人物經歷
教育背景
1996.08-2001.08, 美國,普渡大學,環境工程學院,環境工程專業,博士學位。
1993.09-1996.07,中國,清華大學,環境學院,環境工程專業,碩士學位。
1989.09-1993.07,中國,湖南大學,環境科學與工程學院,環境工程專業,學士學位。
工作經歷
2011.09-,中國人民大學環境學院環境科學系,教授。
2006.3-2011.09,哈爾濱工業大學市政環境工程學院市政工程系,教授。
2001.12-2006.3. 清華大學深圳研究生院,講師,副教授。
社會職務
2009-(印度),Research Journal of Chemistry and Environment,編委;
Water pollution and treatment, editor member;
nternational Society of Chemistry and Environment, Fellow。
研究方向
高級氧化技術;新型污水資源化技術;污泥減量處理技術。
主要貢獻
論文
[46] Zhang G., Hua I., Cavitation chemistry of polychlorinated biphenyls: decomposition mechanisms and rates, Environ. Sci. Technol., 2000, 34: 1529–1534 (SCI/EI)
[45] Zhang G., Hua I., Ultrasonic degradation of trichloroacetonitrile, chloropicrin, bromobenzene: design factors and matrix effects, Advances in Environ. Res., 2000, 4: 211-218 (SCI/EI)
[44] Zhang G., Hua I., The impact of particulates on aqueous sonication of bromobenzene, Chemosphere, 2002, 46: 59-66 (SCI/EI)
[43] Zhang G., Hua I., Supercritical water oxidation of nitrobenzene, Ind. Eng. Chem. Res., 2003, 42: 285-289 (SCI/EI)
[42] Zhang W., Zhang X., Zhang G., Xu X., Variation of microcystins in a lake for water supply, J. Environ. Sci. Health, Part A, 2003, A38(12):2857-2865 (SCI/EI)
[41] Zhang G., Hua I., Chang A., Sonolytic degradation of 2-chlorobiphenyl, J. Cent. South Univ. Technol, 2004, 11(3): 319-321 (SCI/EI)
[40] Zhang G., Wang B., Hao H., Wu M., Ultrasonic removal of cyanobacteria, J. Environ. Technol. Manage., 2004, 4: 266-271(EI)
[39] Zhang X., Yuan W., Zhang G., Control of nutrients after discharge to lakes through wastewater,Water Sci. Technol., 2004, 50 (6): 173-178 (SCI/EI)
[38] Zhang G., Chang A., Wang L., Frequency effects on 2-chlorobiphenyl sonication, Tsinghua Science and Technology, 2004, v9, n2: 181-184 (EI)
[37] 張信芳,張敬暢, 張光明,張天巧. 苯酚羥基化合成苯二酚反應產物分離過程酚焦油的形成原因,石油化工, 2004, 33(11):1037-1042. (EI)
[36] 宗棟良, 張錫輝, 張光明, 自來水廠污泥的流動電流特性, 環境科學, 2004, 25(6):136-139 (EI)
[35] 王波, 張光明, 微囊藻毒素在超聲場中的降解研究, 環境科學, 2005, 26(6):12-14 (EI)
[34] Zhang G., Zhang P., Wang B., Ma B., Ultrasonic and ultrasound-UV degradation of microcystins, J. Harbin Ins. Technol., 2005, 12(S): 99-103 (EI)
[33] Guo Z., Zhang G., Fang J., Dou X., Enhanced chromium recovery from tanning wastewater, J. Clean. Prod., 2006, 14: 75-79. (SCI/EI)
[32] Zhang G., Zhang P., Wang B., Liu H., Ultrasonic frequency effects on the removal of Microcystis aeruginosa, Ultrasonics Sonochemistry, 2006, 13: 446-450(SCI/EI)
[31] Zhang G., Zhang P., Liu H., Wang B., Ultrasonic damages on cyanobacterial photosynthesis, Ultrasonics Sonochemistry, 2006, 13: 501-505 (SCI/EI)
[30] Zhang G., Zhang P., Wang B., Liu H., Removal of algae by sonication-coagulation, J. Environ. Sci. Health, Part A, 2006, 41: 1379-1390 (SCI/EI)
[29] Xia Q., Zhang G., Wang L., Study on subchronic toxicity of chlorine dioxide and by-products in water, J. Environ. Sci. Health, Part A, 2006, 41: 1347-1353 (SCI/EI)
[28] Zhang G., Zhang P., Chen Y., Ultrasonic enhancement of industrial sludge settling ability and dewatering ability, Tsinghua Sci. Technol., 2006, 11(3): 374-378 (EI)
[27] Dong W., Zhang G., Wu M., Zhang X., Elucidate the impact of particulates on aqueous pollutant sonication, J. Harbin Institute of Technology, 2006, 13(2): 196-199 (EI)
[26] Zhang P., Zhang G., Wang W., Ultrasonic treatment of biological sludge: floc disintegration, cell lysis and inactivation, Bioresource Technol., 2007, 98: 207-210 (SCI/EI)
[25] Zhang G., Zhang P., Yang J., Chen Y. Ultrasonic reduction of excess sludge from the activated sludge system. J. Hazard Mater., 2007, 145(3): 515–519 (SCI/EI)
[24] Zhang G., Zhang P., Gao J., Chen Y., Using acoustic cavitation to improve the bio-activity of activated sludge, Bioresource Technol., 2008, 99: 1497-1502 (SCI/EI)
[23] Zhang G., Zhang P., Yang J., Liu H., Energy-efficient sludge sonication: Power and sludge characteristics, Bioresource Technol., 2008, 99: 9029-9031 (SCI/EI)
[22] Zhang P., Zeng G., Zhang G., Li Y., Zhang B., Fan M. Anaerobic co-digestion of biosolids and organic fraction of municipal solid waste by sequencing batch process. Fuel Process. Technol., 2008, 89(4): 485-489. (SCI/EI)
[21] Zhang G., Zhang P., Comparison of different methods for sludge lysis, Res. J. Chem. Environ., 2008, 12(3): 12-17 (SCI)
[20] Zhang G., Liu H., Zhang P., Zhang Y., Ultrasonic pre-treatment of biosolid, Inter. J. Biotechnology, 2008, 10(1): 26-35 (EI)
[19] Li W., Zhang G., Zhang P., Liu H., Waste activated sludge reduction using sonication and cryptic growth, Inter. J. Biotechnology, 2008, 10(1): 64-72 (EI)
[18] Zhang P., Zhang G., Zeng G., Hu E., Zou S., Wu H., Influence of Fe(II) addition on heavy metal bioleaching from sewage sludge with mixed inocula, Inter. J. Biotechnology, 2008, 10(1): 16-25 (EI)
[17] Zhang G., Zhang P, Fan M, Ultrasound-enhanced coagulation for Microcystis aeruginosa removal,Ultrasonics Sonochemistry, 2009, 16: 334-338 (SCI/EI)
[16] Zhang P, Zhu Y, Zhang G., Sewage sludge bioleaching by indigenous sulfur-oxidizing bacteria: Effects of ratio of substrate dosage to solid content, Bioresource Technol., 2009,100(3): 1394-1398 (SCI/EI)
[15] Zhang G., Yang J., Liu H., Zhang J. Sludge ozonation: disintegration, supernatant changes and mechanisms, Bioresource Technol., 2009, 100(3): 1505-1509 (SCI/EI)
[14] Zhang G., He J. Zhang P., Zhang J. Ultrasonic reduction of excess sludge from activated sludge system II: urban sewage treatment, J. Hazard Mater., 2009, 164: 1105-1109. (SCI/EI)
[13] Zhang G., Wei X., Li X., Zhang J., Dou Z. Sonication for advanced drinking water treatment, J. Harbin Ins. Technol., 2009: 16(1) 99-103 (EI)
[12] Zhang G., Zhang P., Kang X., Gao F., Ultrasonic lysis of biological sludge: A three-stage process, J. Res. Sci. Technol., 2009, 6: 163-168. (SCI/EI)
[11] Lu H., Zhang G., Dai X., He C., Photosynthetic bacteria treatment of synthetic soybean wastewater: direct degradation of macromolecules, Bioresource Technol., 2010, 101: 7672-7674. (SCI/EI)
[10] He J., Wan T, Zhang G.,Zhang J., Ultrasonic reduction of excess sludge from activated sludge system: energy efficiency improvement via operation optimization, Ultrasonics Sonochemistry, 2010, 18: 99-103. (SCI/EI)
[9] Madukasi E., Zhang G., Microaerobic bioremediation of high organic load wastewater by phototrophic bacteria, Afr. J. Biotechnol., 2010, 9(25): 3852-3860. (SCI)
[8] Zhang P., Zhang G., Inorganics accumulation in low-sludge wastewater treatment technique: case study of SBR with sonication, Res. J. Chem. Environ., 2010, 14(2): 68-71. (SCI)
[7] He J., Zhang G., Lu H., Treatment of soybean wastewater by a wild strain Rhodobacter sphaeroides and to produce protein under natural conditions, Front. Environ. Sci. Engr. China 2010, 4(3): ***. (SCI)
[6] Lang L., Zhang G., Li Y., The combination of 17-Estradiol and Bisphenol A weaken their respective action, Advanced Materials Research, 2010, 113-114, 2220-2223
[5] Zhao W., He C., Zhang G., Culture medium optimization for photosynthetic bacteria,Advanced Materials Research, 2010, 113-116, 1443-1446
[4] Madukasi E., Zhang G., A two bioreactor treating Brewery wastewater, Advanced Materials Research, 2010, 113-114, 1138-1140.
[3] 戴曉, 張光明,光合細菌(Z08)啤酒廢水資源化研究,哈爾濱工業大學學報,2010, 25(6), 937-940.
[2] 盧海鳳, 張光明,何春華,一株光合細菌的鑑定及其處理大豆加工廢水試驗研究,哈爾濱工業大學學報,accepted.
[1]趙薇, 張光明,趙志偉,HPLC法定量分析水中光合細菌菌體含量,哈爾濱工業大學學報,accepted.
著作
[5] Zhang G., The application of sonochemistry and supercritical water oxidation to environmental engineering[D], Michigan: UMI Publisher, 2001;
[4] 張光明,常愛敏,張盼月,超音波水處理技術[M],北京:建築工業出版社,2006;
[3] 張光明,張信芳,張盼月,城市污泥資源化技術進展[M],北京:化學工程出版社,2006;
[2] 張光明,張寶傑,張盼月,成為合格的科學家[M],北京:高等教育出版社,2007;
[1] 張光明,張盼月,張信芳,水處理高級氧化技術[M],哈爾濱:哈爾濱工業大學出版社,2007.
獲獎記錄
[3] 2006,教育部,“新世紀優秀人才支持計畫”入選;
[2] 2008,黑龍江省,科技進步一等獎;
[1] 2010,霍英東教育基金會高等院校青年教師獎,三等獎