejiang University SCIENCE, 2005 6B(5):346-352;
135. Y. Liu, Lin. Wang, B. Wang, H.Cui and C.C. chuang, Performance improvement of hybrid membrane bioractor with PAC addition for water reuse, Water Science and Technology, 52(10-11):383-391;
136. B. Wang, S.He, L. Wang, Simultaneous nitrification and denitrification in MBR, Water Science and Technology, 52(10-11):435-442;
137. Lin Wang, J. Peng, B. Wang and R. Cao, Performance of a combined eco-system of pond and constructed wetlands for wastewater reclamation and reuse, Water Science and Technology, 51(12):315-323, 2005;
138. B. Wang. P.Q., Lin Wang, W. Lu, S. liu, and F, Zhao, Performance of an intensive pond system treating municipal wastewater in a cold region, Water Science and Technology, 51(12):51-61, 2005;
139. Baozhen Wang, Lin Wang, Hong Du, Jun Li and Huanzheng Bao, Examine the rapid development of wastewater treatment facilities in China, IWA Yearbook, 2005:29-32;
140. Jiang yifeng, Wang Lin, 2004, Biological nitrogen removal with enhanced phosphate uptake in (AO)2 SBR using single sludge system. Journal of Environmental Science, Vol. 16, No. 6 pp:1037-1040,2004;
141. PENG Jiang-feng, WANG Bao-zhen, WANG Lin, et al. Performance of a combined system of ponds and constructed wetlands for wastewater reclamation and reuse [A]. Internationalconference on waste stabilization ponds Avignon, France, 2004 [C]. France: EEC by Cemagref, Antony Cedex, 2004.189-199.
142. Wang Lin, Wang Weida, 2004, Water conservation and management planning for Laoshan, Water 21, October 2004, 24-27;
143. WANG Lin, WANG Baozhen, PENG Jiangfeng and YANG Luyu (2004), Design and operation of the ecological ponds-wetland system for municipal wastewater reclamation and reuse, to be orally presented at the 4th IWA World Water Congress in Marrakech, Morocco, 19-24 September 2004, in Proceedings of the 4th IWA world Water Congress;
144. WANG Xinze, WANG Baozhen and WANG Lin (2004), “Application research of GAC-MF for advanced Drinking water treatment”, ibid. (as above);
145. WANG Chunrong, WANG Baozhen and WANG Lin (2004), “Nitrogen loss in BAF under the conditions of no carbon source and limited oxygen”, ibid( as above).;
146. Wang Lin, Liu Yangping, Wang Baozhen, Water basin management for Nansi Lake, Shandong, Journal of Water Supply and Technology-Aqua, 2004,Vol,53, No.217-28;
147. Wang Lin, Wang li and Jiang Yifeng, Performance of Wuxi WWTP in China (2003), Journal of Ocean University of Qingdao, 2003:Vol.2, No.2 pp. 224-229
148. He sheng-bing, Wang bao-zhen, Wang lin. Experimental studies on minimization of sludge production by ozonation process. Journal of Donghua University (English Edition). 2003,20(2)
149. He sheng-bing, Wang bao-zhen, Wang lin, Jiang yi-feng. An novel approach to treat combined domestic wastewater and excess sludge in MBR. Journal of Environmental Science. 2003,15(5):674~679
150. He sheng-bing, Wang lin, Jiang yi-feng, Wang bao-zhen. An innovative process to treat both wastewater and excess activated sludge. Water Sci. & Tech.
151. L. Wang, B.Z. Wang, D. Wang, W.J. Zhang, Y.N. Yang and Y.W .Du, Performance of an advanced water treatment plant for removing Fe, Mn and organic pollutants from Raw water, AQUA, 51(4)209-216, 2002;
152. X.Z. Wang, B.Z. Wang and L. Wang, Application research of GAC-UF system in advanced drinking water treatment. Proceedings and CD-ROM (E20154a) of World Water Congress in Melbourne, April 6-10, 2002;
153. B.Z Wang, L. Wang, P.S. Qi, G.Q. Li, and W.J. Zhang, Municipal Wastewater reclamation and reuse with some case studies, Proceedings and CD-ROM (E20162a) of World Water Congress in Melbourne, April 6-10, 2002;
154. S.B.He, B.Z.Wang and L. Wang, Simultaneous nitrification and denitrification in MBR. Proceedings and CD-ROM (E20662a) of World Water Congress in Melbourne, April 6-10, 2002;
155. L.Wang, B.Z.Wang and L.Y. Yang, Eco-systems for wastewater treatment and utilizationwith a case study. Proceedings and CD-ROM (E20117a) of World Water Congress in Melbourne, April 6-10, 2002;
156. L.Wang, B.Z.Wang and L.Y. Yang, Eco-systems for wastewater treatment and utilizationwith a case study. Proceedings and CD-ROM (E20117a) of World Water Congress in Melbourne, April 6-10, 2002;
157. WANG Lin, Wang Baozhen, Yang Yunan, Evaluation of By-product removal by Ames and GC/MS. Oral Presentation Proceedings of IWA water congress in Berlin 15-19 October, 2001.
158. Kaixiong Wang, Xiaohui Bai,Lin Wang, Bashiru M.Koroma,Xiaoshan Feng, Baozhen Wang, CEB Receptor Model for multiple sources of inorganic pollutants monitoring in water body, Oral presentation proceedings of IWA water congress in Berlin 15-19 October, 2001.
159. Baozhen Wang, Lin Wang, A twin approach to wastewater treatment, China outlook, International Water Association, 2001 Yearbook
160. Lin Wang, Baozhen Wang, Luyu Yang, Peishi Qi, Wenyi Dong and Ailin Dai, Eco-pond systems for wastewater treatment utilization, Water 21, August 2001, 60-64;
161. Baozhen WANG, Lin WANG and Xuhong Liu, Performance and mechanisms of activated carbon in mercury, chromium and cadmium removal from polluted water, European Water Management, 4(3):31-34, 2001;
162. Baozhen WANG, Lin WANG and Luyu YANG, Case studies on municipal wastewater reclamation and reuse in china, Proceedings of Asian Conference on Water and Wastewater in Tehran, Iran 7-10, May 2001;
163. Lin WANG, baozhen WANG and luyu YANG, Necessity and availability of wastewater reclamation and reuse in china with case study, Proceedings of Asian Conference on Water and Wastewater in Tehran, Iran 7-10, May 2001
164. Lin Wang, Wang Baozhen, Liu Xuehong, Performance and mechanism of removal mercury, chromium and cadmium by activated carbon, Proceeding of IWA conference in Beijing 2000 September 15-20, to be published in Water Research and Technology.
165. Wang Baozhen, Lin Wang, R Yang, P Qui, F Ma, M Zhou, Performance of dairy wastewater treatment with hybrid anaerobic reactor, Proceedings of 1st World Water Congress of the International Water Association (IWA), 3-7 July 2000, in Paris.
166. Wang Baozhen, Wang Lin, Yang Ruyu, Case Studies on Pond Ecosystems for Wastewater Treatment and Utilization in China, Global Water and Wastewater Technology, August, 1999, pp. 64-71;
167. LinWang Wang, B. Z., Li, W. G., Ma, F., and Sun, J. P., (1999) Performance of a full scale advanced treatment plant using ozonation, BAC and Muyushi mineral filtration processes European Water Management;Vol.2,No.2,1999;
168. Lin Wang and Baozhen Wang, “Pollution of water sources and pollutants removal by advanced treatment processes in China”, Proceedings of WHO Water, Soil & Health Edited by J Chorus, U. Ringelband, G. Schlag and O. Schmoll. Published by IWA publishing in 2000, pp.413-419.
169. D.Y. Jin, B.Z. Wang and Lin Wang “Design and operation of a wastewater treatment plant treating low concentration of municipal wastewater” Water Science & Technology 38(3) 167-172(1998);
170. Baozhen Wang, Jun Li, Lin Wang, “Mechanism of Phosphorus Removal by SBR Submerged Biofilm System” Water Research, 32(9):2633-2638, 1998;
171. Baozhen Wang, Jun Li, Lin Wang and Ji Li “Simultaneous phosphorus and partial nitrogen removal by submerged biofilm SBR system” Poster at IAWQ 19th Biennial Conference in Vancouver 21-28, July 1998
172. lin wang, B.Z. Wang, J. Li, J.S. Zhang, F. Ma, W. G. Li and J. P. Sun “Operational performance of a full scale advanced water treatment plant using ozonation and BAC processes” Poster at IAWQ 19th Biennial Conference in Vancouver 21-28, July 1998
173. Lin wang, B.Z. Wang, J. Li, J.S. Zhang, F. Ma, W. G. Li and J. P. Sun “Performance of an advanced water treatment plant using ozonation and BAC processes” Proceedings of Asian Conference on Water and Wastewater in Tehran, Iran 1-4, March 1998
174. Lin WANG, Meisheng NIE, Baozhen WANG, Xilin ZHANG, Ji Li and Juwei LAI “Improvement of potable water by advanced treatment technologies” Proceedings of Asian Conference on Water and Wastewater in Tehran, Iran 1-4, March 1998
175. Baozhen WANG, Chengwu WANG and Lin Wang “Treatment of leachate by A (activated sludge)/B(A/O submerged biofilm)hybrid system” Proceedings of Asian Conference on Water and Wastewater in Tehran, Iran 1-4, March 1998
176. Baozheng Wang, Gaoqi Li, Lin Wang, Jianwen Shi and Ji li “Treatment of wastewater from a dye-printing factory in China by a physicochemical-biological system” EuropeanWater Management Vol. 1, Number 1, 1998
177. BZ. Wang, J Li, Lin Wang, HJ Zhao, XD Cao and J Li, “ Pilot scale study on the treatment of high strength sanitary landfill leachate”, Regional Workshop on New Development of Industrial Wastewater Treatment TechnologySep. 19-20 1997, The Hong Kong Polytechnic University, Hong Kong
178. B. Z. Wang, J. Li, Lin Wang, et al., “ A Pilot Scale Study on the Treatment of High Strength Sanitary Landfill Leachate”, European Water Pollution Control, 7(6):33-39,1997
179. Baozhen WANG and Lin WANG“Environmental management strategy and technology opportunity in china”, Seminar on A Strategic Framework for sound environment Management, at Institute for Environment technology, Nanyang university of Technology Singapore. 11-12 July 1996