教育背景与工作经历
教育背景
2004/09 – 2008/07,哈尔滨工业大学,热能与动力工程,学士
2008/09 – 2010/07,哈尔滨工业大学,热能工程系,硕士
2010/08 – 2015/01,澳大利亚纽卡斯尔大学,化学工程系,博士
工作经历
2015/05 – 至今,bat365在线登录入口讲师、副教授代表性研究成果
科研项目
[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,2018.1-2020.12,28万,主持,已结题
[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,2016.07-2018.06,20万,主持,已结题
[3].企业委托/上海化学工业区升达废料处理有限公司,H2018301113,2018.10-2018.11,固体和油热解及燃烧测试及动力学分析,3.2万,主持,结题
[4].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,2020.1-2023.12,60万元,参与(排序2),在研
代表性论文
[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.
[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.
[3].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.
[4].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.
[5].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.
[6].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
[7].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
[8].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)
[9].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.
[10].Liu D*, Jin J, Xiong Z, Stanger R, Wall T. Dynamic measurement of liquid‐phase mass transfer coefficient and significance on the SO2 absorption rate. Asia‐Pac J Chem Eng. 2018, 13:1-12 IF:1.3
[11].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.
[12].LIU D, LI W, CHENG Q, et al. Measurement and modeling of nitrogen oxides absorption in a pressurized reactor relevant to CO2 compression and purification process [J]. International Journal of Greenhouse Gas Control, 2020, 100:103107.
[13].LIU Z, LIU D* , ZHAO B*, et al. Mercury removal based on adsorption and oxidation by fly ash: A review [J]. Energy & Fuels, 2020, 34(10): 11840-66.
[14].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): 2355-65.
[15].CHENG Q, LI W, LIU D*,et al. Simultaneous absorption of NOx and SO2 into water and acids under high pressures [J]. Energy & Fuels, 2020, 34(8): 9787-95.
[16].LIU Z, LIU D*, JIN J, et al. Impact of gas impurities on the Hg0 oxidation on high iron and calcium coal ash for chemical looping combustion [J]. Environmental Science and Pollution Research, 2020, http://link.springer.com/article/10.1007/s11356-020-11872-z
[17].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, 49(5),21-28,IF:0.258
[18].刘敦禹*, Wall T., Stanger R.富氧燃烧烟气冷凝塔钠碱法脱硫过程SO2和CO2共吸收建模与实验研究[J].化工学报,2018, 69(9), 4019-4029.
[19].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.
荣誉与奖励
主讲课程