主持科研项目
1)国家自然科学基金“FNA抑制Candidatus Accumulibacter phosphatis除磷活性的机理及解除对策”(31970121,2020-2023)
2)国家重点研发课题“城乡混合有机垃圾好氧发酵副产物风险控制及可持续利用技术与装备”子课题(2019YFC1906404,2020-2023)
3)国家重点研发课题“滩涂生态农牧场特色生物资源产品和生物制品精深加工及示范”子课题(2020YFD0900704,2020-2022)
4)好氧颗粒污泥法处理酒精废水新工艺及中水回用研究(生物燃料国家重点实验室开放课题,KFKT2014017,2015-2019)
5)小分子有机酸抑制污泥生物沥滤的机理与解除对策(国家自然科学基金50778089,2008-2010)
6)Roles of heterotrophic microorganisms in bioleaching of heavy metals from anaerobically digested sewage sludge(IFS,2009-2012)
7)Anaerobic digestion of food waste for methane production(HKBU-Applied Research Centre for Pearl River Delta Environment)
8)山梨醇废水的生物处理与工程应用(横向,2007-2008)
9)硫胶废水的生物处理与工程应用(横向,2007-2008)
发表论文
XY Gu, JZ Liu, JWC Wong, 2018. Control of lactic acid production during hydrolysis and acidogenesis of food waste. Bioresource Technology, 247: 711-715
王慧敏,姚倩倩,李月月,蔡溯林,孙明珠,顾向阳.2018. 渗透压冲击下中度嗜盐菌Halomonas sp. Y 四氢嘧啶类相容性溶质的合成与释放. 微生物学通报,45(4): 744−752
Xiang Yang Gu & Pei Chong Dou, 2017. Isolation and Characterization of Altererythrobacter sp. DT for Biotreatment of and Sulfur Production from Thiosulfate-Bearing Industrial Wastewater. Water Air Soil Pollut 228:28.
X.Y. Gu, J.W.C. Wong, R.D. Taygi. 2017. Bioleaching of heavy metals from swage sludge for land application. In: Current Developments in Biotechnology and Bioengineering, Volume 5 http://dx.doi.org/10.1016/B978-0-444-63664-5.00011-3. (Elsevier B.V.)
姚倩倩, 顾向阳. 2017. 中度嗜盐菌Halomonas SP. W2的分离和鉴定及其高产四氢嘧啶特性研究. 纽约国际588888线路检测中心学报,40(1):109-115.
邹彩连,赵国成,蒋翊宸,顾向阳*. 2015. 具有自絮凝特性的乙酸降解菌的筛选及其降解特性[J]. 纽约国际588888线路检测中心学报. 38(5): 830-837.
龙建兵,顾向阳*. 2015. 乳酸作为EBPR进水碳源的可行性研究[J]. 纽约国际588888线路检测中心学报. 38(1): 85-92.
Ammaiyappan Selvam, Su Yun Xu, Xiang Yang Gu, Jonathan W. C. Wong. 2010. Food waste decomposition in leachbed reactor: role of neutralizing solutions on the leachate quality. Bioresource Technology. Vol 101(6): 1707-1714
林栋青,张彦科,顾向阳*. 2009. 硫代硫酸盐氧化菌TX的分离、鉴定及其生物学特性[J]. 微生物学通报,36(11): 1638-1644.
赵印,吴育津,顾向阳*,沈标. 2009. 山梨醇废水生物处理工程稳定运行的影响因素分析[J]. 纽约国际588888线路检测中心学报. 32(4): 61-66.
Wong J.W.C., Gu X.Y. 2008. Optimization of Fe2+/solids content ratio for a novel sludge heavy metal bioleaching process. Water Sci. & Technol. 57(3), p445-450.
Chen J., Li S.P., Gu X.Y.* 2008. Effects of energy source concentration on bioleaching of heavy metals from undigested sewage sludge by using iron-oxidizing bacterium. Practice periodical of hazardous, toxic, and radioactive waste management. Vol 12, p165-169.
Gu, X.Y., Wong, J.W.C. 2007. Degradation of inhibitory substances by heterotrophic microorganisms during bioleaching of heavy metals from anaerobically digested sewage sludge. Chemosphere. Vol 69, p311-318.
Xu J.L., Gu X.Y., Shen B., Wang Z.C., Wang K., Li S.P. 2006. Isolation and characterization of a carbendazim-degrading Rhodococcus sp. djl-6. Curr. Microbiol. Vol. 53, p72-76.
Gu, X.Y., Wong, J.W.C. 2005. An improved procedure for eliminating fungal contamination during the enumeration of acidophilic iron-oxidizing bacteria from bioleaching matrix of sewage sludge. Can. J. Microbiol. Vol. 51, p637-641.
Gu, X.Y., Wong, J.W.C. 2004.Identification of inhibitory substances affecting bioleaching of heavy metals from anaerobically digested sludge. Environ. Sci. & Technol. Vol 38, p2934-2939.
Gu, X.Y., Wong, J.W.C. 2004. Characterization of an indigenous iron-oxidizing bacterium and its effectiveness in bioleaching heavy metals from anaerobically digested sewage sludge. Environ. Technol. Vol 25, p889-897.
Wong, J.W.C., Gu, X.Y.2004.Enhanced heavy metal bioleaching efficiencies from anaerobically digested sewage sludge with coinoculation of Acidithiobacillus ferrooxidans ANYL-1 and Blastoschizomyces capitatus Y5. Water Sci. & Technol. Vol 50(9), p 83–89.
Wong, J.W.C., Xiang, L., Gu, X.Y. and Zhou, L.X. 2004. Bioleaching heavy metals from anaerobically digested sewage sludge using FeS2 as an energy source. Chemosphere.Vol 55, p101-107.
Chan, L.C., Gu, X.Y., Wong, J.W.C. 2003. Comparison of bioleaching of heavy metals from sewage sludge using iron- and sulfur- oxidizing bacteria. Adv. Environ. Res. Vol 7, p603-607.