一、基本信息
姓名:馬江雅
學(xué)位:博士
職稱:教授
電話:13329055668
E-mail:majiang_ya@126.com
二、教育背景
1、2005-2009,長(zhǎng)江大學(xué),給水排水工程,本科
2、2009-2014,重慶大學(xué),市政工程,博士
3、2014-至今,安徽工業(yè)大學(xué),市政工程,任教
三、研究領(lǐng)域
混凝與絮凝水處理、混凝氧化水處理工藝、絮體資源化利用
四、學(xué)術(shù)兼職
1、中國化工學(xué)會(huì)無機(jī)酸堿鹽專業(yè)委員會(huì)科技智庫鋁鹽鐵鹽專家
2、中國水利企業(yè)協(xié)會(huì)脫鹽分會(huì)水處理藥劑工作委員會(huì)委員
五、主持科研項(xiàng)目
1、基于低壓UV引發(fā)的殼聚糖基絮凝劑定位改性及其除乳化油機(jī)理研究,國家自然科學(xué)基金(51878001)
2、光聚合納米殼聚糖/聚丙烯酰胺對(duì)源水中PAEs的絮凝研究,國家自然科學(xué)基金(51408004)
3、低壓紫外光引發(fā)聚丙烯酰胺功能改性及其絮凝水處理研究,安徽省自然科學(xué)基金優(yōu)秀青年項(xiàng)目(2208085Y18)
4、低壓紫外光引發(fā)定位改性制備殼聚糖基絮凝劑及其除油研究,安徽省高校自然科學(xué)研究項(xiàng)目(KJ2018A0044)
5、生物質(zhì)炭載體制備及其對(duì)微污染水中特征污染物強(qiáng)化處理技術(shù)與工藝,生物膜法水質(zhì)凈化及利用技術(shù)教育部工程研究中心自主項(xiàng)目(BWPU2021ZY03)
六、學(xué)術(shù)成果
1、科研論文(近五年一作/通訊):
[1] Covalently bonded aluminum-iron modified activated carbon moderately activated ferrate(VI) through enhanced interaction path: pH-driven efficacyon active species evolution and synergic mechanistic. Chemical Engineering Journal. 507(2025)160510.
[2] Endogenous Mn/Fe biochar derived from algae-rich floc sludge for enhanced peroxymonosulfate activation: Improved surface collision oxidation and role of synergic path. Chemical Engineering Journal. 505(2025)159391.
[3] Enhanced oxidation and in-situ coagulation Fe(II)/peroxymonosulfate-Mn (VII) process for carbamazepine removal: Multiple promoting effects of Mn and direct/indirect regulation of Cl on active substances transformation. Journal of Hazardous Materials. 485(2025)136933.
[44] In-situ manganese-aluminum-iron biochar derived from waste flocs for enhanced peroxymonosulfate oxidation: Role of Fe/Mn drives active species based on aluminum adsorption and synergistic promoted electron transfer. Separation and Purification Technology. 354 (2025) 129471.
[5] Organic arsenic removal by using covalently bonded iron–aluminum loaded activated carbon: synergistic mechanisms of enhanced adsorption and in situ hydrogen peroxide oxidation. ACS. ES&T. Water. 4 (2024) 2981-2994.
[6] Coagulation performance and mechanism of different novel covalently bonded organic silicon-aluminum/iron composite coagulant for As(V) removal from water: The role of hydrolysate species and the effect of coexisting microplastics. Journal of Hazardous Materials. 480 (2024) 135819.
[7] Aluminum chloride induced ferrate activation for p-arsanilic acid removal: The significant synergism mechanism and enhanced role of reactive Fe(IV)/Fe(V). Separation and Purification Technology. 343 (2024) 127121.
[8] Enhanced removal of organic arsenic by using potassium ferrate coupled with metal coagulants: Role of iron species and effect of AlCl3 and FeCl3. Chemical Engineering Journal. 475 (2023) 146109.
[9] 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. Journal of Hazardous Materials. 460 (2023) 132377.
[10] Hydrochloric acid-modified fungi-microalgae biochar for adsorption of tetracycline hydrochloride: Performance and mechanism. Bioresource Technology. 383 (2023) 129224.
[11] 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. Journal of Cleaner Production. 419 (2023) 138337.
[12] Characteristics and mechanisms of As(III) removal by potassium ferrate coupled with Al-based coagulants: Analysis of aluminum speciation distribution and transformation. Chemosphere 313 (2023) 137251.
[13] Emulsified oil removal from steel rolling oily wastewater by using magnetic chitosan-based flocculants: Flocculation performance, mechanism, and the effect of hydrophobic monomer ratio. Separation and Purification Technology. 304 (2023) 122329.
[14] Enhanced coagulation of covalent composite coagulant with potassium permanganate oxidation for algae laden water treatment: Algae and extracellular organic matter removal. Chemical Engineering Journal Advances. 13 (2023) 100427.
[15] Bio-flocculation of Microcystis aeruginosa by using fungal pellets of Aspergillus oryzae: Performance and mechanism. Journal of Hazardous Materials. 439 (2022) 129606.
[16] Characteristics and mechanisms of aluminum salts on arsenate removal by coagulation: Significance of aluminum speciation distribution and transformation. Journal of Environmental Chemical Engineering. 10 (2022) 106805.
[17] Coagulation performance of Al/Fe based covalently bonded composite coagulants for algae removal. Separation and Purification Technology. 285 (2022) 120401.
[18] Flocculation of emulsified oily wastewater by using functional grafting modified chitosan: The effect of cationic and hydrophobic structure. Journal of Hazardous Materials. 403 (2021) 123690.
[19] Removal of emulsified oil from water by using recyclable chitosan based covalently bonded composite magnetic flocculant: Performance and mechanism. Journal of Hazardous Materials. 419 (2021) 126529.
[20] Aspergillus oryzae, a novel eco-friendly fungal bioflocculant for turbid drinking water treatment. Separation and Purification Technology. 279 (2021) 119669.
2、發(fā)明專利:
[1] J. Ma, R. Zhang. Preparation method and application of organic-inorganic covalent bond composite coagulant for strengthening coagulation, 2023年8月,授權(quán)國際專利,荷蘭,2030794.
[2] 馬江雅,盧釩,孔艷麗,聶勇,集氧化與吸附同步高效去除有機(jī)砷的載鐵鋁共價(jià)鍵混凝劑改性活性炭材料及其制備與應(yīng)用,2024年10月30日,ZL202310298635.3
[3] 馬江雅,李砂,夏瑋等,一種基于磁混凝含藻絮體熱裂解制備原位載鐵生物炭的方法及其應(yīng)用,2023年3月,ZL202210189725.4
[4] 馬江雅,張蕊,賈邦濤等,一種聚合鋁鐵/陽離子聚丙烯酰胺共價(jià)鍵型絮凝劑及其制備方法和應(yīng)用,2022年8月,ZL202110454493.6.
[5] 馬江雅,夏瑋,吳根宇等,一種磁性共價(jià)鍵型殼聚糖基改性絮凝劑及其制備方法和應(yīng)用,2022年4月,ZL202110411120.0.
[6] 馬江雅,施軍,付雪等,一種磁性疏水改性陽離子聚丙烯酰胺除油絮凝劑的制備方法,2019年12月,ZL201710872400.5.
[7] 馬江雅,付坤,施軍等,一種納米改性聚丙烯酰胺絮凝劑的方法,2017年6月,ZL201510708158.9.
3、獲獎(jiǎng)情況:
馬江雅、王瓊杰、丁磊、張會(huì)文,低壓紫外光引發(fā)有機(jī)絮凝劑結(jié)構(gòu)功能調(diào)控及高效除污機(jī)制,2024,安徽省自然科學(xué)獎(jiǎng)三等獎(jiǎng)。
4、國家標(biāo)準(zhǔn):
彭娟、任春強(qiáng)…馬江雅等;乳化廢液處理處置方法,2022年12月,GB/T 41968-2022.
5、專著著作:
[1] 鄭懷禮、張鵬、孫永軍、馬江雅,聚丙烯酰胺類絮凝劑與絮凝科學(xué),2020年,科學(xué)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.
6、學(xué)術(shù)報(bào)告:
[1] 馬江雅. 鋁鹽耦合高鐵酸鉀強(qiáng)化混凝氧化高效除有機(jī)砷研究,全國鋁鹽鐵鹽水處理劑行業(yè)創(chuàng)新發(fā)展大會(huì),2024年,太倉,會(huì)議報(bào)告。
[2] 馬江雅. 同時(shí)氧化混凝耦合體系活性物質(zhì)的生成特性及其強(qiáng)化除污染物機(jī)理研究,水處理混凝與消毒技術(shù)創(chuàng)新及產(chǎn)業(yè)發(fā)展論壇,2023年,西安,分會(huì)場(chǎng)報(bào)告。
[3] 馬江雅. 殼聚糖磁性共價(jià)鍵復(fù)合絮凝劑的制備及其除油研究,第六屆全國水處理與循環(huán)利用學(xué)術(shù)會(huì)議,2023年,桂林,分會(huì)場(chǎng)報(bào)告。
七、研究生招生方向
市政工程學(xué)碩、土木水利(水方向)專碩,混凝劑及其強(qiáng)化水處理工藝研究,歡迎報(bào)考!
