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1. Wang CH, Jiang H L, Yuan NN, Pei YS, Yan ZS Tuning the adsorptive properties of drinking water treatment residue via oxygen-limited heat treatment for environmental recycle. Chemical Engineering Journal 2016, 284: 571-581.
2. Wang CH, Jiang H L, Xu HC, Yin HB. 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 2015. DOI 10.1007/s11356-015-5209-9
3. Wang CH, Yuan NN, Pei YS, He HL. 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.
4. Wang CH, Pei YS, Zhao YQ. 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.
5. Wang CH, Bai LL, Pei YS, Wendling LA. Comparison of metals extractability from Al/Fe-based drinking water treatment residuals. Environmental Science and Pollution Research 2014, 21: 13528–13538.
6. Wang CH, Yuan NN, Pei YS. 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.
7. Wang CH, Liu JF, Wang ZX, Pei YS. Nitrification in lake sediment with addition of drinking water treatment residuals. Water Research 2014, 56: 234–245.
8. Wang CH, Guo W, Gao SJ, Pei YS. Behaviors of phosphate adsorption onto ferric and alum water treatment residuals. Fresenius Environmental Bulletin 2014, 23(9): 2068–2073.
9. Wang CH, Yuan NN, Pei YS. Effect of pH on metal lability in drinking water treatment residuals. Journal of Environmental Quality 2014, 43(1): 389–397.
10. Wang CH, Pei YS. 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(12): 8900–8908.
11. Wang CH, Liang JC, Pei YS, Wendling LA. A method for determining the treatment dosage of drinking water treatment residuals for effective phosphorus immobilization in sediments. Ecological Engineering 2013, 60: 421–427.
12. Wang CH, Pei YS. 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.
13. Wang CH, Bai LL, Pei YS. Assessing the stability of phosphorus in lake sediments amended with water treatment residuals. Journal of Environmental Management 2013, 122: 31–36.
14. Wang CH, Gao SJ, Pei YS, ZhaoYQ. 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.
15. Wang CH, Liu JF, Pei YS. Effect of hydrogen sulfide on phosphorus lability in lake sediments amended with drinking water treatment residuals. Chemosphere 2013, 91: 1344–1348.
16. Wang CH, Zhao YY, Pei YS. 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.
17. Wang CH, Qi Y, Pei YS. Laboratory investigation of phosphorus immobilization in lake sediments using water treatment residuals. Chemical Engineering Journal 2012, 209: 379–385.
18. Wang CH, Fei CB, Pei YS. Stability of P saturated water treatment residuals under different levels of dissolved oxygen. Clean-Soil Air Water 2012, 40(8): 844–849.
19. Wang CH, Pei YS. The removal of hydrogen sulfide in solution by ferric and alum water treatment residuals. Chemosphere 2012, 88: 1178–1183.
20. Wang CH, Wang ZY, Lin L, Tian BH, Pei YS. 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.
21. Wang CH, Guo W, Tian BH, Pei YS, Zhang KJ. Characteristics and kinetics of phosphate adsorption on dewatered ferric-alum residuals. Journal of Environmental Science and Health, Part A 2011, 46: 1632–1639.
22. Wang CH, Gao SJ, Wang TX, Tian BH, Pei YS. Effectiveness of sequential thermal and acid activation on phosphorus removal by ferric and alum water treatment residuals. Chemical Engineering Journal 2011, 172: 885–891.
23. Wang ZY, Wang CH(与第一作者同等贡献), Wang ZX, Pei YS. Enhancement of anaerobic ammonium oxidation in lake sediment by applying drinking water treatment residuals. Bioresource Technology 2013, 142: 745–749.
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发布日期:2018-02-20 浏览次数:451
