一、基本信息
姓名:马江雅
学位:博士
职称:副教授
电话:13329055668
E-mail:majiang_ya@126.com或majiang_ya@ahut.edu.cn
二、教育背景
1、2005-2009,长江大学,给水排水工程,本科
2、2009-2014,重庆大学,市政工程,博士
3、2014-至今,304am永利集团,市政工程,任教
三、研究领域
混凝与絮凝水处理、氧化混凝水处理工艺、絮体资源化利用
四、学术兼职
1、中国化工学会无机酸碱盐专业委员会科技智库铝盐铁盐专家
2、中国水利企业协会脱盐分会水处理药剂工作委员会委员
3、304am永利集团学报编委
4、国际期刊审稿专家
五、主要科研项目
1、国家自然科学基金面上项目,基于低压UV引发的壳聚糖基絮凝剂定位改性及其除乳化油机理研究,51878001,主持
2、国家自然科学基金青年项目,光聚合纳米壳聚糖/聚丙烯酰胺对源水中PAEs的絮凝研究,51408004,主持
3、安徽省自然科学基金优青项目,低压紫外光引发聚丙烯酰胺功能改性及其絮凝水处理研究,2208085Y18,主持
4、安徽省高校自然科学研究项目,低压紫外光引发定位改性制备壳聚糖基絮凝剂及其除油研究,KJ2018A0044,主持
5、生物膜法水质净化及利用技术教育部工程研究中心自主项目,生物质炭载体制备及其对微污染水中特征污染物强化处理技术与工艺,BWPU2021ZY03,主持
六、学术成果
1、科研论文:
[1] Yanli Kong, Aihua Huang, et al, Jiangya Ma*. Enhanced removal of organic arsenic by using potassium ferrate coupled with metal coagulants: Role of iron species and effect of AlCl3 and FeCl3[J]. Chemical Engineering Journal, 2023, 146109.
[2] Wei Xia, Sha Li, Genyu Wu, Jiangya Ma*. Recycling waste iron-rich algal flocs as cost-effective biochar activator for heterogeneous Fenton-like reaction towards tetracycline degradation: Important role of iron species and moderately defective structures[J]. Journal of Hazardous Materials, 2023, 460, 132377.
[3] Yong Nie, Changwei Zhao, et al, Jiangya Ma*. Hydrochloric acid-modified fungi-microalgae biochar for adsorption of tetracycline hydrochloride: Performance and mechanism[J]. Bioresource Technology, 2023, 383, 129224.
[4] Yong Nie, Rui Zhang, et al, Jiangya Ma*. Removal of Microcystis aeruginosa and its extracellular organic matters by using covalently bonded coagulant: An alternative choice in enhanced coagulation for algae-polluted water treatment[J]. Journal of Cleaner Production, 2023, 419, 138337.
[5] Yanli Kong, Yaqian Ma, et al, Jiangya Ma*. Characteristics and mechanisms of As(III) removal by potassium ferrate coupled with Al-based coagulants: Analysis of aluminum speciation distribution and transformation[J]. Chemosphere, 2023, 313, 137251.
[6] Yong Nie, Zimin Wang, et al, Jiangya Ma*. Bio-flocculation of Microcystis aeruginosa by using fungal pellets of Aspergillus oryzae: Performance and mechanism[J]. Journal of Hazardous Materials, 2022, 439, 129606.
[7] Jiangya Ma*, Xue Fu, et al. Removal of emulsified oil from water by using recyclable chitosan based covalently bonded composite magnetic flocculant: Performance and mechanism[J]. Journal of Hazardous Materials, 2021, 419, 126529.
[8]. Jiangya Ma*, Wei Xia, et al. Flocculation of emulsified oily wastewater by using functional grafting modified chitosan: The effect of cationic and hydrophobic structure[J]. Journal of Hazardous Materials, 2021, 403,123690.
[9]. Yong Nie*, Zimin Wang, Rui Zhang, Jiangya Ma*. Aspergillus oryzae, a novel eco-friendly fungal bioflocculant for turbid drinking water treatment[J]. Separation and Purification Technology, 2021, 279, 119669.
[10] Jiangya Ma*, Wei Xia, et al. Magnetic flocculation of algae-laden raw water and removal of extracellular organic matter by using composite flocculant of Fe3O4/ cationic polyacrylamide[J]. Journal of Cleaner Production, 2020, 248, 119276.
[11] Jiangya Ma*, Jun Shi, Lei Ding, et al. Removal of emulsified oil from water using hydrophobic modified cationic polyacrylamide flocculants synthesized from low-pressure UV initiation[J]. Separation and Purification Technology, 2018, 197: 407-417.
[12] Jiangya Ma*, Jun Shi, et al. Synthesis of cationic polyacrylamide by low-pressure UV initiation turbidity water flocculation[J]. Chemical Engineering Journal, 2017, 312: 20-29.
[13] Jiangya Ma*, Kun Fu, et al. Flocculation performance of cationic polyacrylamide with high cationic degree in humic acid synthetic water treatment and effect of kaolin particles[J]. Separation and Purification Technology, 2017, 181: 201-212.
[14] Jiangya Ma*, Kun Fu, et al. Flocculation properties and kinetic investigation of polyacrylamide with different cationic monomer content for high turbid water purification[J]. Separation and Purification Technology, 2017, 182: 134-143.
[15] Jiangya Ma*, Kun Fu, et al. Ultraviolet-assisted synthesis of polyacrylamide-grafted chitosan nanoparticles and flocculation performance[J]. Carbohydrate Polymers, 2016, 151: 565-575.
2、发明专利:
[1] 马江雅,李砂,夏玮等,一种基于磁混凝含藻絮体热裂解制备原位载铁生物炭的方法及其应用,2023年3月,ZL202210189725.4
[2] 马江雅,张蕊,贾邦涛等,一种聚合铝铁/阳离子聚丙烯酰胺共价键型絮凝剂及其制备方法和应用,2022年8月,ZL202110454493.6.
[3] 马江雅,夏玮,吴根宇等,一种磁性共价键型壳聚糖基改性絮凝剂及其制备方法和应用,2022年4月,ZL202110411120.0.
[4] 马江雅,施军,付雪等,一种磁性疏水改性阳离子聚丙烯酰胺除油絮凝剂的制备方法,2019年12月,ZL201710872400.5.(已转化)
[5] 马江雅,付坤,施军等,一种纳米改性聚丙烯酰胺絮凝剂的方法,2017年6月,ZL201510708158.9.(已转化)
3、国家标准:
彭娟、任春强…马江雅等;乳化废液处理处置方法,2022年12月,GB/T 41968-2022.
4、专著著作:
[1] 郑怀礼、张鹏、孙永军、马江雅,聚丙烯酰胺类絮凝剂与絮凝科学,2020年,科学出版社, ISBN:978-7-03-063188-6。
[2] Chun Zhao, Yuanyuan Liu, Yongjun Sun, Jiangya Ma. Nanomaterials for adsorption and heterogeneous reaction in water decontamination, In: Lofrano G., Libralato G., Brown J. (eds), Nanotechnologies for Environmental Remediation. Springer, 2017, ISBN: 978-3-319-53161-8.
5、学术报告:
[1] 马江雅. 同时氧化混凝耦合体系活性物质的生成特性及其强化除污染物机理研究,水处理混凝与消毒技术创新及产业发展论坛,2023年,西安,分会场报告。
[2] 马江雅. 壳聚糖磁性共价键复合絮凝剂的制备及其除油研究,第六届全国水处理与循环利用学术会议,2023年,桂林,分会场报告。
[3] 马江雅. 共价键复合混凝剂的制备及其水处理应用,水处理及污泥固废处理处置中的新材料及新技术研讨会,2021年,南京,会议报告.
[4] 马江雅. 共价键复合混凝剂的制备及其水处理应用,第十六届青岛国际水大会,2021,青岛,分会场报告。
[5] 马江雅. 壳聚糖磁性共价键复合混凝剂的制备及其除油研究,水处理混凝技术创新与产业发展高级研讨会,2021年,平潭,会议报告。
七、研究生招生方向
市政工程学硕、土木水利(水方向)专硕,混凝剂及其强化水处理研究,欢迎报考!