A: SCI论文
D: 国内核心期刊论文
C: 会议论文
2024
A172. Zhu, Y., Wu, B.K., Li, T.J.*, Liu, D.* (2024): Chemical effects of natural gas components on polycyclic aromatic hydrocarbons and soot formation in inverse diffusion flames, Case Studies in Thermal Engineering 55, 104112.
A171. Qi, D.D., Chen, M.X., Yang, K.X., Li, T.J., Ying, Y.Y., Liu, D.*(2024): Effective reduction on flame soot via plasma coupled with carbon dioxide, Journal of Hazardous Materials 466, 133669.
A170. Guo, L.G., Yu, R.T., Liu, G.N., Liu, D.* (2024): Flash ignition and application of materials: A review, Nano Today 55, 102172.
A169. Chen, M.F., Zhou, K.L.*, Liu, D.* (2024): Machine learning based technique for outlier detection and result prediction in combustion diagnostics, Energy 290, 130218.
A168. Yang, K.X., Qi, D.D., Ying, Y.Y., Zhao, X., Yu, R.T., Chen, C., Yan, W.J., Li, T.J., Liu, D.* (2024): Assessment of magnetic effects on soot characteristics in inverse diffusion ethylene flames, Combustion and Flame 260, 113255.
A167. Chen, M.F.*, Zou, Z.Y., Zhou, K.L., Liu, D.* (2024): A novel AI based combustion diagnostic technology for the identification of chemical source information via flame images: fuel type and reaction condition, Combustion and Flame 260, 113208.
A166. Xiong, C.H., Wu, J., Ji, Z.G., Wu, Y.*, Liu, D. (2024): Unraveling the role of alkali metal in the biochar for enhancing the chemical looping ammonia generation efficiency, Renewable Energy 220, 119690.
A165. Zhang, Y.W., Wang, H.*, Yang, K., Zeng, Q.S., Le, L.Y., Ran, H.Y., Liu, D. (2024): Acid Treatment for Enhancing Hg0 Removal Efficiency of Chlorine-Loaded Biochar: Mechanism and Kinetic Analysis, Environmental Science and Pollution Research 31, 4897-4909.
2023
A164. Guo, L.G., Ying, Y.Y.*, Chen, C., Zhao, X., Liu, D.* (2023): Effects of dimethyl ether and ethanol additions on soot transition in ethylene counterflow diffusion flames, Science China Technological Sciences, in press.
A163. Chen, M.F., Chen, Y., Li, T.J.*, Liu, D.* (2023): Numerical and Experimental Reconstruction of Temperature Distribution and Soot Concentration Field for Thin-Slice Flames Using a Charge Coupled Device Camera, Fire 6, 392.
A162. Le, L.Y., Wang, H.*, Zeng, Q.S., Yang, K., Zhang, Y.W., Ran, H.Y., Liu, D. (2023): Multiscale Understanding of the Mechanism of Mercury Removal by Acid–Chlorine-Modified Biomass Coke: Experiments and Simulations, Energy Fuels 37, 19, 14977–14990.
A161. Wu, R.M., Song, X.D.*, Guo, Q.H., Liu, D., Wei, J.T., Wang, J.F., Bai, Y.H., Yu, G.S.* (2023): Study on the application of laser diagnosis technology in the rapid real time measurement of soot, Applied Energy 350, 121595.
A160. Zhang, R.*, Zhou, J.L., Liu, D.* (2023): Combustion characteristics of millimeter-sized aluminum particles in fluidized bed, Powder Technology 429, 118924.
A159. Chen, C., Liu, D.* (2023): Review of effects of zero-carbon fuel ammonia addition on soot formation in combustion, Renewable and Sustainable Energy Reviews 185, 113640.
A158. Wu, Y.*, Zou, L.Z., Zhu, H., Mei, J., Yang, K.X., Cui, Y.H., Qian, K., Han, Y.H., Fan, M.H., Liu, D.* (2023): Improved combustion of NH3/C2H4 with Ni modified Fe-based catalyst, Chemical Engineering Journal 472, 145187.
A157. Sun, T.L., Wu, Y.*, Mei, J., Zhu, H., Qian, K., Liu, D.* (2023): Using cerium modified ferric oxide as oxygen carrier for enhancement of fuel efficiency, Journal of the Energy Institute 111, 101351.
A156.于润田, 马曼曼, 秦钊*, 刘冠楠, 张睿, 刘冬* (2023): 纳米硼基复合金属颗粒弥散燃烧的诊断研究, 光谱学与光谱分析 43(10): 3252-3259.
A155. Qi, D. D., Chen, M.X., Tu, X., Liu, D.*(2023): Experimental study on effects of gas flow rate on soot characteristics in diffusion flames coupled with plasma, Science China Technological Sciences, in press.
A154. Yang, S.H., Zhang, R.*, Zhou, X., Liu, D.* (2023): Study of Cool Flames of Octane Isomers in the Counterflow Burner, Combustion Science and Technology, 195, 16, 4017-4031.
A153. Li, T.J., Zhang, C.X.*, Liu, D.* (2023): Simultaneously retrieving of soot temperature and volume fraction in participating media and laminar diffusion flame using multi-spectral light field imaging, International Journal of Thermal Sciences 193, 108472.
A152. Li, T.J.*, Zhang, C.X., Chu, C., Wu, B.K., Yan, W.J., Liu, D.* (2023): H2/NH3 addition effects on flame characteristics and soot formation in ethylene inverse diffusion flame, Energy Fuels 37, 9514–9529.
A151. Yang, K., Wang, H.*, Zeng, Q.S., Ran, H.Y., Wu, J.M., Wu, J.F., Liu, D. (2023): Insight into the Mercury Removal Mechanism of Copper Salt-Modified Biomass Coke in an Oxyfuel Combustion Atmosphere, Energy Fuels 37, 8431–8443.
A150. Chen, M.F., Yang, K.X., Zhao, X., Zhou, K.L.*, Liu, D.* (2023): Experimental investigation on soot formation and characteristics of ethylene flames: Scale effects, Journal of the Energy Institute 109, 101289.
A149. Zeng, Q.S., Wang, H.*, Yang, K., Le, L.Y., Zhang, Y.W., Wu, J.M., Ran, H.Y., Zhu, Y.M., Liu, D. (2023): Elemental Mercury Removal from Coal-Fired Flue Gas on Sulfur-Modified Activated Biomass Coke: Experiment and Simulation, Industrial & Engineering Chemistry Research 62, 7420–7433.
A148. Wu, B.K., Li, T.J.*, Liu, D.* (2023): Sensitivity analysis of modeling parameters to soot and PAHs prediction in ethylene inverse diffusion flame, Science China Technological Sciences, in press.
A147. Yang, K.X., Xu, L., Qi, D.D., Zhao, X., Chen, C., Li, T.J., Ying, Y.Y., Liu, D.* (2023): Magnetic field effects on characteristics of counterflow diffusion ethylene flame: An experimental study, Journal of the Energy Institute 108, 101231.
A146. Cao, J., Zhang, R.*, Shi, B.Q., Shi, M.Z., Zhang, L.J., Liu, D. (2023): The study of co-combustion characteristics of coal and duckweed by single particle and TGA methods, Powder Technology 421, 118410.
A145. Ying, Y. Y.*, Liu, D.* (2023): Formation and Evolution of Soot in Ethylene Inverse Diffusion Flames in Ozone Atmosphere. Nanomaterials 13, 816.
A144. Chen, H., Ying, Y.Y.*, Liu, D.* (2023): Detailed kinetic analysis of butanol isomers additions on pyrolysis characteristics of ethylene,Journal of the Energy Institute 108, 101210.
A143. Xiao, J.Y., Xu, T.T.*, Deng, Q.G., Zhao, X., Ying, Y.Y., Li, T.J., Liu, D.* (2023): Coupled interactive effects of ammonia and hydrogen additions on ethylene diffusion flames: A detailed kinetic study, Science China Technological Sciences, in press.
A142. Yu, Y.T., Liu, Y.X., Liu, G.N.*, Ying, Y.Y., Li, T.J., Liu, D.* (2023): Effects of titanium dioxide additions on flash ignition characteristics of aluminum and iron nanoparticles. Frontiers in Energy Research 11, 1090217.
A141. Luo, M.Y., Ren, H., Chen, C., Liu, D.* (2023): Soot formation in asymmetrical ethylene jet flame-wall interactions, Journal of the Energy Institute 106, 101157.
A140. Chen, C., Zhao, X., Qi, D.D., Yang, K.X., Xu, L., Li, T.J., Ying, Y.Y., Liu, D.* (2023): Sooting transition diagnostics in counter-flow flames of C4 isomer fuels, Energy 262, 125612.
A139. Qi, D.D., Ying, Y.Y., Mei, D.H., Tu, X., Liu, D.* (2023): Soot characteristics from diffusion flames coupled with plasma, Fuel 332, 126126.
A138. Zhao, X., Qi, D.D., Yang, K.X., Chen, C., Xu, L., Ying, Y.Y., Li, T.J., Liu, D.* (2023): Effects of diethyl ether addition on sooting transition in iso-octane counterflow diffusion flames, Fuel 332, 126077.
A137. Xu, T.T., Wang, X.*, Zhao, H.B., Xiao, B., Liu, D., Liu, W.* (2023): Modulating lattice oxygen activity of Ca2Fe2O5 brownmillerite for the co-production of syngas and high purity hydrogen via chemical looping steam reforming of toluene, Applied Catalysis B: Environmental 320, 122010.
A136. Cao, J., Zhou, X., Zhang, R.*, Yang, S.H., Liu, D.* (2023): Experimental and numerical study of non-premixed dimethyl ether/methane–air hot flame at elevated pressures, Journal of Thermal Science 32, 401-413.
A135. Zhou, X., Zhang, R.*, Yang, S.H., Liu, D.* (2023): The inhibition effects of CH4/CH3OH on DME cool flames, Journal of Thermal Science 32, 2284-2296.
D21. 刘冠楠, 于润田, 刘冬* (2023): 纳米流体燃料燃烧特性研究进展, 南京理工大学学报(自然科学版) 47(4), 435-445.
D20. 陈扬,吴烨*,刘兴,刘冬 (2023): 燃煤电厂大规模碳捕集、封存耦合供冷的系统建模和优化:降低碳捕集成本新思路, 洁净煤技术, in press.
D19. 阿尔曼江·铁木尔, 陈温鹏, 秦昊仑, 梅剑, 吴烨*, 刘冬 (2023): 铁基载氧体化学链氧化氨气特性的实验研究, 中国电机工程学报 43 (13), 5058-5065.
D18. 吴锦, 邹隆志, 陈扬, 朱航, 梅剑, 熊楚豪, 吴烨*, 刘冬 (2023): 双碳目标下以煤炭为基础的氨合成与清洁利用的未来与挑战, 洁净煤技术 29(7), 21-50.
D17. 陈扬,吴烨*,刘兴,刘冬(2023): 集成供冷的燃煤电厂碳捕集, 封存系统优化分析. 洁净煤技术 29 (4), 109-120.
D16. 包嘉靖, 别洪飞, 王子威, 肖睿, 刘冬, 吴石亮* (2023): 正庚烷对冲扩散火焰中添加长链醚类对碳烟前体生成特性的影响, 化工学报 74 (4), 1680 -1692 .
D15. 张利娟, 张睿*, 刘冬 (2023): 燃煤耦合垃圾焚烧发电系统的全流程模拟与评估分析, 洁净煤技术 29 (9), 109-116.
2022
A134. Li, J., Li, H.T., Chen, C., Liu, G.N., Ying, Y.Y., Li, T.J., Liu, D.* (2022): Edge Effects on Simultaneous Reconstructions of Flame Temperature and Soot Volume Fraction Profiles by a CCD Camera, Sensors 22, 8199.
A133. Tian, D., Xu, L.*, Liu, D.* (2022): Effects of Carbon Chain Length on N-Alkane Counterflow Cool Flames: A Kinetic Analysis, Fire 5, 170.
A132. Ying, Y. Y.*, Liu, D.* (2022): Effects of n-Butanol Addition on the Combustion Characteristics of n-Heptane Counterflow Diffusion Flame at Elevated Pressure, Fire 5, 154.
A131. He, J.Y., Ying, Y.Y.*, Chen, M.X., Liu, D.* (2022): Soot formation characteristics in hybrid pyrolysis of zero-carbon fuel ammonia and ethylene mixtures, Frontiers in Energy Research 10, 996813.
A130. Chen, C., Yang, Q., Zhang, R.*, Liu, D.* (2022): Regulation of organic hydrocarbon pollutants in coal volatiles combustion with CO2 addition, Journal of Cleaner Production 374, 133904.
A129. Zhao, X., Qi, D.D., Yang, K.X., Chen, C., Xu, L., Ying, Y.Y., Li, T.J., Liu, D.* (2022): Sooting transition chemistry for iso-octane/n-butanol counterflow diffusion flames, Journal of the Energy Institute 105, 141–156.
A128. Zhao, R., Liu, D.* (2022): Temperature dependence of ethanol and dimethyl ether chemical mixing effects on soot and gas products in ethylene pyrolysis, Journal of the Energy Institute 105, 1–15.
A127. Deng, Q.G., Ying, Y. Y.*, Liu, D.* (2022): Detailed chemical effects of ammonia as fuel additive in ethylene counterflow diffusion flames, International Journal of Hydrogen Energy 47, 33498–33516.
A126. Chen, C., Zhao, R., Ying, Y. Y.*, Liu, D.* (2022): Kinetic analysis on pyrolysis characteristics of butene isomer fuels with CO2 additions, Journal of Thermal Science 31, 1604–1621.
A125. Ying, Y. Y.*, Duan, J.Q., Liu, D.* (2022): Effects of the upward-increasing gradient magnetic field on soot properties in ethylene inverse diffusion flames with different oxygen concentrations, Frontiers in Energy Research 10, 982391.
A124. Zhao, R., Liu, D.* (2022): Temperature dependence of chemical effects of ethanol and dimethyl ether mixing on benzene and PAHs formation in ethylene counter-flow diffusion flames, Energy 257, 124809.
A123. Chen, C., Yang, Q., Zhang, R.*, Liu, D.* (2022): Assessment on combustion chemistry of coal volatiles for various pyrolysis temperatures, Journal of the Energy Institute 104, 22-34.
A122. Khaskheli, A.A., Xu, L.*, Liu, D.* (2022): Manganese Oxide-Based Catalysts for Soot Oxidation: A Review on the Recent Advances and Future Directions, Energy Fuels36, 7362-7381.
A121. Zhang, R.*, Yang, S.H., Zhou, X., Liu, D.* (2022): Study of Diffusion Cool Flames of Dimethyl Ether in a Counterflow Burner under a Wide Range of Pressures, ACS Omega 7, 25087-25093.
A120. Li, T.J., Lin, X.J., Yuan, Y.*, Liu, D.*, Shuai, Y., Tan, H.P. (2022): Effects of flame temperature and radiation properties on infrared light field imaging, Case Studies in Thermal Engineering 36, 102215.
A119. Xiong, C.H., Wu, Y.*, Feng, M.Q., Fang, J., Liu, D. Shen, L.H., Argyle, M.D., Gasem, K.A.M., Fan, M.H. (2022): High thermal stability Si-Al based N-carrier for efficient and stable chemical looping ammonia generation, Applied Energy 323, 119519.
A118. Qi, D.D., Yang, K.X., Zhao, X., Mei, D.H., Ying, Y.Y., Xu, L., Tu, X., Liu, D.* (2022): Comprehensive optical diagnostics for flame behavior and soot emission response to a non-equilibrium plasma, Energy 255, 124555.
A117. Li, T.J., Gao, P., Zhang, C.X., Yuan, Y.*, Liu, D.*, Shuai, Y., Tan, H.P. (2022): Meshed axisymmetric flame simulation and temperature reconstruction using light field camera, Optics and Lasers in Engineering 158, 107159.
A116. Su, Z.W., Ying, Y. Y.*, Chen, C., Zhao, R., Zhao, X., Liu, D.* (2022): Effects of diluent gases on sooting transition process in ethylene counterflow diffusion flames, RSC Advances 12, 18181.
A115. Li, T.L., Abuelgasima, S., Wang, W.J.*, Xiao, Y.P., Liu, C.L., Ying, Y.Y., Liu, D.* (2022): Enhanced soot oxidation by oxygen vacancies via K+ doped CuFe2O4 spinel catalysts, International Journal of Energy Research 46, 15376–15386.
A114. Zou, Z.Y., Sun, H.W., Chen, C., Zhao, X., Huang, Q., Ying, Y.Y., Li, T.J., Xu, L., Liu, D.* (2022): Quantitative optical diagnostics on macroscopic soot onset for ethylene diffusion flames with ethyl ester addition, Optics Express 30, 21410-21422.
A113. Xu, L., Zhou, M.X., Wang, Y.*, Liu, D.* (2022): Probing sooting limits in counterflow diffusion flames via multiple optical diagnostic techniques, Experimental Thermal and Fluid Science 136, 110679.
A112. Fang, J., Xiong, C.H., Feng, M.Q., Wu, Y.*, Liu, D. (2022): Utilization of carbon-based energy as raw material instead of fuel with low CO2 emissions: Energy analyses and process integration of chemical looping ammonia generation, Applied Energy 312, 118809.
A111. Zhao, R., Liu, D.* (2022): Chemical effects of carbon dioxide in ethylene, ethanol and DME counter-flow diffusion flames: an experimental reference for the fictitious CO2 flame, Journal of the Energy Institute 100, 245-258.
A110. Li, T.L., Abuelgasima, S., Xiao, Y.P., Liu, C.L., Wang, W.J.*, Liu, D.*, Ying, Y.Y. (2022): Investigation of alkali metals addition on the catalytic activity of CuFe2O4 for soot oxidation, Separation and Purification Technology 283, 120224.
A109. Xu, L., Wang, Y.*, Liu, D.* (2022): Effects of oxygenated biofuel additives on soot formation: A comprehensive review of laboratory-scale studies, Fuel 313, 122635.
A108. Wu, Y.*, Mei, J., Wang, W., Zhu, H., Sun, T.L., Cai, T.Y., Liu, D.* (2022): Reducing the NOx emissions during NH3 oxidation with Nickel modified Fe2O3-a promising cost effective and environmentally friendly catalyst for NH3 combustion, Combustion and Flame 237, 111845.
A107. Ma, M.M., Liu, G.N, Qin, Z.*, Zhang, R., Ying, Y.Y., Xu, L., Liu, D.* (2022): Effects of aluminum addition on flash ignition and combustion of boron nanoparticles, Combustion and Flame 236, 111762.
A106. Zhang, L. J., Yang, K. X., Zhao, R., Chen, M. F., Ying, Y. Y., Liu, D.* (2022): Nanostructure and reactivity of soot from biofuel 2,5-dimethylfuran pyrolysis with CO2 additions, Frontiers in Energy 16, 292-306.
D14. 于润田, 马曼曼, 张睿, 秦钊*, 刘冬* (2022): 硼基复合金属燃料单颗粒点火与燃烧特性, 火炸药学报 45 (6), 862-869.
D13. 陈晨, 杨倩, 陈云, 张睿*, 刘冬*(2022): 不同氧浓度下煤挥发分燃烧的化学动力学研究, 化工学报, 73 (9), 4133-4146.
2021
A105. Zhao, X., Xu, L., Chen, C., Chen, M.F., Ying, Y.Y., Liu, D.* (2021): Experimental and numerical study on sooting transition process in iso-octane counterflow diffusion flames: Diagnostics and combustion chemistry, Journal of the Energy Institute 98, 282-293.
A104. Li, J., Liu, G.N., Ying, Y.Y.*, Liu, D.* (2021): On the treatment of lens optical center uncertainty in simultaneous reconstruction of flame temperature and soot volume fraction distributions by a CCD camera. Optik-International Journal for Light and Electron Optics 241, 167238.
A103. Ying, Y. Y.*, Liu, D.* (2021): Soot properties in ethylene inverse diffusion flames blended with different carbon chain length alcohols, Fuel 287, 119520.
A102. Zhang, L. J., Liu, D.* (2021): Formation and characteristics of soot from pyrolysis of ethylene blended with furan fuels, Science China Technological Sciences 64, 585–598.
A101. 胡祥, 葛嘉城, 刘思楠, 伏澍, 吴桢舵, 冯涛, 刘冬, 王循理, 兰司* (2021): 具有异常放热现象的Fe-Nb-B-Y非晶合金燃烧机理, 金属学报 57, 542-552.
D12. 吴烨, 冯鸣谦, 方婧, 刘冬, 张睿, 应遥瑶, 徐磊 (2021): 化学链合成氨技术研究进展及展望, 洁净煤技术 27, 92-106.
2020
A100. Chen, M.F., Liu, D.* (2020): Morphology and Nanostructure Transitions of Soot with Various Dimethyl Ether Additions in Nonpremixed Ethylene Flames at Different Scales, Energy Fuels 34, 16705–16719.
A99. Feng, M.Q., Zhang, Q., Wu, Y., Liu, D. (2020): Using coal coke for N-sorption with Al-based nitrogen carrier during chemical looping ammonia generation, Energy Fuels 34, 12527-12534.
A98. Abdalla, A., Liu, D.*, Zhang, L. J., Zhao, X., Jiang, B., He, X. M. (2020): Nanoscale inspection on carbon particles from commercial RP-3 kerosene combustion with different dilutions, Fullerenes, Nanotubes and Carbon Nanostructures 28, 959-972.
A97. Jiang, B., Jia, P. H., Liu, D.* (2020): Comparative study on soot characteristics of non-swirling and swirling inverse diffusion iso-octane flames with biofuel 2,5-dimethylfuran addition, Journal of the Energy Institute 93, 2108-2123.
A96. Jiang, B., Paladpokkrong, C., Liu, D.* (2020): Comparative Study on Soot Reduction, Soot Nanostructure and Oxidation Reactivity of n-heptane/DMC and Isooctane/DMC Inverse Diffusion Flames, Journal of Thermal Science 29, 1269-1281.
A95. Abdalla, A., Liu, D.*, Zhang, L. J., Zhao, X., Ying, Y. Y., Jiang, B., He, X. M.* (2020): Soot formation and evolution in RP-3 kerosene inverse diffusion flames: Effects of flow rates and dimethyl carbonate additions, Fuel 273, 117732.
A94. Liu, W., Wu, Y.*, Cai, T. Y., Xu, Z. K., Liu, D. Y., Ma, J. L., Chen, X. P., Liu, D. (2020): A molding method of Na2CO3/Al2O3 sorbents with high sphericity and low roughness for enhanced attrition resistance in CO2 sorption/desorption process via extrusion-spheronization method, Powder Technology 366, 520-526.
A93. Zhang, Q., Wu, Y.*, Gao, Y., Chen, X. P., Liu, D., Fan, M. H. (2020): High-performance mesoporous (AlN/Al2O3) for enhanced NH3 yield during chemical looping ammonia generation technology, International Journal of Hydrogen Energy 45, 9903-9913.
A92. Ye, B. Q., Zhang, R.*, Cao, J., Lei, K., Liu, D.* (2020): Thermodynamic and Economic Analyses of a Coal and Biomass Indirect Coupling Power Generation System, Frontiers in Energy 14, 590–606.
A91. Jiang, B., Liu, D.*, Lin, Z. X. (2020): Soot particles diagnostics in ethylene inverse diffusion flame blending with biodiesel surrogates of saturated methyl butyrate and unsaturated methyl crotonate, Fuel Processing Technology 202, 106379.
A90. Wu, Y.*, Gao, Y., Zhang, Q., Cai, T. Y., Chen, X. P., Liu, D., Fan, M. H. (2020): Promising zirconia-mixed Al-based nitrogen carriers for chemical looping of NH3: Reduced NH3 decomposition and improved NH3 yield, Fuel 264, 116821.
A89. Chen, M. F., Liu, D.*, Jiang, B. (2020): Soot formation and combustion characteristics in confined mesoscale combustors under conventional and oxy-combustion conditions (O2/N2 and O2/CO2), Fuel 264, 116808.
A88. Zhang, L. J., Yang, K. X., Zhao, R., Ying, Y. Y., Liu, D.* (2020): Formation and nanoscale-characteristics of soot from pyrolysis of ethylene blended with ethanol/dimethyl ether, Journal of the Energy Institute 93, 1288-1304.
A87. Ye, B. Q., Zhang, R.*, Cao, J., Lei, K., Liu, D.* (2020): The study of co-combustion characteristics of coal and microalgae by single particle combustion and TGA methods, Journal of the Energy Institute 93, 508-517.
A86. Abdalla, A., Ying, Y. Y., Jiang, B., He, X. M.*, Liu, D.* (2020): Comparative study on characteristics of soot from n-decane and RP-3 kerosene normal/inverse diffusion flames, Journal of the Energy Institute 93, 62-75.
2019
A85. Lei, K., Zhang, R.*, Ye, B. Q., Cao, J., Liu, D.* (2019): Combustion of single particles from sewage sludge pine sawdust and sewage sludge bituminous coal under oxy-fuel conditions with steam addition, Waste Management 101, 1-8.
A84. Qi, D. D., Ying, Y. Y., Liu, D.*(2019): Micro- and Nano-structure Evolution of Soot from Isooctane and 2,5-dimethylfuran Flames in Photocatalytic Degradation, Fullerenes, Nanotubes and Carbon Nanostructures 27, 978-993.
A83. Duan, J. Q., Ying, Y. Y., Liu, D.*(2019): Novel nanoscale control on soot formation by local CO2 micro-injection in ethylene inverse diffusion flames, Energy 179, 697-708.
A82. Ying, Y. Y., Liu, D.* (2019): Effects of water addition on soot properties in ethylene inverse diffusion flames, Fuel 247, 187-197.
A81. Liu, G. N., Liu, D.*(2019): Noncontact direct temperature and concentration profiles measurement of soot and metal-oxide nanoparticles in optically thin/thick nanofluid fuel flames, International Journal of Heat and Mass Transfer 134, 237-249.
A80. Liu, G. N., Liu, D.*(2019): Treatment of efficiency for temperature and concentration profiles reconstruction of soot and metal-oxide nanoparticles in nanofluid fuel flames, International Journal of Heat and Mass Transfer 133, 494-499.
A79. Liu, G. N., Liu, D.*(2019): Inverse radiation problem of multi-nanoparticles temperature and concentration fields reconstruction in nanofluid fuel flame, Optik-International Journal for Light and Electron Optics 181, 81-91.
A78. Chen, M. F., Liu, D.*, Ying, Y. Y., Lei, K., Luo, M. Y., Liu, G. N., Zhang, R., Jiang, B. (2019): Experimental study on soot formation, evolution and characteristics of diffusion ethylene/air flames in ψ-shaped mesoscale combustors, Fuel 241, 138-154.
A77. Liu, G. N., Liu, D.*(2019): Influence of self-absorption on reconstruction accuracy for temperature and concentration profiles of soot and metal-oxide nanoparticles in asymmetric nanofluid fuel flames, Optik-International Journal for Light and Electron Optics 178, 740-751.
A76. Jia, P. H., Liu, D.*, Ying, Y. Y., Luo, M. Y., Jiang, B., Zhang, R.* (2019): Nanostructure and reactivity of nascent carbon particles from 2,5-dimethylfuran/n-heptane swirling inverse diffusion flames, Fullerenes, Nanotubes and Carbon Nanostructures 27, 109-119.
A75. Liu, W., Wu, Y.*, Cai, T. Y., Chen, X. P., Liu, D. (2019): Use of nanoparticles Cu/TiO(OH)2 for CO2 removal with K2CO3/KHCO3 based solution: enhanced thermal conductivity and reaction kinetics thus enhancing the CO2 sorption/desorption performance of K2CO3/KHCO3, Greenhouse Gases: Science and Technology 9, 10-18.
A74. Wu, J. P., Liang, K. H., Yang, C. Q., Zhu, J., Liu, D.*(2019): Synthesis of carbon nanotubes on metal mesh in inverse diffusion biofuel flames, Fullerenes, Nanotubes and Carbon Nanostructures 27, 77-86.
A0. Luo, M. Y., Liu, D.* (2019): Pollutants emissions of CO and soot from flame-wall interactions in fundamental and practical energy conversion systems: A review, ES Energy & Environment 3, 4-24.
C53. 应遥瑶,刘冬*:臭氧气氛下乙烯反扩散火焰碳烟的生成与演化研究,中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27. (口头报告)
C52. 叶步青,史兵权,张睿,刘冬:燃煤耦合垃圾焚烧发电系统的热效率和经济性分析,中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27.(墙报交流)
C51. 刘威,吴烨,蔡天意,许志康,马吉亮,陈晓平,刘冬:固体钠基吸附剂机械性能及掺杂改性研究,中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27. (墙报交流)
C50. 张权,吴烨,冯鸣谦,刘冬:载氮体在煤化学链制氨中的吸氮特性研究,中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27. (墙报交流)
C49. 蒋波,刘冬:火焰的“宇宙”(科普作品),中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27.
C48. 赵煊,刘冬,蒋波:对冲扩散火焰的转捩(科普作品),中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27.
C47. 陈鸣飞,刘冬:“三叉戟”型微小燃烧器内不同的火焰形态(科普作品),中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27.
C46. 段佳琪,刘冬:给火焰打针(科普作品),中国工程热物理学会燃烧学学术年会,天津,2019.10.24-2019.10.27.
C45. Ying, Y. Y., Liu, D.* (2019): Impacts of alcohols carbon chain length on nascent soot characteristics:Nanoscale diagnostics, The 1st International Conference on Energy and Environment, Sep. 19-22, Nanjing, China.
C44. Duan, J. Q., Liu, D.* (2019): Diagnostics for chemical structure and nascent soot of ethylene inverse diffusion flames with diluents, The 1st International Conference on Energy and Environment, Sep. 19-22, Nanjing, China.
C43. Jiang, B., Liu, D.* (2019): Nascent soot particles diagnostics in crotonateethylene inverse diffusion flame, The 1st International Conference on Energy and Environment, Sep. 19-22, Nanjing, China.
D11. 刘彦雄,刘冠楠,刘冬* (2019): 纳米铁粉/碳纳米管的光点燃特性研究, 燃烧科学与技术 25, 83-87.
2018
A73. Luo, M. Y., Liu, D.*(2018): Effects of dimethyl ether addition on soot formation, evolution and characteristics in flame-wall interactions, Energy 164, 642-654.
A72. Luo, M. Y., Liu, D.*(2018): Effects of hydrogen addition on nanostructure and reactivity of carbon particles in flame-wall interactions, Fullerenes, Nanotubes and Carbon Nanostructures 26, 756-764.
A71. Zhu, J., Li, F., Liu, G.N., Liu, D.*, Li, Q.Y.*, Kan, E.J. (2018): Synthesis of amorphous carbon film in ethanol inverse diffusion flames, Nanomaterials 8, 656.
A70. Liu, G. N., Liu, D.* (2018): Simultaneous reconstruction of temperature and concentration profiles of soot and metal-oxide nanoparticles in asymmetric nanofluid fuel flames by inverse analysis, Journal of Quantitative Spectroscopy & Radiative Transfer 219, 174-185.
A69. Wu, Y., Cai, T. Y., Zhao, W. W., Chen, X. P.*, Liu, H. Y., Wang, Y. J., Russell, A. G., Fan, M. H.*, Liu, D.(2018): First principle and experimental studies on [ZrO(OH)]+ or ZrO(OH)2 for enhancing CO2 desorption kinetics – imperative to significant reduction of CO2 capture energy consumption, Journal of Materials Chemistry A 6, 17671-17681.
A68. Liu, Y, Wu, Y.*, Akhtamberdinova, Z., Chen, X. P., Jiang, G. D., Liu, D. (2018): Dry reforming of shale gas and carbon dioxide with Ni-Ce-Al2O3 catalyst: syngas production enhanced over Ni-CeOx formation, ChemCatChem 10, 4689-4698.
A67. Zhang, R.*, Lei, K., Ye, B. Q., Cao, J., Liu, D.* (2018): Effects of alkali and alkaline earth metal species on the combustion characteristics of single particles from pine sawdust and bituminous coal, Bioresource Technology 268, 278-285.
A66. Gao, Y., Wu, Y.*, Zhang, Q., Chen, X. P., Jiang, G. D., Liu, D. (2018): N-desorption or NH3 generation of TiO2-loaded Al-based nitrogen carrier during chemical looping ammonia generation technology, International Journal of Hydrogen Energy 43, 16589-16597.
A65. Ying, Y. Y., Liu, D.* (2018): Nanostructure evolution and reactivity of nascent soot from inverse diffusion flames in CO2, N2, and He atmospheres, Carbon 139, 172-180.
A64. Abdalla, A., Liu, D.* (2018): Dimethyl carbonate as a promising oxygenated fuel for combustion: A review, Energies 11, 1552.
A63. Jia, P. H., Ying, Y. Y., Luo, M. Y., Jiang, B., Liu, D.* (2018): Effects of swirling combustion on soot characteristics in 2,5-dimethylfuran/n-heptane diffusion flames, Applied Thermal Engineering 139, 11-24.
A62. Lei, K., Zhang, R.*, Ye, B. Q., Cao, J., Liu, D.* (2018): A Study of Sewage Sludge/Coal Co-combustion by Thermogravimetric Analysis and Single Particle Co-combustion Method, Energy & Fuels 32, 6300-6308.
A61. Liu, G. N., Liu, D.* (2018): Effects of self-absorption on simultaneous estimation of temperature distribution and concentration fields of soot and metal-oxide nanoparticles in nanofluid fuel flames using a spectrometer, Journal of Quantitative Spectroscopy & Radiative Transfer 212, 149-159.
A60. Liu, G. N., Liu, D.* (2018): Direct simultaneous reconstruction for temperature and concentration profiles of soot and metal-oxide nanoparticles in nanofluid fuel flames by a CCD camera, International Journal of Heat and Mass Transfer 124, 564-575.
A59. Liu, G. N., Liu, D.* (2018): On the treatment of self-absorption for temperature and concentration profiles reconstruction accuracy for soot and metal-oxide nanoparticles in nanofluid fuel flame using a CCD camera, Optik-International Journal for Light and Electron Optics 164, 114-125.
A58. Zhang, R.*, Lei, K., Ye, B.Q., Cao, J., Liu, D.* (2018): Combustion characteristics and synergy behaviors of biomass and coal blending in oxy-fuel conditions: A single particle co-combustion method, Science China Technological Sciences 61, 1723-1731.
A57. Liu, G. N., Liu, D.* (2018): Reconstruction Model for Temperature and Concentration Profiles of Soot and Metal-oxide Nanoparticles in a Nanofluid Fuel Flame by CCD Camera, Chinese Physics B 27, 054401.
A56. Liu, D.*, Wang, W., Ying, Y. Y., Luo, M. Y. (2018): Nanostructure and reactivity of carbon particles from co-pyrolysis of biodiesel surrogate methyl octanoate blended with n-butanol, Fullerenes, Nanotubes and Carbon Nanostructures 26(5), 278-290.
A55. Zhang, R.*, Chen,Y. F., Lei, K., Ye, B. Q., Cao, J., Liu, D.* (2018): Thermodynamic and economic analyses of a novel coal pyrolysis-gasification-combustion staged conversion utilization polygeneration system, Asia-Pacific Journal of Chemical Engineering 13, e2171.
A54. Liu, G. N., Liu, D.*, Wei, J. L., Cui, W., Zhu, J. W., Li, S. Q. (2018): Energy conversion and ignition of fluffy graphene by flash light, Energy 144, 669-678.
A53. Paladpokkrong, C., Liu, D.*, Ying, Y. Y., Wang, W., Zhang, R.* (2018): Soot reduction by addition of dimethyl carbonate in normal and inverse ethylene diffusion flames: nanostructural evidence, Journal of Environmental Sciences 72, 107-117.
A52. Liu, D.*, Liu, Y. X., Liu, G.N. (2018): Effects of carbon nanotubes additions on flash ignition characteristics of Fe and Al nanoparticles, Fullerenes, Nanotubes and Carbon Nanostructures 26, 168-174.
A51. Ying, Y. Y., Liu, D.* (2018): Effects of flame configuration and soot aging on soot nanostructure and reactivity in n-butanol-doped ethylene diffusion flames, Energy & Fuels 32, 607-624.
A50. Liu, G. N., Liu, D.* (2018): Inverse radiation analysis for simultaneous reconstruction of temperature and volume fraction fields of soot and metal-oxide nanoparticles in a nanofluid fuel sooting flame, International Journal of Heat and Mass Transfer 118, 1080-1089.
A49. Luo, M. Y., Ying, Y. Y., Liu, D.*(2018): Soot in flame-wall interactions: views from nanostructure and reactivity, Fuel 212, 117-131.
C42. 刘冠楠,刘冬*:Graphene Flame Flower(科普作品),中国工程热物理学会燃烧学学术年会,哈尔滨,2018.9.13-2018.9.16. (获得燃烧学学术年会优秀科普作品)
C41. 应遥瑶,刘冬*:Scale of Pollution(科普作品),中国工程热物理学会燃烧学学术年会,哈尔滨,2018.9.13-2018.9.16.
C40. 蒋波,刘冬*:火焰与“倒影”(科普作品),中国工程热物理学会燃烧学学术年会,哈尔滨,2018.9.13-2018.9.16.
C39. 蒋波,万国鑫,刘冬*:乙烯/丁酸甲酯反扩散火焰初生碳烟颗粒微观结构及氧化特性研究,中国工程热物理学会燃烧学学术年会,哈尔滨,2018.9.13-2018.9.16.
D10. 罗旻烨,应遥瑶,刘冬* (2018): 滞止平板对乙烯射流扩散火焰碳烟特性影响, 工程热物理学报 39, 2804-2808.
2017
A48. Lei, K., Ye, B.Q., Cao, J., Zhang, R.*, Liu, D.* (2017): Combustion characteristics of single particles from bituminous coal and pine sawdust in O2/N2, O2/CO2, and O2/H2O atmospheres, Energies 10, 1695.
A47. Wu, Y., Jiang, G., Zhang, H., Zhao, S., Gao, Y., Chen, X., Liu, H., Tian, H., Fan, M.*, Liu, D.* (2017): Fe2O3, a cost effective and environmentally friendly catalyst for generation of NH3 – a future fuel with a new Al2O3-looping based technology, Chemical Communications 53, 10664–10667.
A46. Liu, Y. X., Liu, D.*, Liu, G. N. (2017): Energy conversion and ignition of iron nanoparticles by flash, Science China Technological Sciences 60, 1878-1884.
A45. Zhao, W., Wu, Y.*, Cai, T., Zhang, W., Chen, X., Liu, D.* (2017): Density functional theory and reactive dynamics study of catalytic performance of TiO2 on CO2 desorption process with KHCO3-TiO2-Al2O3 sorbent, Molecular Catalysis 439, 143–154.
A44. Zhang, R.*, Chen, Y. F., Lei, K., Liu, D.* (2017): The effects of specific surface area and ash on char gasification mechanisms in the mixture of H2O, CO2, H2 and CO, Fuel 209, 109–116.
A43. Wang W., Liu, D.*, Ying, Y. Y., Liu, G. N., Wu, Y.* (2017): On the response of nascent soot nanostructure and oxidative reactivity to photoflash exposure, Energies 10, 961.
A42. Wu, Y.*, Wen, C., Chen, X. P., Jiang, G. D., Liu, G. N., Liu, D.* (2017): Catalytic pyrolysis and gasification of waste textile under carbon dioxide atmosphere with composite Zn-Fe catalyst, Fuel Processing Technology 166, 115-123.
A41. Ying, Y. Y., Liu, D.* (2017): Effects of butanol isomers additions on soot nanostructure and reactivity in normal and inverse ethylene diffusion flames, Fuel 205, 109-129.
A40. Liu, G. N., Liu, D.* (2017): Combustion characteristics of nanofluid fuels in a half-opening slot tube, Science China Technological Sciences 60(7), 1075-1087.
A39. Ying, Y. Y., Xu, C. X., Liu, D.*, Jiang, B., Wang, P. F., Wang, W. (2017): Nanostructure and oxidation reactivity of nascent soot particles in ethylene/pentanol flames, Energies 10(1), 122.
A38. Pan, W., Liu, D.* (2017): Coupled chemical effects of carbon dioxide and hydrogen additions on premixed lean dimethyl ether flames, Science China Technological Sciences 60(1), 102-115.
A37. Jiang, B., Jin, Y., Liu, D., Wu, Z. J., Ding, G. Y., Zhu, Z. X., He, X. M.* (2017): Effects of multi-orifice configurations of the quench plate on mixing characteristics of the quench zone in an RQL-TVC model, Experimental Thermal and Fluid Science 83, 57-68.
A36. Luo, M. Y., Liu, D.* (2017): On the effects of hydrogen addition in premixed formaldehyde flames, International Journal of Hydrogen Energy 42, 3824-3832.
A35. Luo, M. Y., Liu, D.* (2017): Kinetic analysis of ethanol and dimethyl ether flames with hydrogen addition, International Journal of Hydrogen Energy 42, 3813-3823.
A34. Pan, W., Liu, D.* (2017): Effects of hydrogen additions on premixed rich flames of four butanol isomers, International Journal of Hydrogen Energy 42, 3833-3841.
A33. Wen, C., Wu, Y.*, Chen, X.P., Jiang, G.D., Liu, D. (2017): The pyrolysis and gasification performances of waste textile under carbon dioxide atmosphere. Journal of Thermal Analysis and Calorimetry 128, 581-591.
C38. 应遥瑶,蒋波,王智化,刘冬*:臭氧作用下乙烯反扩散火焰碳烟特性研究,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C37. 罗旻烨, 应遥瑶, 刘冬*: 滞止平板对乙烯射流火焰碳烟微观结构和氧化特性影响,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C36. 刘彦雄,刘冠楠,刘冬*:纳米铁粉/碳纳米管的光点燃特性研究,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C35. 王鹏飞,蒋波*,王智化,刘冬:臭氧作用对乙烯扩散火焰特征的影响,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C34. 雷凯,张睿*,刘冬:烟煤与松木屑颗粒在O2/CO2与O2/H2O气氛下的燃烧特性,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C33. 刘岩,吴烨,赵文文,刘冬:页岩气与CO2 催化重整特性研究,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C32. 赵文文,吴烨,蔡天意,张文静,陈晓平,刘冬:钾基纳米流体吸收液催化再生特性研究,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
C31. 高原,吴烨,赵文文,刘冬:基于化学链反应AlN 制氨的催化特性研究,中国工程热物理学会燃烧学学术年会,南京,2017.10.13-2017.10.15.
D9. 雷凯, 宋增华, 徐昊, 董一江, 陈一樊, 张睿, 刘冬 (2017): 热解气氛对三种煤半焦催化、气化与吸附特性的影响, 新能源进展 5 (3): 231-237.
2016
A32. Luo, M. Y., Liu, D.* (2016): Combustion characteristics of primary reference fuels with hydrogen addition. International Journal of Hydrogen Energy 41, 11471-11480.
A31. Liu, D.* (2016): Simultaneous reconstruction of temperature field and radiative properties by inverse radiation analysis using stochastic particle swarm optimization. Thermal Science 20, 493-504.
C30. Luo, M. Y., Liu, D.*(2016): On the effects of hydrogen addition in premixed formaldehyde flames, 7th International Conference on Hydrogen Production, May 8-11, 2016, Hangzhou, China. (Recommended by Editor for Journal Publication)
C29. Luo, M. Y., Liu, D.*(2016): Kinetic analysis of the ethanol and dimethyl ether flames with hydrogen addition, 7th International Conference on Hydrogen Production, May 8-11, 2016, Hangzhou, China. (Recommended by Editor for Journal Publication)
C28. Pan, W., Liu, D.*(2016): Effects of hydrogen additions on premixed rich flames of four butanol isomers, 7th International Conference on Hydrogen Production, May 8-11, 2016, Hangzhou, China. (Recommended by Editor for Journal Publication)
C27. 刘冬*: 微纳材料光点火与燃烧诊断基础研究, 燃烧特性与层流火焰,专题邀请报告,中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
C26. 应遥瑶, 王伟, 王鹏飞, 刘冬*: 正丁醇对乙烯扩散火焰烟黑微观结构和氧化特性影响, 中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
C25. 罗旻烨, 邵佳伟, 刘冬*: 生物柴油替代物C7酯类丁醇混合燃料的对冲扩散火焰实验研究, 中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
C24. 刘冠楠, 朱洁, 刘冬*: 含铝的醇基纳米流体燃料烧特性研究, 中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
C23. 徐昊, 宋增华, 董一江, 陈一樊, 张睿, 刘冬: 热解气氛对半焦吸附、催化与气化特性的影响研究, 中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
C22. 蒋波, 何小民, 金义, 刘冬: 快速掺混淬熄孔板堵塞比对RQL-TVC 排放性能的影响, 中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
C21. 潘伟, 范静伟, 刘冬*: 丁酸甲酯和丙烯酸乙酯添加正丁醇的燃烧实验, 中国工程热物理学会燃烧学学术年会,马鞍山,2016.10.21-2016.10.23.
D8. 潘伟, 刘冬* (2016): 掺杂H2和CO2对二甲醚燃烧的耦合化学作用研究, 新能源进展 4 (2): 1-8.
D7. 罗旻烨, 刘冬* (2016): 添加氢气对异辛烷燃烧的化学作用机理研究, 南京理工大学学报 40 (5): 613-618.
D6. 范静伟,刘冬* (2016): 生物柴油同分异构替代燃料丁酸甲酯和丙酸乙酯预混燃烧对比研究,新能源进展 4 (4): 253-265.
2015
A30. Liu, D. * (2015): Chemical effects of carbon dioxide addition on dimethyl ether and ethanol flames: a comparative study. Energy & Fuels 29, 3385-3393.
A29. Liu, D.* (2015): Detailed influences of ethanol as fuel additive on combustion chemistry of premixed fuel-rich ethylene flames. Science China Technological Sciences 58, 1696-1704.
A28. Li, Z. S., Han, W., Liu, D., Chen, Z.* (2015): Laminar flame propagation and ignition properties of premixed iso-octane/air with hydrogen addition. Fuel 158, 443–450.
A27. Ying, Y. Y., Liu, D.* (2015): Detailed influences of chemical effects of hydrogen as fuel additive on methane flame. International Journal of Hydrogen Energy 40, 3777–3788.
A26. Zhang, R., Liu, D., Wang, Q. H.*, Luo, Z.Y., Fang, M.X., Cen, K.F. (2015): Coal char gasification on a circulating fluidized bed for hydrogen generation: experiments and simulation. Energy Technology 3, 1059-1067.
C20. Ying, Y. Y., Liu, D.*(2015): The chemical effects of hydrogen addition on pollutant formations in lean premixed methane flames,The 10th The Asia-Pacific Conference on Combustion, Beijing, 2015.7.19-2015.7.22. (EI)
C19. 刘冬*,应遥瑶,添加二甲醚对乙烯预混火焰的化学作用辨识和影响研究,中国工程热物理学会燃烧学学术年会,北京,2015.10.23-2015.10.25.
C18. 应遥瑶,潘伟,罗旻烨,张睿,刘冬*,掺氢对甲醇燃烧的化学作用机理及醛类污染物生成影响,中国工程热物理学会燃烧学学术年会,北京,2015.10.23-2015.10.25.
C17. 范静伟,邵佳伟,张睿,刘冬*,添加水对生物柴油同分异构替代燃料丁酸甲酯和丙酸乙酯燃烧特性的影响,中国工程热物理学会燃烧学学术年会,北京,2015.10.23-2015.10.25.
C16. 潘伟,罗旻烨,应遥瑶,张睿,刘冬*,掺杂H2和CO2对二甲醚燃烧的耦合化学作用研究,中国工程热物理学会燃烧学学术年会,北京,2015.10.23-2015.10.25.
C15. 邵佳伟,范静伟,张睿,刘冬*,添加CO2和H2O对生物柴油替代燃料己酸甲酯燃烧化学的耦合作用研究,中国工程热物理学会燃烧学学术年会,北京,2015.10.23-2015.10.25.
C14. 罗旻烨,应遥瑶,潘伟,张睿,刘冬*,添加氢气对异辛烷燃烧的化学作用机理研究,中国工程热物理学会燃烧学学术年会议,北京,2015.10.23-2015.10.25.
C13. 应遥瑶, 刘冬*, 氢气的化学作用对甲烷火焰的影响, 中国化学会第一届全国燃烧化学学术会议, 成都, 2015.5.22-2015.5.25.
C12. 范静伟, 邵佳伟, 张睿, 刘冬*, 生物柴油同分异构替代燃料丁酸甲酯和丙酸乙酯预混燃烧对比研究, 中国化学会第一届全国燃烧化学学术会议, 成都, 2015.5.22-2015.5.25.
2014
A25. Liu, D.* (2014): Kinetic analysis of the chemical effects of hydrogen addition on dimethyl ether flames. International Journal of Hydrogen Energy 39, 13014-13019.
A24. Liu, D., Togbé, C., Tran, L.S., Felsmann, D., Oßwald, P., Nau, P., Glaude, P.A., Sirjean, B., Fournet, R., Battin-Leclerc, F.*, Kohse-Hoeinghaus, K.* (2014): Combustion chemistry and flame structure of furan group biofuels using molecular-beam mass spectrometry and gas chromatography – Part I: Furan. Combustion and Flame 161, 748–765.
A23. Tran, L.S., Togbé, C., Liu, D., Felsmann, D., Oßwald, P., Nau, P., Glaude, P.A., Sirjean, B., Fournet, R., Battin-Leclerc, F.*, Kohse-Hoeinghaus, K.* (2014): Combustion chemistry and flame structure of furan group biofuels using molecular-beam mass spectrometry and gas chromatography – Part II: 2-Methylfuran. Combustion and Flame 161, 766–779.
A22. Togbé, C., Tran, L.S., Liu, D., Felsmann, D., Oßwald, P., Nau, P., Glaude, P.A., Sirjean, B., Fournet, R., Battin-Leclerc, F.*, Kohse-Höinghaus, K.* (2014): Combustion chemistry and flame structure of furan group biofuels using molecular-beam mass spectrometry and gas chromatography – Part III: 2,5-Dimethylfuran. Combustion and Flame 161, 780–797.
2013
A21. Liu, D.*, Mei, D.H. and Tu, X. (2013): Vision-based tomographic reconstruction of emissivity distribution in asymmetric thermal plasma. EPL 103, 35002.
A20. Liu, D., Santner, J., Togbé, C., Felsmann, D., Koppmann, J., Lackner, A., Yang, X.L., Shen, X., Ju, Y.*, Kohse-Hoeinghaus, K.* (2013): Flame structure and kinetic studies of carbon dioxide diluted dimethyl ether flames at reduced and elevated pressures. Combustion and Flame 160, 2654–2668.
C11. Tran, L.S, Togbé, C., Liu, D., Felsmann, D., Oßwald, P., Glaude, P.A., Sirjean, B., Fournet, R., Battin-Leclerc, F. and Kohse-Höinghaus, K. (2013): Experimental and modeling study of combustion chemistry of furan family in laminar premixed low-pressure flames, 2nd COST Topical Workshop: Kinetic studies using laminar flames, June 25, 2013, Lund, Sweden.
C10. Tran, L.S, Togbé, C., Liu, D., Felsmann, D., Oßwald, P., Glaude, P.A., Sirjean, B., Fournet, R., Battin-Leclerc, F. and Kohse-Höinghaus, K. (2013): Soot precursor formation in the combustion of furans, COST joint working group meeting on soot and PAHs, April 10-12, Hilton Sorrento Palace, Sorrento, Italy.
2012
A19. Liu, D.*, Yan, J.H., Wang, F., Huang, Q.X., Chi, Y. and Cen, K.F. (2012): Experimental reconstructions of flame temperature distributions in laboratory-scale and large-scale pulverized-coal fired furnaces by inverse radiation analysis. Fuel 93, 397–403.
A18. Liu, D.*, Yan, J.H. and Cen K.F. (2012): On the treatment of non-optimal regularization parameter influence on temperature distribution reconstruction accuracy in participating medium. International Journal of Heat and Mass Transfer 55, 1553–1560.
A17. Wang, F.*, Xu, T., Qiang Z.S., Huang Q.X., Liu, D., et al. (2012): Soot optical properties in the terahertz spectra domain. Journal of Heat Transfer-Transactions of the ASME, 134, 074501-1-4.
C9. André, F., Liu, D., Galizzi, C., Lamige, S., Khüni, M. and Escudié, D. (2012): Evaluation of several narrow band approaches for the approximate modelling of radiative properties of flames, 23rd International Symposium on Transport Phenomena, November 19–22, Auckland, New Zealand.
C8. Liu, D.*, Togbé, C., Tran, L.S., Felsmann, D., Oßwald, P. and Kohse-Höinghaus, K. (2012): Combustion chemistry study of furan in laminar premixed low-pressure flames using molecular beam mass spectrometry. 34th International Symposium on Combustion, July 29 to August 3, 2012, Warsaw University of Technology, Warsaw, Poland. (Poster)
C7. Togbé, C., Liu, D., Tran, L.S., Felsmann, D., Oßwald, P. and Kohse-Höinghaus, K. (2012): Experimental study of 2,5-Dimethylfuran/Oxygen/Argon in a laminar premixed flame - Formation of pollutants. 34th International Symposium on Combustion, July 29 to August 3, 2012, Warsaw University of Technology, Warsaw, Poland. (Poster)
C6. Tran, L.S., Togbé, C., Liu, D., Felsmann, D., Oßwald, P., Battin-Leclerc, F. and Kohse-Höinghaus, K. (2012): Study of the structure of laminar premixed flames of methyl furan/oxygen/argon using molecular-beam mass spectrometry. 34th International Symposium on Combustion, July 29 to August 3, 2012, Warsaw University of Technology, Warsaw, Poland. (Poster)
C5. Togbé, C., Liu, D., Tran, L.S., Felsmann, D., Oßwald, P., Glaude, P., Battin-Leclerc, F. and Kohse-Höinghaus, K. (2012): Combustion chemistry study of furan family in laminar premixed low-pressure flames using molecular beam mass spectrometry. 3rd Annual COST Meeting, September 5-7, Sofia, Bulgaria.
C4. Tran, L.S, Togbé, C., Liu, D., Felsmann, D., Oßwald, P., Glaude, P.A., Battin-Leclerc, F. and Kohse-Höinghaus, K. (2012): Study of the combustion chemistry of 2-methyl furan in laminar premixed flames using molecular-beam mass spectrometry, 3rd Annual COST Meeting, September 5-7, Sofia, Bulgaria.
2011
A16. Liu, D.*, Yan, J.H. and Cen K.F. (2011): On the treatment of scattering for three-dimensional temperature distribution reconstruction accuracy in participating medium. International Journal of Heat and Mass Transfer 54, 1684–1687.
A15. Liu, D.*, Yan, J.H., et al. (2011): Simultaneous experimental reconstruction of three-dimensional flame soot temperature and volume fraction distributions. Acta Physica Sinica 6, 060701-1-8.
D5. Chen, C.Y., Huang, Q.X., Liu, D. and Ni, M.J. (2011): Flame image based temperature distribution reconstruction of a rotary kiln hazardous waste incinerator. Chinese Journal of Combustion Science and Technology 17, 280-285. (EI)
C3. André, F., Liu, D., Galizzi, C., Vaillon, R., Lamige, S. and Escudié, D. (2011): A narrow band formulation of the MSR SLMB model for radiative heat transfer simulations of non sooting flames. Proceedings of the European Combustion Meeting 2011.
2010
A14. Liu, D., Huang, Q.X., Wang, F., Chi, Y., Cen, K.F. and Yan, J.H. (2010): Simultaneous measurement of three-dimensional soot temperature and volume fraction fields in axisymmetric or asymmetric small unconfined flames with CCD cameras. Journal of Heat Transfer-Transactions of the ASME 132, 061202 1-7.
A13. Liu, D., Yan, J.H., Wang, F., Huang, Q.X., Chi, Y. and Cen, K.F. (2010): Inverse radiation analysis of simultaneous estimation of temperature field and radiative properties in a two-dimensional participating medium. International Journal of Heat and Mass Transfer 53, 4474–4481.
A12. Wang, F., Yan, J.H., Cen, K.F., Huang, Q.X., Liu, D., Chi, Y. and Ni, M.J. (2010): Simultaneous measurements of two-dimensional temperature and particle concentration distribution from the image of the pulverized coal flame. Fuel 89, 202–211.
D4. Wang, X.G., Huang, Q.X., Liu, D. and Ma, Z.Y. (2010): Experimental study on temperature distribution in axisymmetric and asymmetric laminar flames. Energy Engineering 3, 7-11.
2009
A11. Liu, D., Wang, F., et al. (2009): Study on the optical properties of flame soot in the terahertz spectra domain. Spectroscopy and Spectral Analysis 29, 3185-3189.
A10. Huang, Q.X., Wang, F., Liu, D., Ma, Z.Y., et al. (2009): Reconstruction of soot temperature and volume fraction profiles of an asymmetric flame using stereoscopic tomography. Combustion and Flame 156, 565–573.
2008
A9. Liu, D., Wang, F., Yan, J.H., Huang, Q.X., Chi, Y. and Cen, K.F. (2008): Inverse radiation problem of temperature field in three-dimensional rectangular enclosure containing inhomogeneous, anisotropically scattering media. International Journal of Heat and Mass Transfer 51, 3434–3441.
A8. Liu, D., Wang, F., Cen, K.F., Yan, J.H., Huang, Q.X. and Chi, Y. (2008): Noncontact temperature measurement by means of CCD cameras in a participating medium. Optics Letters 33, 422-424.
A7. Wang, F., Liu, D., Cen, K.F., Yan, J.H., Huang, Q.X. and Chi, Y. (2008): Efficient inverse radiation analysis of temperature distribution in participating medium based on backward Monte Carlo method. Journal of Quantitative Spectroscopy & Radiative Transfer 109, 2171–2181.
A6. Liu, D., Wang, F., Huang, Q.X., Yan, J.H., Chi, Y. and Cen, K.F. (2008): Simulation study on reconstruction model of three-dimensional temperature distribution within visible range in furnace. Chinese Physics B 17, 1312-1317.
A5. Liu, D., Wang, F., et al. (2008): Fast reconstruction of two-dimensional temperature distribution in participating medium. Acta Physica Sinica 57, 4812-4816.
A4. Wang, F., Huang, Q.X., Liu, D., Yan, J.H. and Cen, K.F. (2008): Improvement of Load-Following Capacity Based on the Flame Radiation Intensity Signal in a Power Plant. Energy & Fuels 22, 1731–1738.
A3. Huang, Q.X., Liu, D., et al. (2008): Soot volume fraction and temperature reconstruction model research for asymmetric diffusive C-H flame. Acta Physica Sinica 57, 7928-7936.
2007
A2. Liu, D., Wang, F., et al. (2007): Simulation study on radiative imaging of combustion flame in furnace. Journal of Zhejiang University Science A 8, 1853-1857.
A1. Huang, Q.X., Liu, D., et al. (2007): Study on three-dimensional flame temperature distribution reconstruction based on truncated singular value decomposition. Acta Physica Sinica 56, 6742-6748.
D3. Liu, D., Wang, F., et al. (2007): Study on solving ill-posed matrix equation in reconstruction of three-dimensional temperature distribution in furnace. Proceedings of the CSEE 27, 72-77. (EI)
D2. Wang, F., Liu, D., Yan, J.H., Chi, Y. and Cen, K.F. (2007): Effects of particle concentration and optical thickness on flame temperature field reconstruction. Chinese Journal of Scientific Instrument 28, 2003-2007. (EI)
D1. Huang, Q.X., Wang, F., Liu, D. and Yan, J.H. (2007): Study of the infrared radiative transfer of an in-chamber small-sized detector based on a backward Monte Carlo method. Journal of Engineering for Thermal Energy and Power 22, 564-568. (EI)
C2. Liu, D., Wang, F., Yan, J.H. and Cen, K.F. (2007): Effects of particle concentration and optical thickness on flame temperature field reconstruction. 1st National symposium on gas-solid two-phase flow measurement and control technology, Tianjing University, Tianjing, China, Sep. 13-14, 2007.
2006
C1. Wang, F., Liu, D., et al. (2006): Measurement of three-dimensional temperature distribution in an absorbing, emitting, and anisotropically scattering medium. The 5th International Symposium on Measurement Techniques for Multiphase Flows: The Ultimate Measurement Challenge, Dec. 10-13, 2006, Macau, China, 661-672.