夏德宏檢視原始碼討論檢視歷史
|
夏德宏,男,北京科技大學能源與環境工程學院教授。
人物簡歷
教育經歷
1979.9~1983.7 北京科技大學(原北京鋼鐵學院)冶金系 冶金爐專業 工學學士
1983.9~1985.12 北京科技大學(原北京鋼鐵學院)冶金系 熱能工程專業 工學碩士
1990.03~1992.09 作為聯合國開發計劃署(UNDP)選派的高級訪問學者, 在The Catholic University of America從事煤炭清潔利用國際合作研究
工作經歷
2016.04~至今 北京科技大學能源與環境工程學院 教授、副院長
2009.10~2016.04 北京科技大學機械工程學院 教授、副院長
2001.10~2009.10 北京科技大學熱能工程系 教授、系副主任
1992.10~2001.10 北京科技大學熱能工程系 副教授
1985.12~1992.10 北京科技大學熱能工程系 講師
研究方向
1)工業節能與低碳技術
2)清潔能源開發與能源高效利用
3)非線性熱科學理論與應用
4)廢棄物全資源化利用
5)污染物形成機制與控制
社會兼職
北京熱物理與能源工程學會常務理事。
國家水煤漿工程技術中心工業爐窯燃燒技術中心主任
科研項目
[1] 2017~2020,小顆粒頁岩乾餾技術研發(企業合作)
[2] 2017~2019,蓄熱式軋鋼加熱爐能效數據的測試與收集(中國標準化研究院)
[3] 2015~2018,節能環保型輕燒氧化鎂新技術研發(企業合作)
[4] 2015~2018:立式石墨化爐配套餘熱回收系統設計(企業合作)
[5] 2015~2018,褐煤全循環提質技術研究與關鍵設備開發(企業合作)
[6] 2014~2017,直接還原中的焙燒與還原熱工工藝設計、仿真與優化研究(中國鋼研)
[7] 2014~2017,中國油頁岩全資源循環利用開發研究(企業合作)
[8] 2014~2017,基於貧氧燃燒和高溫熱回收技術節能工業爐的開發(企業合作)
[9] 2014~2017,油頁岩乾餾爐及其配套乾餾工藝系統設計、軟件包的開發(企業合作)
獲獎情況
[1] 2018年,獲國務院政府特殊津貼
[2] 1993年,「工業爐窯水煤漿燃燒成套技術」獲國家科學技術進步三等獎
[3] 2016年,獲評北京市高等學校教學名師
[4] 2014年,獲評寶鋼優秀教師獎
[5] 2004年,「燒結機水煤漿點火新技術」獲得中國冶金礦山科學技術獎
[6] 2002年,「燒結機用乳化及再輻射聚焦點火技術」獲北京市科學技術三等獎
學術成果
論文
[1] Jiang B, Xia D*, Yu B, Xiong R, Ao W, Zhang P, Cong L, An environment-friendly process for limestone calcination with CO2 looping and recovery. Journal of Cleaner Production, 2019, 240: 188147. (SCI, 5-Year IF: 7.051)
[2] Jiang B, Xia D*, Guo H, Xiao L, Qu H, Liu X, Efficient waste heat recovery system for high-temperature solid particles based on heat transfer enhancement. Applied Thermal Engineering, 2019, 155: 166-174. (SCI, 5-Year IF: 4.022)
[3] Jiang B, Xie Y, Xia D*, Liu X, A potential source for PM2.5: Analysis of fine particle generation mechanism in Wet Flue Gas Desulfurization System by modeling drying and breakage of slurry droplet. Environmental Pollution, 2019, 246: 249-256. (SCI, 5-Year IF: 6.152)
[4] Jiang B, Xia D*, Zhai F, Zhang R, Liu X, Theoretical heat conduction equation based on micro particle vibration fundamental. International Journal of Thermal Sciences, 2019, 140: 521-529. (SCI, 5-Year IF: 3.623)
[5] Jiang B, Xie Y, Xia D*, Liu X, Effect of the molecular structure of volatile organic compounds on atmospheric nucleation: A modeling study based on gas kinetic theory and graph theory, Atmospheric Environment, 2019, 213: 215-222. (SCI, 5-Year IF: 4.459)
[6] Yan S, Xia D*, Zhang X, Jiang B, A complete depolymerization of scrap tire with supercritical water participation: A molecular dynamic simulation study. Waste Management, 2019, 93:83-90. (SCI, 5-Year IF: 5.993)
[7] Jiang B, Xia D*, Zhang X. A multicomponent kinetic model established for investigation on atmospheric new particle formation mechanism in H2SO4-HNO3-NH3-VOC system. Science of the Total Environment, 2018, (616-617): 1414-1422. (SCI, 5-Year IF: 5.727)
[8] Wen Y, Xia D*. Particle size prediction of magnesium nanoparticle produced by inert gas condensation method. Journal of Nanoparticle Research, 2018, 20(1):4.
[9] Jiang B, Wen Y, Li Z, Xia D*, Liu X.Theoretical Analysis on the Removal of Cyclic Volatile Organic Compounds by Non-Thermal Plasma. Water, Air, & Soil Pollution, 2018, 229(2):35. (SCI, 5-Year IF: 1.774)
[10] Jiang B, Xia D*. Role identification of NH3 in atmospheric secondary new particle formation in haze occurrence of China, Atmospheric Environment, 2017, (163): 107-117. (SCI, 5-Year IF: 4.459)
[11] Wen Y, Xia D*, Xuan W. Modeling for particle size prediction and mechanism of silicon nitride nanoparticle synthesis by chemical vapor deposition. Aerosol Science and Technology, 2017, 51(7): 845-855. (SCI, 5-Year IF: 1.960)
[12] Wen Y, Xia D*. Particle size prediction of magnesium nanoparticle produced by inert gas condensation method. Journal of Nanoparticle Research, 2018, 20:4. (SCI, 5-Year IF: 2.009)
[13] Xia D*, Jiang B, Xie Y. Modeling and analysis of PM 2.5, generation for key factors identification in China. Atmospheric Environment, 2016, 134:208-216. (SCI, 5-Year IF: 4.459)
[14] Xia D*, Li Z, Xie Y, Zhang X. Kinetic Simulations of Volatile Organic Compounds Decomposition by Non-thermal Plasma Treatment. Water, Air, & Soil Pollution. 2016, 227:463. (SCI, 5-Year IF: 1.774)
[15] Xia D*, Zhang Q, Wu H, Xuan W. New Process of High-Quality Syngas Production through Sequential Oxidation−Reduction Cycles of Pulverized Coals. Energy & Fuel, 2016, 30, 864-870. (SCI, 5-Year IF: 2.983)
[16] Wen Y, Xia D*. Influence of thermal process on particle size distribution of ultrafine magnesium powder prepared by inert gas condensation method. Powder Technology, 2015, 286:16-21. (SCI, 5-Year IF: 3.476)
[17] Xia D*, Wen Y, Ren L, Hu X. Mechanisms of thermal process of zinc ultrafine powder preparation by inert gas condensation. Powder Technology, 2014, 257(5):175-180. (SCI, 5-Year IF: 3.476)
[18] Xia D*, Wu H, Lei X. A sequential cycle of coal gas production with high heating value consisting of reduction and oxidation reactions. Fuel, 2014, 133(1):123-128. (SCI, 5-Year IF: 5.223)
[19] Xia D*, Shen, L., Ren, L., Guo, S. A binary array method for calculating thermal conductivity of porous materials. Journal of Thermal Analysis and Calorimetry, 2014, 117 (2):825-829. (SCI, 5-Year IF: 1.981)
[20] Zhu F., Zhou Y., Feng Q., Xia D*. Moisture diffusivity in structure of random fractal fiber bed. Physics Letters, Section A: General, Atomic and Solid State Physics, 2013, 377 (37):2324-2328. (SCI, 5-Year IF: 1.910)
[21] Xia D*, Zhang G,Guo L. Numerical Simulation and Innovation on Magnesium Reduction Process, Journal of Thermal Science, 2006(3): 15. (SCI, 5-Year IF: 0.633)
[22] Wu Y, Xia D*, Research on the Thermal Radiation Characteristics of Ionic Crystals, Heat Transfer—-Asian Research, 2006, 35(2).
[23] Xia D*, Wu Y. Heat Radiative Characteristics of Ultra-attenuated Materials,Journal of University of Science & Technology Beijing, 2004, 11 (4).
[24] Xia D*, Wu Y. A Mathematical Model for the Heat Radiation Characteristics of Materials, Journal of Thermal Science, 2004, 13(1). (SCI, 5-Year IF: 0.633)
[25] Xia D*, Wu Y. Enhancement of Heat radioactive characteristics of Coatings by Ultra-attenuation,Journal of University of Science & Technology Beijing, 2004, 11(2).
[26] Xia D*, Yu T. A Study on the Interaction Mechanism between Thermal Radiation and materials, 2005, 14(4).
發明專利
[1] 夏德宏,蔣濱繁,郭梁,趙栗,王杏坤,袁曉強,一種難浸金礦氧化熱解耦預處理方法
[2] 蔣濱繁,敖雯青,夏德宏,張培昆,一種產物氣循環煅燒石灰石與二氧化碳資源化回收工藝
[3] 蔣濱繁,郭浩,曲恆宇,劉向軍,夏德宏,一種針對寬粒徑散料的自然分級和均衡布料方法及裝置
[4] 夏德宏,曲恆宇,劉向軍,蔣濱繁,一種對高溫含塵煙氣的除塵換熱一體化處理裝置及方法
[5] 夏德宏,郭梁,一種廢輪胎收油系統及收油方法
[6] 雷曉平,夏德宏,王旭佳,郭梁,趙栗,粉煤熱解聯合氣化的系統及方法
[7] 夏德宏,張艷,胡梟,一種同心環式彈性金屬蜂巢及熱交換裝置
[8] 雷曉平,夏德宏,徐元博,趙栗,一種高效塊狀油頁岩提油的裝置及方法
[9] 夏德宏,陳良澤,利用鎂還原爐爐渣生產高效鈣鎂硫硅肥的新工藝
[10] 夏德宏,舒斌,李一帆,一種碳化鈣常壓還原煅燒菱鎂礦的方法
[11] 夏德宏,鄔婕,吳永紅,一種聚焦輻射式燒結機節能點火爐
[12] 夏德宏,高慶昌,吳永紅,一種內置中心換熱裝置導熱油加熱爐
[13] 夏德宏等,大型鍛造加熱爐水煤漿燃燒與應用技術
[14] 夏德宏等,高濃度水煤漿燃燒器
[15] 王世均,夏德宏,卓長生等,水煤漿貯罐[1]