姓名 | 董辉 | 性别 | 男 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
出生年月 | 1969年6月 | 政治面貌 | 九三学社 (东北大学基层委主任委员) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
职称 | 教授 | 职务 | 热能工程系主任 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
联系电话 | 024-83678808 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
电子邮箱 | dongh@mail.neu.edu.cn | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
学习工作经历: 学习经历 2000/09-2006/01,东北大学,热能工程,博士 1996/09-1999/03,东北大学,化工过程机械,硕士 1988/09-1992/06,武汉化工学院,化工设备与机械,学士
工作经历 1992/08-1996/08,沈阳轮胎总厂,设备处,工程师 1999/03-至今,东北大学,热能工程系,教授、系主任
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主要研究方向: 1. 颗粒移动床、气流输送床的颗粒运动与气固换热机理 2. 竖式炉窑、回转窑、气流床式热解炉的热工行为 3. 过程工业中低温余热回收与利用 4. 镁产业大气污染物防控与“碳中和”关键理论与技术 5. LNG冷能利用 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
近年讲授课程: 1. 制冷原理与装置(本科) 2. 能量系统的热力学分析(硕士) | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
所在团队情况: 热能工程与制冷技术研究所(董辉团队)
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人才培养情况: 培养硕士研究生53人(毕业39人),培养博士研究生10人(毕业2人)。所指导研究生,1人获得东北大学优秀博士论文,2人获得辽宁省优秀硕士论文,6人获得东北大学优秀硕士论文。
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科研项目情况: 近五年科研项目:
其他: 1、国家863计划(目标导向类):烧结过程余热资源分级回收与梯级利用示范工程 2、国家自然科学基金项目:烧结余热罐式回收系统的基础研究 3、环保部计划项目:《钒工艺污染物排放标准》修订单 4、省科技计划项目:(1)辽宁省节能减排技术评价指标体系与应用示范;(2)辽宁省节能减排技术目录编制及绩效考评指标体系建设;(3)辽宁省重点节能减排技术示范推广、运行跟踪及目录编制;(4)辽宁省节能减排技术评价指标体系与应用示范;(5)辽宁省“十三五”节能环保产业科技发展规划编制;(6)辽宁省节能减排技术重点项目与目录编制。
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论文著作: [1]A review on Fenton process for organic wastewater treatment based on optimization perspective. SCIENCE OF THE TOTAL ENVIRONMENT, 2019, 670: 110-121.(高被引) [2]Dynamic exergy analysis of a novel LNG cold energy utilization system combined with cold. heat and power, Energy, 2020, 21(12). [3]Effect of operating parameters on gas-solid exergy transfer performance in sinter annular cooler. Applied Thermal Engineering, 2020, 181(25). [4]DEM study on the effects of pellet characteristics on particle flow in rectangular hopper. Powder Technology, 2020, 373: 476-487. [5]A novel combined system for LNG cold energy utilization to capture carbon dioxide in the flue gas from the magnesite processing industry. Energy, 2019, 15, 187. [6]Using cryogenic exergy of liquefied natural gas for electricity production with the Stirling cycle. Energy, 2013, 63:10-18. [7]Frictional pressure drop characteristics of air flow through sinter bed layer in vertical tank. Powder Technology, 2019, 344: 177-182. [8]Effect of gas inlet parameters on exergy transfer performance of sinter cooling process in vertical moving bed. Applied Thermal Engineering, 2019, 152: 126-134. [9]Parameter optimization of gas–solid heat transfer process in sinter packed bed based on further exergy analysis, Chemical Engineering Research and Design. 2019,146:499–508. [10]Thermal analysis of sinter vertical cooler based on waste heat recovery, Applied Thermal Engineering. 2019, 159. [11]Experimental Investigation of volumetric heat transfer coefficient in vertical moving-bed for sinter waste heat recovery. Applied Thermal Engineering, 2019, 151: 335-343. [12]Experimental investigation of volumetric exergy transfer coefficient in vertical moving bed for sinter waste heat recovery. Energy, 2019, 167: 428-439. [13]Experimental and DEM studies on the distribution of voidage in the random filling bed of ellipsoidal particles. Powder Technology, 2018, 340, 12: 400-410. [14]Study on the sodium oxidation properties of low-iron vanadium-titanium magnetite with high vanadium and titanium. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2018, 40(17):1998-2008. [15]Theoretical and experimental investigation on vertical tank technology for sinter waste heat recovery. JOURNAL OF CENTRAL SOUTH UNIVERSITY, 2017,24: 281-2287. [16]Experimental study of gas–solid overall heat transfer coefficient in vertical tank for sinter waste heat recovery. Applied Thermal Engineering, 2016,95:136-142. [17]Numerical investigation of gas-solid heat transfer process in vertical tank for sinter waste heat recovery. Applied Thermal Engineering, 2016,107:135-143. [18]Cold energy utilization of liquefied natural gas for capturing carbon dioxide in the flue gas from the magnesite processing industry. Energy, 2016, 105:45-56. [19]Exergy transfer characteristics of gas-solid heat transfer through sinter bed layer in vertical tank. Energy, 2016, 111:154-164. [20]Experimental study of gas flow characteristics in vertical tank for sinter waste heat recovery. Applied Thermal Engineering, 2015, 91:73-79. [21]Modification of Ergun's correlation in vertical tank for sinter waste heat recovery. Powder Technology,2015,280,89-93. [22]Thermodynamic analysis of efficient recovery and utilisation of waste heat resources during sintering process. INTERNATIONAL JOURNAL OF EXERGY, 2013,12: 552-569. [23]Experimental investigation on the drying process of the sinter mixture. Powder Technology,2012,218: 1-4. [24]烧结矿余热回收竖罐内气固传热特性. 化工学报,2015,66 (11):4418-4423. [25]基于热载体焓(㶲)为判据的环冷机热工参数仿真优化. 化工学报,2017,68 (11): 4129-4136 [26]烧结竖罐床层内的空隙率分布特性. 中南大学学报(自然科学版),2016(1): 8-13. [27]烧结矿余热回收竖罐内气体的流动特性. 中南大学学报(自然科学版),2017,48 (1): 1-8. [28]烧结矿余热回收竖罐内气固传热过程数值分析. 中南大学学报(自然科学版),2017,48 (11):3101-3108. 等。
专著:《烧结余热高效回收理论及应用》. 2020,北京:科学出版社。 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
教学奖励: “东北大学三育人先进个人” “东北大学本科教学标兵” 东北大学教学基本功大赛一等奖 多媒体课件获得全国大赛优秀奖 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
科研奖励: 2015年辽宁省科技进步二等奖,总排名第一 2013年辽宁省科技进步二等奖,总排名第二 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
社会兼职: 辽宁省首批“兴辽英才计划”科技创新领军人才,中国金属学会能源与热工分会秘书长,“国家能源核电运营和寿命管理技术研发中心”专家委员,“辽宁省钒钛资源综合利用专业技术创新中心”主任,辽宁省机械工程学会工业炉分会秘书长,辽宁省机械工程学会环保分会副理事长,《烧结球团》编委会委员。 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
个人寄语: 扫一屋,扫天下,铸就你我梦想! | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
