刘敦禹
(按照姓氏拼音排序)

    刘敦禹,博士,副教授

    地址:上海市杨浦区军工路516一办404,上海,200093

    邮箱:liudunyu@usst.edu.cn

    教育经历

    2010/08 – 2015/01,澳大利亚纽卡斯尔大学,化学工程系,博士

    从师于Prof. Terry Wall(导师)、Dr Yinghui Liu Dr Rohan Stanger

    2008/09 – 2010/07,哈尔滨工业大学,热能工程系,硕士(保研)

    从师于吴少华教授(导师)、秦明副教授、刘辉教授
    2004/09 – 2008/07
    ,哈尔滨工业大学,热能与动力工程,本科

    工作经历

    2015/05 – 至今,上海理工大学讲师、副教授

    研究方向

    申请者从研究生开始,一直从事洁净煤燃烧的相关工作,坚持在污染物净化领域进行研究。至今共发表学术论文40多篇,其中第一作者或通讯作者22篇(12SCI 10EI及核心论文),包括本领域的主流期刊Int J Greenh Gas ConInd Eng Chem ResEnergy & FuelsChinese Journal of Chemical EngineeringAsia-Pacific Journal of Chemical Engineering等。入职以来获得了国家自然科学基金、上海市“浦江人才”、上海理工大学“思学学者”、“志远学者”等多个纵向和横向项目的资助。目前兼职上海理工大学学报英文编辑、多个国际和国内学术期刊的审稿专家、入选上海市科委专家。获得过《环境工程》年度优秀审稿专家、教学竞赛二等奖、年度优秀教师、优秀师生共同体等荣誉。

    主要项目和人才称号

    [1].国家自然科学基金项目青年科学基金,51706143,基于煤化学链燃烧Co@TiO2@Fe2O3核壳结构载氧体的炉内脱汞机理研究2018.1-2020.1228万,在研,主持

    [2].上海市浦江人才计划项目,16PJ1407900,富氧燃烧高压脱硫过程中以S-氧化物自由基和N-S-氧化物转化为基础的反应机制研究,2016.07-2018.0620万,主持,已结题

    [3].上海市高校青年教师培养资助计划,ZZsl15005,燃煤电厂富氧燃烧烟气中NOxSO2高压下协同吸收到石灰石浆液中的相互作用机制及模型,2016.01-2018.015万,主持,已结题

    [4].上海理工大学博士科研启动基金,“富氧燃烧常压吸收塔的优化设计研究”,3万,负责人,结题

    [5].上海理工大学思学学者计划,2016.6 2019.67.2 万,独立,结题

    [6].上海理工大学研究生课程建设项目,11000131,高等燃烧学,2018.4-2019.33万,主持,结题

    [7].上海理工大学志远学者计划,2019.6 2022.612.6 万,独立,在研

    [8].上海理工大学教学发展中心研究项目,CFTD1940022018.12 — 2019.1,基于研究型设计性实验的《燃烧学》课程教学改革初探,0.5万,主持,结题

    [9].企业委托/上海化学工业区升达废料处理有限公司,H20183011132018.10-2018.11,固体和油热解及燃烧测试及动力学分析,3.2万,主持,结题

    [10].企业委托/北京贝尼斯特科技有限公司,H20163010062015.12-2016.11,工业锅炉能效诊断系统软件研发,33.8万,参与(排序3),结题

    [11].企业委托/辽宁中电投电站燃烧工程技术研究中心有限公司,H20173010442017.03-2018.03,准东矿区煤煤质特性分析及碱金属赋存、迁移规律研究,18万,参与(排序2),结题

    [12].企业委托/上海发电设备成套设计研究院有限责任公司,H20173011262017.06-2017.09T91管喷涂后传热与沾污特性试验研究,9.5万,参与(排序2),结题

    [13].国家自然科学基金面上项目,51976129,准东煤燃烧过程中钙对锅炉受热面灰沉积层形成作用机制研究,2020.1-2023.1260万元,参与(排序2),在研

    杂志文章

    2014年前

    [1].Liu, D., Liu, Y., Wall, T*. CO2 Quality Control in Oxy-fuel Combustion: A Dynamic Study on the Absorption of SO2 into Sodium Based Aqueous Solutions Relevant to Scrubbing Prior to CO2 Compression [J]. Int J Greenh Gas Con, 2013, 12: 2-8. (二区)

    [2].Liu, D., Liu, Y., Wall, T.*, Stanger, R. CO2 Quality Control by Scrubbing in Oxy-fuel Combustion Prior to Compression: Relating pH to the Liquid Composition from Absorption of SO2 into Sodium Based Solutions to Identify an Operational pH Window [J]. Int J Greenh Gas Con, 2013, 19: 462-470. (二区)

    [3].刘敦禹 秦明* 刘辉, 曹庆喜, 吴少华. 深度空气分级条件下炉内氮氧化物生成的数值模拟[J]. 燃烧科学与技术, 2011, 17(4):469-475

    [4].刘敦禹 秦明* 孙巧群, 吴少华. 600MW超超临界墙式切圆锅炉燃烧过程数值模拟[J].热能动力工程, 2011, 26(1), 89-93

    [5].Cao, Q., Wu, S.*, Liu, H., Liu, D., Qiu, P. Experimental and Modelling Study of the Effects of Multicomponent Gas Additives on Selective Non-catalytic Reduction Process [J]. Chemosphere, 2009, 76(9): 1199-1205.

    [6].Liu, H*., Feng, Y., Wu, S., Liu, D. The Role of Ash Particles in the Bed Agglomeration During the Fluidized Bed Combustion of Rice Straw [J]. Bioresour. Technol, 2009, 100(24): 6505-6513

    2015

    [7].Liu, D., Wall, T.*, Stanger, R.CO2 Quality Control through Scrubbing in Oxy-fuel Combustion: An Evaluation of Operational pH Impacts, and Prediction of SO2 Absorption Rate at Steady State [J].Int J Greenh Gas Con, 2015, 32: 37-46. (二区)

    [8].Liu, D., Wall, T.*, Stanger, R., Luo, C. CO2 Quality Control through Scrubbing in Oxy-fuel Combustion: Simulations on the Absorption Rates of SO2 into Droplets to Identify Operational pH Regions [J]. Int J Greenh Gas Con, 2015, 37:115-126. (二区)

    [9].Liu, D., Wall, T*., Stanger, R. CO2 Quality Control through Scrubbing in Oxy-fuel Combustion: Rate Limitation Due to S (IV) Oxidation in Sodium Solutions in Scrubbers and Prior to Waste Disposal [J]. Int J Greenh Gas Con, 2015, 39:148-157. (二区)

    [10].Guo S, Wang H*, Liu D, Yang L, Wei X, Wu S. Understanding the Impacts of Impurities and Water Vapor on Limestone Calcination in a Lab-scale Fluidized Bed [J]. Energy & Fuels, 2015, 29:7572-7583. (二区)

    2016

    [11].Liu D.*, Xiong Z., Jin J., Wall, T., Stanger, R. Conceptual design of a packed bed for the removal of SO2 in Oxy-fuel combustion prior to compression[J]. Int J Greenh Gas Con, 2016, 53:65-78(二区)

    [12].Liu D.*, Wall T., Stanger, R. CO2 quality control in Oxy-fuel technology for CCS: SO2 removal by the caustic scrubber in Callide Oxy-fuel Project [J]. Int J Greenh Gas Con, 2016, 51:207-217 (二区)

    [13].Yao, Y, Jin, J*, Liu D, Wang, Y., Kou, X., and Lin, Y. Evaluation of vermiculite in reducing ash deposition during the combustion of high-calcium and high-sodium Zhundong coal in a drop-tube furnace[J]. Energy Fuels, 2016, 30(4): 34883494 (二区)

    [14].Wang H*., Guo S., Liu D., Yang L., Wei X., and Wu S. Influence of Water Vapor on Surface Morphology and Pore Structure during Limestone Calcination in a Lab-scale Fluidized Bed[J]. Energy Fuels, 2016, 30(5): 38213830 (二区)

    [15].Xiong Z.*, Hu Q, Liu D., Wu, C., Zhou, F., Wang, Y., Jin, J., and Lu, C. Influence of partial substitution of iron oxide by titanium oxide on the structure and activity of iron-cerium mixed oxide catalyst for selective catalytic reduction of NOx with NH3 [J]. Fuel, 2016, 165:432-439.  (二区)

    [16].Zhao B*, Su Y., Liu D, Zhang, H., Liu, W, Cui, G. SO2/NOx emissions and ash formation from algae biomass combustion: Process characteristics and mechanisms [J].Energy, 2016, 113: 821-830 (一区)

    [17].Wang H*, Guo S, Liu D, et al. Understanding the Impacts of Water Vapor on CaO Sulfurization in a Laboratory-Scale Fluidized Bed[J]. Energy & Fuels, 2016, 30(9): 7108-7117. (二区)

    [18].Wang H*, Guo S, Liu D, et al. A dynamic study on the impacts of water vapor and impurities on limestone calcination and CaO sulfurization processes in a microfluidized bed reactor analyzer[J]. Energy & Fuels, 2016, 30(6): 4625-4634. (二区)

    2017

    [19].寇学森, 金晶*, 刘敦禹,. 氯元素含量对准东煤中钠、钙迁移特性影响实验研究[J]. 化工进展, 2017, 36(2):525-529.

    [20].高姗姗, 金晶*, 刘敦禹,. 蛭石复合添加剂对准东煤灰特性影响[J]. 化工进展, 2017(9):3280-3286.

    [21].Qin M,* Liu D, Wu S, et al. Numerical Simulations on Flow Characteristics of Flue Gas in Furnace with Four-Wall Tangential Firing[J]. Combustion Science & Technology, 2017(2):1-19. (二区)(导师一作)

    [22].王永贞,金晶*,刘敦禹,杨浩然,翟中媛,李焕龙. 330MW燃准东煤电站锅炉烟气沿程灰沉积特性研究[J]. 中国电机工程学报,2017,37(21):6373-6380.

    [23].Wang Y., Jin J*., Liu D., et al. Understanding ash deposition for Zhundong coal combustion in 330 MW utility boiler: focusing on surface temperature effects[J]. Fuel, 2017,216: 697-706. (二区)

    [24].郭明山, 金晶, 刘敦禹,. 添加木质素对污泥热解过程氮转化的影响[J]. 化工学报, 2017, 68(4):1590-1599.

    2018

    [25].Liu D.*, Jin J., Gao M., et al. A comparative study on the design of direct contact condenser for air and oxy-fuel combustion flue gas based on Callide Oxy-fuel Project[J]. Int J Greenh Gas Con, 2018, 75:74-84 (二区)

    [26].Lin L., Liu D.*, Jin J., et al. High Iron and Calcium Coal Ash As the Oxygen Carrier for Chemical Looping Combustion [J]. Ind. Eng. Chem. Res., 2018, 57(29):9725-9736. (二区)

    [27].Liu D*, Jin J, Xiong Z, Stanger R, Wall T. Dynamic measurement of liquidphase mass transfer coefficient and significance on the SO2 absorption rate. AsiaPac J Chem Eng. 2018, 13:1-12 IF:1.3 (四区)

    [28].Liu D.*, Jin J., Gao M., et al, Dataset for the estimation of costs for direct contact condenser, Data in Brief, 2018. https://doi.org/10.1016/j.dib.2018.08.042

    [29].于帅帅, 刘敦禹, 陈军*. NOx在高压下生成亚硝酸的实验研究[J]. 动力工程,2018,389725-731.

    [30].刘敦禹*,范雪东,章蕾. 基于拟牛顿法气-液直接接触式冷却塔设计实例研究[J].锅炉技术2018, 495,21-28,IF:0.258

    [31].刘敦禹*, Wall T., Stanger R.富氧燃烧烟气冷凝塔钠碱法脱硫过程SO2CO2共吸收建模与实验研究[J].化工学报2018, 69(9), 4019-4029.

    [32].刘敦禹* 程潜, 金晶. 基于pH测量的CO2吸收到钠基溶液动态实验及模型[J]. 化工进展2018, 37(S1), 35-42.

    [33].刘江楠,金晶*刘敦禹. 有机朗肯循环系统布置及参数优化对低速柴油机余热利用的影响及经济性分析[J]. 内燃机工程,2018391:49-55.

    [34].Yang, H.; Jin, J*.;Liu, D.;Wang, Y.;Zhao, B. The influence of vermiculite on the ash deposition formation process of Zhundong coal [J] Fuel, 2018, 230: 89-97

    2019

    [35].Cheng Q., Liu D.*, Chen J., et al. Gas-phase oxidation of NO at high pressure relevant to sour gas compression purification process for oxy-fuel combustion flue gas[J].Chinese Journal of Chemical Engineering, 2019, 27(4):884-895. (四区)

    [36].林黎明,刘敦禹*,金晶,程潜. 高铁高钙煤灰载氧体反应特性及机理分析[J].化学工程2019, 47(4), 50-54.

    [37].程潜,刘敦禹*,陈军,李伟,金晶. 富氧燃烧烟气高压同时脱硫脱硝及液相产物氧化[J]. 化学工程,2019, 47(4), 17-22.

    [38].B. Zhao, J. Jin*, S. Li, D. Liu, R. Zhang, H. Yang, Co-pyrolysis characteristics of sludge mixed with Zhundong coal and sulphur contaminant release regularity, Journal of Thermal Analysis and Calorimetry (2019). https://doi.org/10.1007/s10973-019-08300-x

    [39].李伟,刘敦禹*,陈军,等基于鼓泡反应器高压联合脱除富氧燃烧烟气中NOxSOx的建模分析[J].环境工程,201947(4):17-22

    2020

    [40].Ni, M., Liu, D.*, Jin J., et al. Ranking Oxygen Carriers for Elemental Mercury Oxidation in Coal-Fired Chemical-Looping Combustion: A Thermodynamic Approach [J]. Energy & Fuels, 2020. 34(2): 2355-2365

    [41].王文杰刘敦禹*李伟. 高压鼓泡反应器中NOx吸收过程及建模研究[J].燃烧科学与技术,2020(工程热物理会议推荐录用)

    教改文章

    [1].  刘敦禹* 蕾, 王秋麟,高 明, 章立新. 以课题为中心的能源与环境创新创业课程教学方法[J]. 教育教学论坛,2017, 18:176-177.

    [2].  刘敦禹*,章 蕾,王瑞娟,金晶. 滴定实验台与设计性实验教学应用探索[J].实验室研究与探索,2019,38(6):172-176(北大核心)

    招生要求

    每年招收4名左右硕士研究生。

    要求:

    1)追求卓越,勇攀高峰;

    2)脚踏实地,吃苦耐劳;

    3)善于沟通,合作共进;

    英语能力好,有志于进一步深造者优先!