个人自述:
马鸿志,男,太阳成集团tyc234cc教授,注册环保工程师,入选北京高校青年英才计划,获得中国环境科学学会青年科学家奖,永钢优秀教师。主要从事环境工程、环境生物技术和固体废物资源化研究。教授环境工程学,环境工程研究与设计等课程,同时作为骨干开设了全英文授课留学生本科班、研究生班,并讲授固体废弃物处置与管理(全英文)、环境化学(全英文)、环境学导论(全英文)课程,获得北京市教育教学二等奖一项,校教育教学一等奖、二等奖等荣誉。发表学术论文百余篇。授权国家发明专利20余项,参编著作2部,获省部级科学技术奖3项,主持国家自然科学基金、政府间国际合作项目,参与水专项、科技部国际合作项目、环保公益项目、重点研发专项、北京市科委项目等多项课题。为《工程科学学报》青年编委,中国农业生物技术学会理事,Bioresource Technology、RSC Advances、Renewable Energy、Journal of Hazardous Materials等多个SCI期刊和《环境污染与治理》、《环境科学》等多个中文期刊的审稿专家。
教育及工作经历:
2020.7-至今,太阳集团欢迎您,环境科学与工程系,教授
2018.1-2020.7,太阳集团欢迎您,环境科学与工程系,副教授
2016.12-2017.12,美国辛辛那提大学环境工程系,访问学者
2013.9-2016.12,太阳集团欢迎您,环境工程系,副教授
2008.7-2013.9,太阳集团欢迎您,环境工程系,讲师
2005.3-2008.3,哈尔滨工业大学,博士
2002.9-2005.3,哈尔滨工业大学,硕士
1998.9-2002.7,哈尔滨工业大学,学士
研究领域:
环境工程,环境生物技术,固废资源化及能源化,冶金环境保护
研究生培养:
每年招收硕士研究生2-3名,博士研究生1-2名。
欢迎热爱环境工程、喜爱科研、有志于从事环境生物技术和固废资源化等方面的同学积极申请和报考。课题组提供自由开放的科研环境,创造积极向上的实验室氛围,希望你的热情、主动、踏实可以让我们共同成长。
学术成果(论文):
近五年
2023年
[1] Yang J, Ma R, Xing Y, et al. Study on the prepared bio-oil by catalytic hydrothermal liquefaction of antibiotic residues in ethanol-water reaction system with transition metal modified HZSM-5 [J]. Fuel, 2023, 331: 125413.
[2] Zhao J, Ma H, Wu W, et al. Conversion of liquor brewing wastewater into medium chain fatty acids by microbial electrosynthesis: Effect of cathode potential and CO2 supply [J]. Fuel, 2023, 332: 126046.
2022年
[3] Ma H, Wu W, Yu Z, et al. Medium-chain fatty acid production from Chinese liquor brewing yellow water by electro-fermentation: Division of fermentation process and segmented electrical stimulation [J]. Bioresource Technology, 2022, 360: 127510.
[4] Ma H, Yu Z, Wu W, et al. Effects of ethanol addition on caproic acid production and rumen microorganism community structure from straw fermentation [J]. Fuel, 2022, 327: 125142.
[5] Su W, Zhao M, Xing Y, et al. Supercritical water gasification of hyperaccumulators for hydrogen production and heavy metal immobilization with alkali metal catalysts [J]. Environmental Research, 2022, 214: 114093.
[6] Yu Z, Ma H, Den Boer E, et al. Effect of microwave/hydrothermal combined ionic liquid pretreatment on straw: Rumen anaerobic fermentation and enzyme hydrolysis [J]. Environmental Research, 2022, 205: 112453.
[7] 马鸿志, 武文宇, 于子强, et al. 微生物合成己酸的基本原理: 能量代谢及影响因素 [J]. 工程科学学报, 2022, 45: 1-12.
[8] 王森林, 张东铭, 张波, et al. 海水综合利用技术在钢铁厂内工业化应用研究 [J]. 广东化工, 2022, 49(17): 34-7+51.
2021年
[9] Gao M, Lin Y, Wang P, et al. Production of medium-chain fatty acid caproate from Chinese liquor distillers’ grain using pit mud as the fermentation microbes [J]. Journal of hazardous materials, 2021, 417: 126037.
[10] Ge S, Shi Y, Xia C, et al. Progress in pyrolysis conversion of waste into value-added liquid pyro-oil, with focus on heating source and machine learning analysis [J]. Energy Conversion and Management, 2021, 245: 114638.
[11] Li H, Gao M, Wang P, et al. Cathode catalyst prepared from bacterial cellulose for ethanol fermentation stillage treatment in microbial fuel cell [J]. Chinese Journal of Chemical Engineering, 2020.
[12] Ma H, Lin Y, Jin Y, et al. Effect of ultrasonic pretreatment on chain elongation of saccharified residue from food waste by anaerobic fermentation [J]. Environmental Pollution, 2021, 268: 115936.
[13] Su W, Liu P, Cai C, et al. Hydrogen production and heavy metal immobilization using hyperaccumulators in supercritical water gasification [J]. Journal of hazardous materials, 2021, 402: 123541.
[14] 敖秀玮, 程世昆, 张玲玲, et al. 新工科背景下环境专业来华留学研究生规范化培养模式探索 [J]. 高教学刊, 2021, 7(S1): 13-5+9.
2020年
[15] Yequan Sheng, Yu Zhang, Hongzhi Ma. Enhancing Prehydrolysates Fermentability by Adding Nucleophilic Amino Acids and Proteins in Biomass Pretreatment. Acs Sustainable Chemistry&Engineering, 2020,8(21):7892-7900.
[16] Wei Su, Changqing Cai, Ping Liu. Supercritical water gasification of food waste: Effect of parameters on hydrogen production. International Journal of Hydrogen Energy, 2020,45(29):14744-14755.
[17] Ming Gao, Huiyu Li, Hongzhi Ma. Electricity Enhancement by MFCs from Food Waste Ethanol Fermentation Recycle Stillage Effect of Dilution Ratio and Addition of Tween 80. Chemistryselect, 2020,5(19):5701-5705.
[18] Ting Liu, Pierre Jean, Hongzhi Ma, Huiyu Li. Nitrogen and Phosphorus Doped Activated Carbon Catalyst Prepared from Shrimp Shell and its Application in MFC Air Cathode, Chemistryselect, 2020,5(9):2690-2695
[19] X Cao, SC Sun, B Lu, Y Liu, R Ma, HQ Cao, HZ Ma, HX Huang.Spectral photoluminescence properties of YAG: Ce, R (R: Gd3+, Pr3+, Gd3+ and Pr3+) transparent fluorescent thin film prepared by pulse laser deposition. Journal of Luminescence, 2020,223(117222).
[20] Hongzhi Ma, Yujia Lin, Yong Jin, Ming Gao, Hongai Li, Qunhui Wang,
Shengbo Ge, Liping Cai, Zhenhua Huang , Quyet Van Le , Changlei Xia,
Effect of ultrasonic pretreatment on chain elongation of saccharifified residue from food waste by anaerobic fermentation, Environmental Pollution 268 (2021) 115936
[21] H. Li, M. Gao, PanWang, H. Ma, T. Liu, J. Ni, Q. Wang, T-C. Chang, Cathode catalyst prepared from bacterial cellulose for ethanol fermentation stillage treatment in microbial fuel cell, Chinese Journal of Chemical Engineering (2020), doi: https://doi.org/10.1016/j.cjche.2020.11.001
2019年
[22] Wei Su, Yi Xing, Hongzhi Ma. Numerical simulation of a new horizontal spray tower for sintering flue gas desulfurization. Journal of Engineering Research, 2019,7(4):1-17.
[23] Obadia-Kyetuza Bishoge, Xinmei Huang, Lingling Zhang, Hongzhi Ma, Charity Danyo. The adaptation of waste-to-energy technologies: towards the conversion of municipal solid waste into a renewable energy resource. Environmental Reviews, 2019,27(4):435-446.
[24] Yong Jin, Yujia Lin, Pan Wang, Runwen Jin, Ming Gao, Qunhui Wang, Tien-Chin Chang, Hongzhi Ma. Volatile fatty acids production from saccharification residue from food waste ethanol fermentation: Effect of pH and microbial community. BioresourceTechnology, 2019,292(121957).
[25] Huiyu Li, Hongzhi Ma, Ting Liu, Jin Ni, Qunhui Wang. An excellent alternative composite modifier for cathode catalysts prepared from bacterial cellulose doped with Cu and P and its utilization in microbial fuel cell. Bioresource Technology, 2019,289(121661).
[26] Yong Jin, Sonayu Huang, Qunhui Wang, Ming Gao, Hongzhi Ma. Ceramsite production from sediment in Beian River: characterization and parameter optimization. Royal Society Open Science, 2019,6(8):190197.
[27] Mashair-Anwar Saeed, Qunhui Wang, Huiyu Li, Yong Jin, Hongzhi Ma. Microbial Community in Ethanol-methane Coupling Fermentation Treating Food Waste. Bioresources, 2019,14(3):5672-5682.
[28] Yong Jin, Ming Gao, Hongai Li, Yujia Lin, Qunhui Wang, Maobing Tu, Hongzhi Ma. Impact of nanoscale zerovalent iron on volatile fatty acid production from food waste: key enzymes and microbial community. Journal of Chemical Technology and Biotechnology, 2019,94(10):3201-3207.
[29] Bodjui-Olivier Abo, Ming Gao, Yonglin Wang, Chuanfu Wu, Qunhui Wang, Hongzhi Ma. Production of butanol from biomass: recent advances and future prospects. Environmental Science and Pollution Research, 2019,26(20):20164-20182.
[30] Mashair-Anwar Saeed, Qunhui Wang, Yong Jin, Siyuan Yue, Hongzhi Ma. Assessment of Bioethanol Fermentation Performance Using Different Recycled Waters of an Integrated System Based on Food Waste. Bioresources, 2019,14(2):3717-3730.
[31] Bodjui-Olivier Abo, Ming Gao, Yonglin Wang, Chuanfu Wu, Hongzhi Ma, Qunhui Wang. Lignocellulosic biomass for bioethanol: an overview on pretreatment, hydrolysis and fermentation processes. Reviews on Environmental Health, 2019,34(1):57-68.
[32] Hongzhi Ma, Hongai Li, Fengying Zhang, Qunhui Wang, Maobing Tu, Effects of nitrogen substitute and Hypericum perforatum extract on the ethanol fermentation of traditional Chinese medicine dregs. Industrial Crops and Products, 2019,128:385-390.
[33] Hongzhi Ma, Huiyu Li, Jiao Gang, Qunhui Wang. Optimization of Ethanol Fermentation from Fruit and Vegetable Waste by Plackett-Burman and Orthogonal Experimental Design. Bioresources, 2019,14(1):1210-1218
[34] Hongzhi Ma, Siyuan Yue, Hongai Li, Qunhui Wang, Maobing Tu, Recovery of lactic acid and other organic acids from food waste ethanol fermentation stillage: Feasibility and effects of substrates. Separation and Purification Technology, 2019,209:223-228.
[35] 张玲玲,张钊溪,李子富,马鸿志,李天昕,李宝铭.环境专业留学生全英文实践教学培养模式探索——以太阳集团欢迎您环境专业留学生教育为例[J].教育教学论坛,2019(43):145-148.
[36] 马鸿志. 环境工程生产实习中对学生开展素质教育的实践研究[C]. 《环境工程》编委会、工业建筑杂志社有限公司.《环境工程》2019年全国学术年会论文集(下册).《环境工程》编委会、工业建筑杂志社有限公司:《环境工程》编辑部,2019:1080-1083.
[37] 牛茹轩,高明,蔡洪英,马英群,岳波,马鸿志,吴川福.重庆市废有机溶剂产生特性[J].中国环境科学,2019,39(03):1101-1108.
[38] 李惠雨,宫宝涵,马鸿志,靳勇.物联网技术在环境工程领域中的应用研究[J].资源节约与环保,2019(02):126-128.
2018年
[39] Miao Yu, Ming Gao, Lihong Wang, Yuanyuan Ren, Chuanfu Wu, Hongzhi Ma, Qunhui Wang. Kinetic modelling and synergistic impact evaluation for the anaerobic co-digestion of distillers’ grains and food waste by ethanol pre-fermentation. Environmental Science and Pollution Research, 2018,25(30):30281-30291.
[40] Mashair-Anwar Saeed, Hongzhi Ma, Siyuan Yue, Qunhui Wang, Maobing Tu. Concise review on ethanol production from food waste: development and sustainability. Environmental Science and Pollution Research, 2018,25(29):28851-28863.
[41] Xiaoyu Ma, Zhen Gao, Ming Gao, Yingqun Ma, Hongzhi Ma, Min Zhang, Yu Liu, Qunhui Wang. Microbial lipid production from food waste saccharified liquid and the effects of compositions. Energy Conversion and Management, 2018,172:306-315.
[42] Hongzhi Ma, Cheng Peng, Yan Jia, Qunhui Wang, Maobing Tu, Ming Gao. Effect of fermentation stillage of food waste on bioelectricity production and microbial community structure in microbial fuel cells. Royal Society Open Science, 2018,5(9):180457.
[43] Chuanfu Wu, Miao Yu, Qiqi Huang, Hongzhi Ma, Ming Gao, Qunhui Wang, Kenji Sakai. Stimulation of methane yield rate from food waste by aerobic pre-treatment. Bioresource Technology, 2018,261:279-287.
[44] 苏伟,李丹,马鸿志,周远松,冯瑞,吕绿洲.OBE教育模式在冶金工业环境保护课程教学中的应用[J].中国冶金教育,2018(06):60-62.
[45] 马鸿志,岳斯源,王飞,陈辉伦,常雁红,苏伟,季宏兵.课题化教学在环境工程生产实习中的应用[J].高等理科教育,2018(05):116-120.
[46] 马鸿志. 物联网技术在中国环境保护方面的应用研究[C]. 中国环境科学学会(Chinese Society for Environmental Sciences).2018中国环境科学学会科学技术年会论文集(第四卷).中国环境科学学会(Chinese Society for Environmental Sciences):中国环境科学学会,2018:44-47.
[47] 邢奕,苏伟,马鸿志,路培,洪晨,姜博.基于OBE的教育模式在“环境工程项目管理”课程中的应用探索[J].教育教学论坛,2018(07):74-75.
专利成果:
已授权
1) 马鸿志;李惠雨;刘听;罗捷;高明;吴川福;汪群慧,一种微生物燃料电池阴极催化剂的制备方法,申请日:2019-06-10,201910496951.5
2) 吴越;马鸿志;刘丹妮;侯文华,一种河道植被多样性恢复方法和多层天然材料河床,申请日:2015-12-25,201510993767.3
3) 马鸿志;王睿;周全;张凤英;王晓娜;汪群慧,一种梯级利用中药渣制备乙醇和生物炭的方法,申请日:2015-12-15
4) 马鸿志;杨健;于淼;张凤英;汪群慧,一种缓解糟液回流对餐厨垃圾乙醇发酵的负面影响的方法,申请日:2015-09-12,201510580694.5
5) 汪群慧;马英群;郑露;陈焕玺;陈月芳;马鸿志,利用甲乙醇作为酯交换剂制备生物柴油的新方法,申请日:2013-10-18,ZL 201310490151.5
6) 马鸿志;于淼;石珊珊;刘国军;汪群慧,一种提高抑菌保存后餐厨垃圾乙醇发酵产率的方法,申请日:2013-01-16,ZL 201310015313.X
7) 汪群慧;石姗姗;孙晓红;马鸿志;王娟,一种用食品废物制备生物燃料丁醇的方法,申请日:2011-05-31,ZL 201110143747.9
8) 汪群慧;马鸿志;艾恒雨;张文毓;左彦东;范元国,一种适用于城市内河底泥综合处理的系统,申请日:2011-05-06,ZL 201110116645.8
9) 汪群慧;张文毓;马鸿志;王利娟;高明;赵芳妮,絮凝-过滤联合工艺预处理餐厨垃圾乙醇发酵液的方法,申请日:2010-11-23,ZL 201010562885.6
10) 王化军;马鸿志;刘旭;仵晓丹;葛鹏;何秋慧,地沟油制备的捕收剂用于萤石浮选的方法,申请日:2010-05-12,ZL 201010169961.7
11) 王化军;马鸿志;葛鹏;刘旭;何秋慧;仵晓丹,地沟油制备的捕收剂用于铁矿石浮选脱硅的方法,申请日:2010-05-12,ZL 201010169968.9
12) 王化军;马鸿志;于慧梅;高明;刘旭;苏伟;何秋慧;葛鹏,地沟油制备的浮选药剂的制备方法、用途和使用工艺,申请日:2010-05-12,ZL 201010169975.9
13) 王化军;马鸿志;于慧梅;葛鹏;刘旭;仵晓丹;何秋慧,地沟油制备的捕收剂用于磷灰石浮选的方法,申请日:2010-05-12,ZL 201010169971.0
14) 汪群慧;张文毓;马鸿志;夏佳乐;刘英颖;苏伟,一种适用于餐厨垃圾乙醇发酵的乳酸抑菌方法,申请日:2009-09-22,ZL 200910093048.0
15) 马鸿志;何非;汪群慧;常树林;颜士花;张文毓,一种适用于餐厨垃圾乙醇发酵的预处理设备,申请日:2008-11-21,ZL 200810226945.X
16) 汪群慧;马鸿志;尹玮;宫丽娟,酒糟混合液发酵产糖化酶及利用此糖化酶发酵餐厨垃圾生产酒精的方法,申请日:2007-08-24,ZL 200710072705.4
17) 汪群慧;尹玮;马鸿志;邹德勋,一种菌糠促进餐厨垃圾乳酸发酵的方法,申请日:2007-06-21,ZL 200710117684.3
18) 汪群慧;马鸿志;宫丽娟;晏辉,一种适合于餐厨垃圾乙醇发酵的复合酵母及其应用方法,申请日:2007-02-07,ZL 200710063684.X
19) 汪群慧;晏辉;马鸿志;宫利娟,一种餐厨垃圾发酵生产燃料乙醇的方法,申请日:2006-10-24,ZL 200610114006.7
20) 高明;朱文彬;阴紫荷;汪群慧;马鸿志;吴川福,一种利用餐厨垃圾发酵生产己酸的方法,申请日:2020-03-17,CN202010189970.6
在申
21) 马鸿志;贺凯飞;李鹏;王长龙;罗捷;武文宇;高明,一种利用煤气化残渣制备高效能超级电容器材料的方法,申请日:2020-05-14,CN202010408543.2
22) 马鸿志;林雨佳;常强;孙伟;于子强;靳勇;高明;汪群慧,通过富集窖泥中己酸功能菌发酵白酒酒糟产己酸的方法,申请日:2020-03-25,CN202010220126.5
23) 苏伟;马鸿志;刘萍;林海;蔡长青;历新燕,一种超富集植物资源化利用的方法,申请日:2020-03-20,CN202010199969.1
24) 苏伟;邢奕;蔡长青;梁宝瑞;马鸿志;宋存义;王琳,利用水泥窑尾气中的CO2预处理飞灰水洗废水的系统及方法,申请日:2020-02-12,CN202010095019.4
25) 马鸿志;靳勇;林雨佳;高明;汪群慧,一种利用瘤胃微生物提高餐厨垃圾糖化渣发酵产酸的方法,申请日:2019-11-14,201911113351.2
科研项目:
1. 国家重点研发计划,政府间国际科技创新合作,2022YFE0105700,厨余垃圾和纤维类废物制乙醇关键技术及示范,2022.6-2024.12,300万元,在研,项目负责人
2. 国家重点研发计划“固废资源化”重点专项,SQ2019YFC190052-02,城镇湿垃圾制备高值液体化学品定向生物转化技术研究,2019.12–至今,440万元,在研,子课题负责人
3. 国家重点研发计划重点专项,2018YFC1900904-01,固相残余物生化特性及复杂组分好氧深度腐熟技术 2018.12-2022.11,127万,参与
4. 国家自然科学基金面上项目,51378003,餐厨垃圾乙醇发酵过程中副产物累积影响及调控机理研究, 2014.01-2017.12,80万,主持
5. 北京高等学校“青年英才计划”,固定化酵母联合渗透汽化发酵餐厨垃圾产乙醇的研究,2013.6-2016.3,15万,主持
6. 科技部国际合作项目,2013DFG92600,餐厨垃圾制醇基生物燃料的全资源化技术合作研究,2013.4-2015.12,145万,参加
7. 国家重大科技专项(水专项),2012ZX07201002-6,底栖生态系统及河滨带的构建及工程示范,2012.4-2016.12,224万,参加
8. 环保部公益项目,201309023,废有机溶剂和废矿物油污染特征与污染风险控制研究,2013.3-2016.12,425万,参加
9. 国家自然科学基金青年项目,51008020乳酸菌用于餐厨垃圾抑菌保存的机理及对其乙醇发酵的影响研究,2011.1-2013.12,20万,主持
10. 纵向项目,国家外国专家局,生物质废物发酵产丁醇的抑制物的确定及对代谢途径的影响,2018.1-2019.1,3.5万,主持
11. 横向项目,北京矿冶科技集团有限公司,江西新金叶实业有限公司冶炼烟气脱硫升级改造工程技术方案制定,2019.1-2020.12,85万,分担40万,参加人,在研
12. 横向项目,环境保护部环境规划院,德州市生态系统评价与生态分级控制策略研究专题德州市生态红线,2016.5-2016.7,90万,分担20万,参加人,完成
13. 横向项目,天安门地区市容环境卫生管理事务,天安门地区环境卫生管理专项规划研究,2016.5-2016.11,19.3万,分担5万,参加人,完成
荣誉获奖:
1. 北京市科技进步三等奖,北京市,2008年.
2. 黑龙江省环保厅二等奖,黑龙江省环保厅,2013年.
3. 太阳集团欢迎您研究生教学二等奖,太阳集团欢迎您,2010年.
4. 太阳集团欢迎您教育教学一等奖,太阳集团欢迎您,2015年.
5. 北京市教育教学二等奖,北京市,2018年.
6. 黑龙江省科学技术二等奖,黑龙江省,寒冷地区水质综合保障技术及应用 2020-J090-2-R09,2020年.
学术/社会兼职:
1. 北京环境科学学会,高级会员
2. 中国沼气学会,会员
3.《工程科学学报》,青年编委