欢迎光临武汉理工大学安全科学与应急管理学院!
职称:特设研究员
电话:
邮箱:malun3g@whut.edu.cn malun3g@126.com
研究方向: 低碳清洁燃烧与能源高效利用、生物质资源化高值化利用、有机固废热处置与资源化、燃烧污染物控制、燃烧数值模拟
l 个人简介
马仑,工学博士,武汉理工大学安全科学与应急管理学院特设研究员,湖北省科技创新团队带头人,中文核心期刊《工程科学与技术》、《热力发电》青年编委,《洁净煤技术》特约编辑。博士毕业于华中科技大学能源与动力工程学院,煤燃烧国家重点实验室副研究员/博士后。主要研究方向为低碳清洁燃烧与能源高效利用、生物质资源化高值化利用、有机固废热处置与资源化(阴燃处置、热解、气化)、燃烧污染物控制、燃烧数值模拟。主持国家自然科学基金、中国博士后科学基金项目、生态环境部国家黄河流域生态保护和高质量发展联合研究项目、武汉市晨光计划项目、企业技术研发项目等20余项;作为项目骨干参与国家重点研发计划、国家自然科学基金项目、企业技术研发项目等10余项。相关研究成果已发表期刊论文130余篇(其中以第一作者或通讯作者身份在Environmental Science & Technology、Waste Management、Journal of Hazardous Materials、Applied Energy、Energy、International Journal of Hydrogen Energy等国际一流期刊发表SCI论文30余篇);授权国家专利30余项、申请发明专利10余项;制定行业标准4项、团体标准1项;获省电力科学技术进步一等奖1项、二等奖1项;担任多个国际SCI期刊审稿人。
l 主要荣誉及学术任职
[1]中文核心/EI期刊《工程科学与技术》青年编委
[2]中文核心期刊《热力发电》青年编委
[3]湖北省科技创新团队带头人
[4]河南省电力科学技术进步一等奖
[5]河南省电力科学技术进步二等奖
[6]武汉市科创局科技专家库专家
[7]中国知网高被引学者TOP 5%
l 主讲课程
[1] 本科生课程:《燃烧与爆炸学》、《防火防爆工程》
[2] 硕士研究生课程:《高等传热学》
l 近5年主持的代表性科研项目
[1] 高含水有机固废阴燃处置中富孔硅铝酸盐调质床料原位降碳控氮协同重金属固化研究,国家自然科学青年基金.
[2] 黄河流域典型分散式有机固废热化学处置关键技术研究,国家黄河流域生态保护和高质量发展联合研究项目.
[3] 富氧高温下煤焦气化反应对混煤燃烧交互作用的影响研究,中国博士后基金.
[4] 锅炉低负荷安全高效运行模拟研究.
[5] 武汉市自然科学基金探索计划项目.
[6] 燃煤耦合氨燃烧数值模拟研究.
[7] 生物质与煤耦合燃烧的实验研究及数值模拟.
[8] 锅炉燃用神华煤防结焦、超温改造研究与应用.
[9] 大型超临界W火焰锅炉安全经济运行优化研究.
[10] 城市生活污泥综合处置技术—小型污泥干化系统特性分析及运行测试研究.
[11] 百万等级燃煤发电机组低负荷安全运行参数建模及经济性分析服务.
[12] 低灰熔点煤洁净安全掺烧技术及全流程配煤决策系统研究.
l 代表性表论文 (第一作者或通讯作者,截止2025年1月)
[1] Lun Ma*, Qingyan Fang, Gang Chen, Cheng Zhang, Kaiyuan Li*. A novel low-NOx swirl burner with coal-ammonia co-firing: Effect of ammonia ratio in the dual channels on combustion and NOx formation. Process Safety and Environmental Protection, 2024.(JCR Q1区, IF: 6.9,第一作者+通讯作者)
[2] Lun Ma*, Kaiyuan Li, Qingyan Fang*, Gang Chen, Cheng Zhang. A novel swirl burner with coal co-firing ammonia: Effect of extension length of the dual-channel ammonia pipe on combustion and NOx formation. International Journal of Hydrogen Energy,2024,78: 344-352.(JCR Q1区, IF: 7.5,第一作者+通讯作者)
[3] Lun Ma, et al. Self-sustained smouldering treatment technology for high-moisture sludge: pilot-scaled tests with continuous operation. Waste Management, 2024.(JCR Q1区, IF: 8.1,第一作者)
[4]Lun Ma, Yu Qiao*, Cheng Zhang, Jingchun Huang, Qingyan Fang. Volumetric scaling up self-sustained smouldering of printing and dyeing sludge with high moisture content. Journal of Cleaner Production, 2024, 450: 141971.(JCR Q1区, IF: 11.1,第一作者)
[5] Xianqiang Su, Xinke Chen, Qingyan Fang *, Lun Ma *, Peng Tan, Cheng Zhang, Gang Chen, Chungen Yin. An integrated model for flexible simulation of biomass combustion in a travelling gratefired boiler. Energy, 2024, 307: 132605. (JCR Q1区, IF: 9.0,通讯作者)
[6]Yan Zhao, Cheng Zhang*, Lun Ma*, Shenghui Yu, Junchen Li, Peng Tan, Qingyan Fang, Guangqian Luo, Hong Yao, Gang Chen. Comprehensive effect of increased calcium content in coal on the selenium emission from coal-fired power plants: Combined laboratory and field experiments. Journal of Hazardous Materials, 2024, 470: 134141. (JCR Q1区, IF: 13.6,通讯作者)
[7] Xianqiang Su, Qingyan Fang*, Lun Ma*, Chungen Yin, Xinke Chen, Cheng Zhang, Peng Tan, Gang Chen. Mathematical modeling of a 30 MW biomass-fired grate boiler: A reliable baseline model taking fuel-bed structure into account. Energy, 2024, 288: 129861.(JCR Q1区, IF: 9.0,通讯作者)
[8] Yan Zhao, Cheng Zhang*, Lun Ma*, Shenghui Yu, Changle Yuan, Junchen Li, Peng Tan, Qingyan Fang, Guangqian Luo, Gang Chen. Modeling of arsenic migration and emission characteristics in coal-fired power plants. Journal of Hazardous Materials, 2024, 465: 133213.(JCR Q1区, IF: 13.6,通讯作者)
[9] Lun Ma, Yan Zhao, Cheng Zhang, Xianqiang Su, Yu Qiao*, Qingyan Fang, Jingchun Huang, Dongyan Zhang. Reducing CO/NO and absorbing heavy metals in self-sustained smouldering of high-moisture sludge by regulating inert media with low-cost natural zeolite. Environmental Pollution, 2023, 337: 122556. (JCR Q1区, IF: 9.5,第一作者)
[10]Lun Ma, Anli Zhou, Qingyan Fang, Cheng Zhang, Yuan Li, Xinping Zhao, Rui Mao, Liming Ren. Co-firing coal slime with anthracite in a down-fired utility boiler: Experimental and numerical investigations. Journal of Energy Engineering, 2023,, 149 (02): 0402206. (JCR Q3区, IF: 1.8,第一作者)
[11]Anli Zhou, Lun Ma*. Thermogravimetric Analysis on co-gasification characteristics of sludge and straw under CO2 atmosphere. Processes, 2023, 11(5):1402.(JCR Q2区, IF: 3.4,通讯作者)
[12]Lun Ma, Chao Yan, Chao Feng, Yu Qiao*, Jingchun Huang, Qingyan Fang, Cheng Zhang*. Experimental investigation on self-sustained smouldering of food-processing sludge with extremely high moisture content: From laboratory-scale to pilot-scale volumetric scale-up. Waste Management, 2022, 158: 13-22.(JCR Q1区, IF: 8.1,第一作者)
[13]Lun Ma, Xianqiang Su, Xinke Chen, Qingyan Fang *, Cheng Zhang, Yuan Li, Rui Mao, Liming Ren, Xinping Zhao. Insight into the combustion effect of the high-reactivity char particle on the low-reactivity char particle in a hot O2/CO2 atmosphere. Chemical Engineering Research and Design, 2022, 188:15-26 (JCR Q2区, IF: 3.7,第一作者)
[14]Shaodan Jia1, Lun Ma1*, Xinke Chen, Qingyan Fang*, Cheng Zhang. Effect of deflector angle and number on evaporation performance of desulfurization wastewater in a spray drying tower. Journal of Industrial and Engineering Chemistry, 2022.(JCR Q1区, IF: 5.6,共同一作+通讯作者)
[15]Xianqiang Su, Qingyan Fang*, Lun Ma*, Bin Yao, et al. Improving combustion and lowering NOx emissions of an industrial coal swirl burner by optimizing its nozzle structure. Applied Thermal Engineering, 2022: 119340.(JCR Q1区, IF: 6.4,通讯作者)
[16]Lun Ma, Xinke Chen, Jichang Liu, Qingyan Fang*, Cheng Zhang, Gang Chen. Insights into the causes and controlling strategies of gas temperature deviation in a 660 MW tangentially fired tower-type boiler. Applied Thermal Engineering, 2021; 196:117297.(JCR Q1区, IF: 6.4,第一作者)
[17]Lun Ma, Shenghui Yu, Xinke Chen, Qingyan Fang*, Chungen Yin*, Cheng Zhang, Gang Chen. Combustion interactions in oxy-fuel firing of coal blends: An experimental and numerical study. Journal of the Energy Institute, 2021; 94: 413-425.( JCR Q2区, IF: 5.7,第一作者)
[18] Lun Ma, Qingyan Fang*, Cheng Zhang, Gang Chen. Effect of H2O on the combustion characteristics and interactions of blended coals in O2/H2O/CO2 atmosphere. Journal of the Energy Institute, 2021; 94:222-232.(JCR Q2区, IF: 5.7,第一作者)
[19] Lun Ma, Qingyan Fang, Cheng Zhang, Gang Chen. A novel Swiss-roll micro-combustor with double combustion chambers: A numerical investigation on effect of solid material on premixed CH4/air flame blow-off limit. International Journal of Hydrogen Energy, 2021; 46:16116-16126. (JCR Q1区, IF: 6.3,第一作者)
[20] Lun Ma, Qingyan Fang, Cheng Zhang, Gang Chen. Combustion interactions of blended chars under oxidation and gasification competition in oxy-fuel condition. Journal of Energy Engineering, 2021, 147(6): 04021041 (JCR Q2区, IF: 1.8,第一作者)
[21] Lun Ma, Qingyan Fang, Cheng Zhang, Gang Chen. Influence of CH4/air injection location on non-premixed flame blow-off limits in a novel micro-combustor. International Journal of Hydrogen Energy, 2021, 47(9): 6323-6333 (JCR Q1区, IF: 6.3,第一作者)
[22] Lun Ma, Xinke Chen, Shenghui Yu, Zhongjian Zhang, Qingyan Fang*, Cheng Zhang*, Gang Chen. Effect of CO2 atmosphere on Ca-containing mineral transformation behaviors during a Ca dominated coal co-firing with a Si/Al dominated coal in oxy-fuel condition. Journal of the Energy Institute, 2020; 93:2536-2543.(JCR Q2区, IF: 5.7,第一作者)
[23] Lun Ma, Shenghui Yu, Qingyan Fang*, Cheng Zhang, Gang Chen. Effect of separated over-fire air angle on combustion and NOx emissions in a down-fired utility boiler with a novel combustion system. Process Safety and Environmental Protection, 2020; 138: 57-66.(JCR Q1区, IF: 7.5,第一作者)
[24] Lun Ma, Qingyan Fang, Chungen Yin, Liu Zhong, Cheng Zhang, Gang Chen. More efficient and environmentally friendly combustion of low-rank coal in a down-fired boiler by a simple but effective optimization of staged-air windbox. Fuel Processing Technology, 2019; 194: 106118.(JCR Q1区, IF: 7.5,第一作者)
[25] Lun Ma, Qingyan Fang*, Chungen Yin*, Huajian Wang, Cheng Zhang, Gang Chen. A novel corner-fired boiler system of improved efficiency and coal flexibility and reduced NOx emissions. Applied Energy, 2019; 238: 453-465.(JCR Q1区, IF: 11.2,第一作者)
[26] Lun Ma, Hao Xu, Xiaoting Wang, Qingyan Fang, Cheng Zhang, Gang Chen. A novel flame-anchorage micro-combustor: Effects of flame holder shape and height on premixed CH4/air flame blow-off limit. Applied Thermal Engineering, 2019; 158: 113836.(JCR Q1区, IF: 6.4,第一作者)
[27]Lun Ma, Anlong Guo, Qingyan Fang*, Tingxu Wang, Cheng Zhang, Gang Chen. Combustion interactions of blended coals in an O2/CO2 mixture in a drop-tube furnace: Experimental investigation and numerical simulation. Applied Thermal Engineering, 2018, 145: 184-200.(JCR Q1区, IF: 6.4,第一作者)
[28] Lun Ma, et al. Effect of the separated overfire air location on the combustion optimization and NOx reduction of a 600MWe down-fired utility boiler with a novel combustion system. Applied Energy, 2016, 180: 104-115. (JCR Q1区, IF: 11.2,第一作者)
[29] Lun Ma, Qingyan Fang*, Peng Tan, Cheng Zhang, Gang Chen, Dangzhen Lv, Xuenong Duan, Yiping Chen. Reducing NOx emissions for a 600MWe down-fired pulverized-coal utility boiler by applying a novel combustion system. Environmental Science & Technology, 2015, 49: 13040-13049. (JCR Q1区, IF: 11.4,第一作者)
[30] Lun Ma, Tingxu Wang, Jichang Liu, Qingyan Fang, Anlong Guo, Cheng Zhang, Gang Chen. Effect of different conditions on the combustion interactions of blended coals in O2/CO2 mixture. Journal of the Energy Institute, 2019; 92: 413-427.(JCR Q2区, IF: 5.7,第一作者)
[31] Lun Ma, Qingyan Fang*, Dangzhen Lv, Cheng Zhang, Gang Chen*, Yiping Chen, and Xuenong Duan. Influence of separated overfire air ratio and location on combustion and NOx emission characteristics for a 600 MWe down-fired utility boiler with a novel combustion system. Energy & Fuels, 2015, 29: 7630-7640.(JCR Q1区, IF: 5.3,第一作者)
[32] 马仑,等. 高湿污泥阴燃处置中多孔氧化铝球调质石英砂床料降低CO/NOx实验研究.工程热物理学报, 2025 (第一作者/通讯作者)
[33] 马启磊,马仑,等. 燃煤锅炉低负荷下燃烧与汽水侧耦合模拟研究.中国电机工程学报, 2025 (通讯作者)
[34] 彭志福,马仑,等. 1000MW双切圆锅炉低负荷下燃烧数值模拟及试验研究. 洁净煤技术, 2025 (通讯作者)
[35] 马启磊,钟文琪,彭志福,等. 基于Apros的二次再热机组灵活运行能耗特性与调控策略研究. 电站系统工程, 2024, 40 (06): 62-65. (通讯作者)
[36] 马仑,方庆艳,张成,陈刚,王学斌. 深度空气分级下煤粉耦合氨燃烧及NO生成特性数值模拟研究洁净煤技术,2022,28(03): 201-213. (中国知网高被引论文)
[37] 马仑,陈鑫科,方庆艳,夏季,张成,陈刚. 富氧下半焦/秸秆混燃交互作用实验研究. 燃烧科学与技术.2022,28(03):247-253.
[38] 马仑,等. 污泥与生物质共热解后残碳气化特性的实验研究. 湖北电力, 2021, 45 (06): 10-16..
[39] 马仑,等. 污泥与生物质秸秆共热解实验研究. 湖北电力, 2021, 45 (03): 1-7.
[40] 马仑,方庆艳,汪涂维,王廷旭,郭岸龙,谭鹏,张成,陈刚. 混煤燃烧过程中的交互作用:煤种对混煤燃烧与NOx排放特性的影响. 煤炭学报,2017,42(09): 2440-2446.
[41] 马仑,汪涂维,方庆艳,郭岸龙,王廷旭,谭鹏,张成,陈刚. 混煤燃烧过程中的交互作用:过量空气系数对混煤燃尽特性的影响. 洁净煤技术,2017,23(04):42-46.
[42] 马仑,汪涂维,方庆艳,谭鹏,张成,陈刚. 混煤燃烧过程中的交互作用:掺混方式对混煤燃烧特性的影响. 煤炭学报,2016,41(09): 2340-2346.
[43] 马仑,方庆艳,张成,陈刚,吕当振,段学农. 600MW W型火焰锅炉拱上二次风低NOx燃烧特性的数值模拟及优化. 燃烧科学与技术,2016,22(01): 64-70.
[44] 马仑,汪涂维,方庆艳,谭鹏,张成,陈刚. 混煤燃烧过程中的交互作用:机理实验研究与数值模拟. 煤炭学报,2015,40(11): 2647-2653.
[45] 马仑,方庆艳,田登峰,张成,陈刚. 亚临界W火焰锅炉磨煤机组合运行方式优化数值模拟[J]. 动力工程学报,2015,35(07): 517-523.
l 授权专利 (排名前3专利,截止2024年4月)
[1]马仑,方庆艳,余圣辉,张成,陈刚.一种基于瑞士卷结构的双腔环形微燃烧器. 国家发明专利(专利号):202010463469.4. 授权日期: 2021.7.27.
[2]马仑,方庆艳,周安鹂,刘基昌,谭鹏,张成,陈刚. 一种气体预热强化火焰稳定性的微燃烧器. 国家发明专利(专利号):201710871505.9. 授权日期: 2019.4.12.
[3]马仑,方庆艳,谭鹏,李鑫,张小培,张成,陈刚. 一种基于气体预热与强化回流提高火焰稳定性的微燃烧器. 国家发明专利(专利号):201710887153.6. 授权日期: 2019.4.12.
[4]马仑,陈鑫科,方庆艳,闫泓池,夏季,张成,陈刚. 一种适用于生物质堆垛的仓储结构. 专利号: 202121830756.0. 授权日期: 2022.2.1.
[5]马仑,陈鑫科,方庆艳, 毛睿,张小军,马双忱. 一种用于燃煤电厂SCR脱硝的喷氨装置. 实用新型 专利号: 202120819685.8. 授权日期: 2021.12.17.
[6]方庆艳,马仑,张成,陈刚. 一种W火焰锅炉SCR系统脱硝运行优化方法.国家发明专利(专利号):201410100354.3. 授权日期:2015.7.22.
[7]方庆艳,马仑,张成,陈刚. 含湿污泥增氧燃烧方法及装置.国家发明专利(专利号): 201410856474.6. 授权日期:2017.8.11.
[8] 方庆艳,马仑,张成,陈刚.含湿污泥增氧燃烧装置. 专利号:201420872353.6. 授权日期:2015.6.17.
[9] 陈鑫科,方庆艳,马仑,谭鹏,张成,陈刚.一种基于余热分级利用的日用瓷连续生产系统及方法. 国家发明专利(专利号):202010313657.9. 授权日期: 2021.11.19.
[10]方庆艳,叶骥,马仑,张成,陈刚. 可变炉内停留时间的含碳固体燃料混合燃烧试验炉及方法. 国家发明专利(专利号):2015101933301. 授权日期:2016.6.22.
[11]陈鑫科,方庆艳,马仑,张成,陈刚. 一种基于多级循环的链式烘干机. 国家发明专利(专利号):202110683582.8. 授权日期: 2022.07.19.
[12]方庆艳,陈鑫科,马仑,张成,陈刚. 一种前后墙对冲锅炉. 专利号: 202110683582.8. 授权日期: 2022.01.
[13]陈鑫科,方庆艳,马仑,谭鹏,张成,陈刚. 一种负荷可调节的分离式热管换热器. 专利号: 202020434459.3. 授权日期: 2020.12.08.
[14]方庆艳,叶骥,马仑,谭鹏,张成,陈刚. 一种含碳固体燃料混合燃烧试验炉. 专利号: 201520344137.9. 授权日期:2015.9.16.
[15]方庆艳,陈鑫科,马仑,张成,陈刚. CFD(Fluent)后处理软件-锅炉燃烧煤粉沿程燃尽信息统计软件[简称:锅炉燃烧煤粉沿程燃尽信息统计软件] V1.3, 软件著作权登记号:2020SR0729933, 登记日期2019.11.01.
更多论文研究成果见网站:https://www.researchgate.net/profile/Lun-Ma-4
l 科研成果获奖情况
[1]2022年河南省电力科学技术进步一等奖
[2]2023年河南省电力科学技术进步二等奖
l 招生信息
[1] 研究生招生专业:安全工程、消防工程、动力工程与工程热物理、环境工程等相关专业背景的学生。
[2] 具体要求:以科学基础研究和实践应用工程研究相结合,请提供个人简介至本人邮箱,本科有科研经历的学生优先考虑。
[3] 培养理念:构建平等自由、教学相长、互利共赢的师生关系,让同学品质、科研能力和实践应用能力都得以提升与彰显。
