一、个人简介
梁莎，副教授，主要研究方向是固废处理及资源化，包括污泥处理及资源化、生物炭功能材料制备、重金属及有机废水处理等。近年来承担了国家自然科学基金青年基金、国家重点研发计划子课题、武汉市青年科技晨光计划等项目，并参与了国家科技支撑计划、湖北省技术创新重大项目以及企业横向课题等多项项目。目前作为第一/通讯作者发表SCI论文18篇，其中ESI高被引论文2篇。


二、 主要学历
2009.09-2012.12 中南大学，材料冶金，工学博士
2011.09-2012.08 德国汉堡大学木科学中心木材化学系联合培养
2007.09-2009.06 中南大学，材料冶金，工学硕士
2008.09-2008.11 日本佐贺大学理工学部化学和应用化学系学习访问
2003.09-2007.06 中南大学，冶金工程，工学学士


三、学科专业与研究方向
专业领域：环境工程、材料科学与工程
研究方向：固废处理处置及资源化
重金属、有机废水处理


四、工作经历
2018.11-至今 华中科技大学环境科学与工程学院，副教授
2013.10-2018.10 华中科技大学环境科学与工程学院，讲师


五、近年主要研究项目
1. 国家重点研发计划，固废环境资源交互属性与风险调控基础研究，课题五，2018YFC**，2018/12-2022/12，课题骨干
2. 国家重点研发计划，协同互补利用大宗固废制备绿色建材关键技术研究与应用，课题三，2017YFC**，2017/07-2020/12，子课题负责人
3. 国家自然科学基金青年基金，Fe3O4/SiO2核壳纳米粒子修饰的新型磁性生物吸附剂制备及其对重金属吸附行为研究（**），2015/01-2017/12，主持
4. 武汉市青年科技晨光计划，废铅酸蓄电池回收及制备高性能动力电池的关键技术研究（20**200），2015/03-2016/12，主持
5. 煤燃烧国家重点实验室开放基金，FSKLCCA1604，污泥深度脱水处理及能源转化技术研究，2016/01-2018/12，主持
6. 湖北省技术创新重大项目，城市有机污泥的低温碳化及装备技术研究（2016ACA163），2016/06-2018/12，主要参与人员
7. 国家科技支撑计划项目，废铅酸电池无害化再生关键技术与工程示范（2014BAC03B02）， 2014/10-2017/12，主要参与人员
8. 华中科技大学自主创新基金，溶剂热法制备磁性生物吸附剂及其对含铬废水的吸附研究（2016YXMS290），2016/01-2018/12，主持
9. 华中科技大学自主创新基金，生物吸附剂造粒改性及其对重金属离子的动态吸附行为研究（2014QN149），2014/01-2015/12，主持


六、近年发表主要国际期刊论文
[1] Q. Gan^#, H.J. Hou^#, S. Liang^*, J.J. Qiu, S.Y. Tao, L. Yang, W.B. Yu, K.K. Xiao, B.C. Liu, J.P. Hu, Y.F. Wang, J.K. Yang. Sludge-derived biochar with multivalent iron as an efficient Fenton catalyst for degradation of 4-Chlorophenol. Science of the Total Environment, 2020, 725: 138299.
[2] S. Liang, H.M. Chen, X.H. Zeng, Z.B. Li, W.B. Yu^*, K.K. Xiao, J.P. Hu, H.J. Hou, B.C. Liu, S.Y. Tao, J.K. Yang^*. A comparison between sulfuric acid and oxalic acid leaching with subsequent purification and precipitation for phosphorus recovery from sewage sludge incineration ash. Water Research, 2019, 159: 242-251.
[3] S. Liang, S.Q. Shi, H.H. Zhang, J.J. Qiu, W.H. Yu, M.Y. Li, Q. Gan, W.B. Yu, K.K. Xiao, B.C. Liu, J.P. Hu, H.J. Hou^*, J.K. Yang^*. One-pot solvothermal synthesis of magnetic biochar from waste biomass: Formation mechanism and efficient adsorption of Cr(VI) in an aqueous solution. Science of the Total Environment, 2019, 695: 133886.
[4] Y. Hu^#, S. Liang^#, J.K. Yang^*, Y. Chen, N. Ye, Y. Ke, S.Y. Tao, K.K. Xiao, J.P. Hu, H.J. Hou, W. Fan, S.Y. Zhu, Y.S. Zhang, B. Xiao. Role of Fe species in geopolymer synthesized from alkali-thermal pretreated Fe-rich Bayer red mud. Construction and Building Materials, 2019, 200: 398-407.
[5] J.K. Yang, X.Y. Xu, S. Liang^*, R.N. Guan, H.S. Li, Y. Chen, B.C. Liu, J. Song, W.B. Yu, K.K. Xiao, H.J. Hou, J.P. Hu, H. Yao, B. Xiao. Enhanced hydrogen production in catalyticpyrolysis of sewage sludge by red mud: Thermogravimetric kinetic analysis and pyrolysischaracteristics. International Journal of Hydrogen Energy, 2018, 43(16): 7795-7807.
[6] S.Q. Shi, J.K. Yang, S. Liang^*, M.Y. Li, Q. Gan, K.K. Xiao, J.P. Hu. Enhanced Cr(VI) removal from acidic solutions using biochar modified by Fe₃O₄@SiO₂-NH₂ particles. Science of the Total Environment, 2018, 628-629: 499-508. （ESI高被引论文）
[7] J.K. Yang, J. Song, S. Liang^*, R.N. Guan, Y.F. Shi, W.B. Yu, S.Y. Zhu, F. Wei, H.J. Hou, J.P. Hu, H.L. Deng, B. Xiao. Synergistic effect of water content and composite conditioner of Fenton’s reagent combined with red mud on the enhanced hydrogen production from sludge pyrolysis. Water Research, 2017, 123: 378-387.
[8] S. Liang, N. Ye, Y.C. Hu, W. Zhang, W.B. Yu, X. Wu, J.K. Yang. Lead adsorption from aqueous solutions by a granular adsorbent prepared from phoenix tree leaves. RSC Advances, 2016, 6, 25393-25400.
[9] J. Song^#, J.K. Yang^*, S. Liang^#, Y.F.i Shi, W.B. Yu, C. Li, X.Y. Xu, J. Xiao, R.N. Guan, N. Ye, X. Wu, H.J. Hou, J.P. Hu, J.K. Hu, B. Xiao. Red mud enhanced hydrogen production from pyrolysis of deep-dewatered sludge cakes conditioned with Fenton's reagent and red mud. International Journal of Hydrogen Energy, 2016, 41(38): 16762-16771.
[10] Y.F. Shi^#, J.K. Yang^*, W.B. Yu, S.N. Zhang, S. Liang^#, J. Song, Q. Xu, N. Ye, S. He, C.Z. Yang, J.P. Hu. Synergetic conditioning of sewage sludge via Fe²⁺/persulfate and skeleton builder: Effect on sludge characteristics and dewaterability. Chemical Engineering Journal, 2015, 270, 572-581.
[11] H. Zhang, J.K. Yang^*, W.B. Yu, S. Luo, L. Peng, X.X. Shen, Y.F. Shi, S.L. Zhang, J. Song, N. Ye, Y. Li, C.Z. Yang, S. Liang^*. Mechanism of red mud combined with Fenton’s reagent in sewage sludge conditioning. Water Research, 2014, 59, 239-247.
[12] S. Liang, X.Y. Guo^*, S. Lautner, B. Saake. Removal of hexavalent chromium by different modified spruce bark adsorbents. Journal of Wood Chemistry and Technology, 2014, 34(4), 1-18.
[13] S. Liang, X.Y. Guo^*, Q.H. Tian. Adsorption of Pb²⁺, Cu²⁺ and Ni²⁺ from aqueous solutions by novel garlic peel adsorbent. Desalination and Water Treatment, 2013, 51(37-39), 7166-7171.
[14] S. Liang, X.Y. Guo^*, Q.H. Tian. Adsorption of Pb²⁺ and Zn²⁺ from aqueous solutions by sulfured orange peel. Desalination, 2011, 275(1-3), 212-216.
[15] S. Liang, X.Y. Guo^*, N.C. Feng, Q.H. Tian. Effective removal of heavy metals from aqueous solutions by orange peel xanthate. Transaction of Nonferrous Metals Society of China, 2010, 20(S1):187-191.
[16] S. Liang, X.Y. Guo^*, N.C. Feng, Q.H. Tian. Isotherms, kinetics and thermodynamic studies of adsorption of Cu²⁺ from aqueous solutions by Mg²⁺/K⁺ type orange peel adsorbents. Journal of Hazardous Materials, 2010, 174(1-3), 756-762. （ESI高被引论文）
[17] S. Liang, X.Y. Guo^*, N.C. Feng, Q.H. Tian. Application of orange peel xanthate for the adsorption of Pb²⁺ from aqueous solutions. Journal of Hazardous Materials, 2009, 170(1), 425-429.
[18] S. Liang, X.Y. Guo^*, N.C. Feng, Q.H. Tian. Adsorption of Cu²⁺ and Cd²⁺ from aqueous solution by mercapto-acetic acid modified orange peel. Colloids and Surfaces B: Biointerfaces, 2009, 73(1), 10-14.