已发表和接收论文:
(1) Changhui Wang*, Yu Wu, Leilei Bai, Yaqian Zhao, Zaisheng Yan, Helong Jiang*, Xin Liu, Recycling of Drinking Water Treatment Residue as An Additional Medium in Columns for Effective P Removal from Eutrophic Surface Water, Journal of Environmental Management 2018, Accepted.
(2) Changhui Wang*, Yu Wu, Youquan Wang, Leilei Bai, Helong Jiang*, Juhua Yu, Lanthanum-modified drinking water treatment residue for initial rapid and long-term equilibrium phosphorus immobilization to control eutrophication, Water Research 2018, 137, 173–183.
(3) Changhui Wang*, Yu Wu, Leilei Bai, Chunliu Wang, Helong Jiang*, Zixun Wei, Xingyu Wei, Zechen Yuan, Xin Liu, Intermittent Aeration Incubation of Drinking Water Treatment Residuals for Recycling in Aquatic Environment Remediation, Journal of Cleaner Production 2018, 183, 220–230.
(4) Changhui Wang, Rui He, Yu Wu, Miquel Lürling, Haiyuan Cai, He-Long Jiang*, Xin Liu, Bioavailable Phosphorus (P) Reduction is Less than Mobile P Immobilization in Lake Sediment for Eutrophication Control by Inactivating Agents, Water Research 2017, 109, 196–206.
(5) Changhui Wang, Nannan Yuan, Bai Leilei, He-Long Jiang*, Yuansheng Pei, Zaisheng Yan, Key factors related to drinking water treatment residue selection for adsorptive properties tuning via oxygen-limited heat treatment. Chemical Engineering Journal 2016, 36, 897–907.
(6) Changhui Wang, Helong Jiang*, Chemicals Used for In Situ Immobilization to Reduce the Internal Phosphorus Loading from Lake Sediments for Eutrophication Control, Critical Reviews in Environmental Science and Technology 2016, 46, 947–997.
(7) Changhui Wang, Leilei Bai, He-Long Jiang*, Huacheng Xu, Algal Bloom Sedimentation Induces Variable Control of Lake Eutrophication by Phosphorus Inactivating Agents, Science of the Total Environment 2016, 557–558, 479–488.
(8) Changhui Wang, He-Long Jiang*, Nannan Yuan, Yuansheng Pei, Zaisheng Yan, Tuning the Adsorptive Properties of Drinking Water Treatment Residue via Oxygen-limited Heat Treatment for Environmental Recycle, Chemical Engineering Journal 2016, 284, 571–581.
(9) Changhui Wang, He-Long Jiang*, Huacheng Xu, Hongbin Yin, Variation of Physicochemical Properties of Drinking Water Treatment Residuals and Phoslock? Induced by Fulvic acid Adsorption: Implication for Lake Restoration, Environmental Science and Pollution Research 2016, 23, 351–365.
(10) Changhui Wang, Nannan Yuan, Yuansheng Pei, He-Long Jiang*, Aging of Aluminum/Iron-based Drinking Water Treatment Residuals in Lake Water and Their Association with Phosphorus Immobilization Capability, Journal of Environmental Management 2015, 159, 178–185.
(11) Changhui Wang, Yuansheng Pei*, Yaqian Zhao, Comparison of Metal Lability in Air-dried and Fresh Dewatered Drinking Water Treatment Residuals, Journal of Environmental Science and Health, Part A 2015, 50, 135–143.
(12) Changhui Wang, Leilei Bai, Yuansheng Pei*, L.A. Wendling, Comparison of Metals Extractability from Al/Fe-based Drinking Water Treatment Residuals, Environmental Science and Pollution Research 2014, 21, 13528–13538.
(13) Changhui Wang, Nannan Yuan, Yuansheng Pei*, An Anaerobic Incubation Study of Metal Lability in Drinking Water Treatment Residue with Implications for Practical Reuse, Journal of Hazardous Materials 2014, 274, 342–348.
(14) Changhui Wang, Juanfeng Liu, Zhixin Wang, Yuansheng Pei*, Nitrification in Lake Sediment with Addition of Drinking Water Treatment Residuals, Water Research 2014, 56, 234–245.
(15) Changhui Wang, Wei Guo, Sijia Gao, Yuansheng Pei*, Behaviors of Phosphate Adsorption onto Ferric and Alum Water Treatment Residuals, Fresenius Environmental Bulletin 2014, 23, 2068–2073.
(16) Changhui Wang, Nannan Yuan, Yuansheng Pei*, Effect of pH on Metal Lability in Drinking Water Treatment Residuals, Journal of Environmental Quality 2014, 43, 389–397.
(17) Changhui Wang, Yuansheng Pei*, Effects of Light, Microbial Activity and Sediment Resuspension on the Phosphorus Immobilization Capability of Drinking Water Treatment Residuals in Lake Sediment, Environmental Science and Pollution Research 2013, 20, 8900–8908.
(18) Changhui Wang, Jincheng Liang, Yuansheng Pei*, L.A. Wendling, A Method for Determining the Treatment Dosage of Drinking Water Treatment Residuals for Effective Phosphorus Immobilization in Sediments, Ecological Engineering 2013, 60, 421–427.
(19) Changhui Wang, Yuansheng Pei*, A Comparison of the Phosphorus Immobilization Capabilities of Water Treatment Residuals before and after Settling from Lake water, Separation and Purification Technology 2013, 117, 83–88.
(20) Changhui Wang, Leilei Bai, Yuansheng Pei*, Assessing the Stability of Phosphorus in Lake Sediments Amended with Water Treatment Residuals, Journal of Environmental Management 2013, 122, 31–36.
(21) Changhui Wang, Sijia Gao, Yuansheng Pei*, Yaqian Zhao, Use of Drinking Water Treatment Residuals to Control the Internal Phosphorus Loading from Lake Sediments: Laboratory Scale Investigation, Chemical Engineering Journal 2013, 225, 93–99.
(22) Changhui Wang, Juanfeng Liu, Yuansheng Pei*, Effect of Hydrogen Sulfide on Phosphorus Lability in Lake Sediments Amended with Drinking Water Treatment Residuals, Chemosphere 2013, 91, 1344–1348.
(23) Changhui Wang, Yuanyuan Zhao, Yuansheng Pei*, Investigation on Reusing Water Treatment Residuals to Remedy Soil Contaminated with Multiple Metals in Baiyin, China, Journal of Hazardous Materials 2012, 237–238, 240–246.
(24) Changhui Wang, Yun Qi, Yuansheng Pei*, Laboratory Investigation of Phosphorus Immobilization in Lake Sediments using Water Treatment Residuals, Chemical Engineering Journal 2012, 209, 379–385.
(25) Changhui Wang, Chengbo Fei, Yuansheng Pei*, Stability of P Saturated Water Treatment Residuals under Different Levels of Dissolved Oxygen, Clean-Soil Air Water 2012, 40, 844–849.
(26) Changhui Wang, Yuansheng Pei*, The Removal of Hydrogen Sulfide in Solution by Ferric and Alum Water Treatment Residuals, Chemosphere 2012, 88, 1178–1183.
(27) Changhui Wang, Ziyuan Wang, Lu Lin, Binghui Tian, Yuansheng Pei*, Effect of Low Molecular Weight Organic Acids on Phosphorus Adsorption by Ferric-Alum Water Treatment Residuals, Journal of Hazardous Materials 2012, 203–204, 145–150.
(28) Changhui Wang, Wei Guo, Binghui Tian, Yuansheng Pei*, Kejian. Zhang, Characteristics and kinetics of phosphate adsorption on dewatered ferric-alum residuals, Journal of Environmental Science and Health, Part A 2011, 46, 1632–1639.
(29) Changhui Wang, Sijia Gao, Tianxiao Wang, Binghui Tian, Yuansheng Pei*, Effectiveness of Sequential Thermal and Acid Activation on Phosphorus Removal by Ferric and Alum Water Treatment Residuals, Chemical Engineering Journal 2011, 172, 885–891.
(30) Ziyuan Wang, Changhui Wang(Contributed equally with the first author), Zhixin Wang, Yuansheng Pei*, Enhancement of Anaerobic Ammonium Oxidation in Lake sediment by Applying Drinking Water Treatment Residuals, Bioresource Technology 2013, 142, 745–749.
(31) Nannan Yuan, Changhui Wang*, Yuansheng Pei*, Helong Jiang, Applicability of Drinking Water Treatment Residue for Lake Restoration in Relation to Metal/Metalloid Risk Assessment, Scientific Reports 2016, 6: 38638.
(32) Xin Liu, Yu Wu, Rui He, Helong Jiang, Changhui Wang*, The stability of drinking water treatment residue with ozone treatment. Environmental Technology, 2017, DOI: 10.1080/09593330.2017.1337231
专著
裴元生, 王昌辉, 给水处理厂污泥再利用的理论与方法, 科学出版社, 2018.
专利
(1) 王昌辉, 江和龙. 一种多重污染吸附剂及其制备方法. 中国发明专利授权号:ZL 2015 1 0312951.7.
(2) 裴元生, 刘娟凤, 王昌辉. 基于给水厂废弃污泥构建垂直流人工湿地处理养殖废水的方法. 中国发明专利授权号:ZL 2014 1 0137254.8.
(3) 裴元生, 王志新, 王昌辉. 一种利用给水厂污泥去除废水中硫化氢的吸附柱方法. 中国发明专利授权号:ZL 2013 1 0502872.3.
(4) .裴元生, 王咨元, 王昌辉, 王志新. 利用净水厂废弃泥增强沉积物中厌氧氨氧化作用的方法. 中国发明专利授权号:ZL 2013 1 0456254. X.
(5) 裴元生, 王昌辉, 高思佳, 王咨元. 便携式保真柱状底泥采样器. 中国发明专利授权号:ZL 2012 1 0081530.