近期论文
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2022年论文:
Predicting 3D soot field from luminosity in turbulent flame based on conditional-generative adversarial networks. Combustion and Flame 2022 Revised.
Fundamental study on oxidation properties at elevated pressure of typical renewable synthetic liquid fuels through low-temperature CO2 electroreduction. Fuel 2022 Revised.
An experimental and kinetic modeling study of the oxidation of propanol isomers at engine-relevant condition in a variable pressure laminar flow reactor. Fuel 2022 Revised.
The effects of 1-methylnaphthalene addition to n-dodecane on the formation of soot and polycyclic aromatic hydrocarbons in laminar coflow diffusion flames. Fuel 2022 Accept.
1、Zhao, T.; Xia, C.; Fang, J.; Zhu, L.; Huang, Z., A comparative study of PODE/gasoline and n-heptane/gasoline in a spark-assisted homogeneous charge compression ignition engine with dual-injection strategies and EGR. International Journal of Engine Research 2022.
2、Ren, F.; Cheng, X.; Gao, Z.; Huang, Z.; Zhu, L., Effects of NH3 addition on polycyclic aromatic hydrocarbon and soot formation in C2H4 co-flow diffusion flames. Combustion and Flame 2022, 241.
3、Xia, C.; Zhao, T.; Fang, J.; Zhu, L.; Huang, Z., Experimental study of stratified lean burn characteristics on a dual injection gasoline engine. Frontiers in Energy 2022.
4、Liu, A.; Gao, Z.; Rigopoulos, S.; Luo, K. H.; Zhu, L., Modelling of laminar diffusion flames with biodiesel blends and soot formation. Fuel 2022, 317.
5、Ma, C.; Zou, X.; Li, A.; Gao, Z.; Luo, L.; Shen, S.; Zhang, J.; Huang, Z.; Zhu, L., Rapid flame synthesis of carbon doped defective ZnO for electrocatalytic CO2 reduction to syngas. Electrochimica Acta 2022, 411.
6、Huang, Z.; Zhu, L.; Li, A.; Gao, Z., Renewable synthetic fuel: turning carbon dioxide back into fuel. Frontiers in Energy 2022, 16, (2), 145-149.
7、Zhu, L.; Gao, Z.; Cheng, X.; Ren, F.; Huang, Z., An assessment of surrogate fuel using Bayesian multiple kernel learning model in sight of sooting tendency. Frontiers in Energy 2022, 16, (2), 277-291
8、Cheng, X.; Ren, F.; Gao, Z.; Zhu, L.; Huang, Z., Synergistic effect analysis on sooting tendency based on soot-specialized artificial neural network algorithm with experimental and numerical validation. Fuel 2022, 315.
9、夏淳,赵廷钰,方俊华,朱磊,黄震.高低辛烷值燃料对双喷发动机燃烧和排放的影响[J].小型内燃机与车辆技术,2022,51(02):1-8+30.
2021年论文:
1、Zhang, Z.; Li, A.; Ren, F.; Gao, Z.; Zhu, L.; Huang, Z., Effect of Ester Molecular Structure Difference on Its Soot Tendency: A Comparative Study of Methyl Butanoate and Methyl Crotonate. Energy and Fuels 2021, 35, (13), 10805-10819.
2、Zhu, L.; Li, A.; Zhang, Z.; Li, B.; Ma, C.; Cheng, X.; Zou, X.; He, Z.; Lu, X.; Huang, Z., Effects of alcohol enrichment on thermochemical fuel reforming (TFR): Insights from chemical kinetics. International Journal of Hydrogen Energy 2021, 46, (1), 1197-1209.
3、Ma, C.; Zou, X.; Li, A.; Li, H.; Rigopoulos, S.; Zhu, L.; Huang, Z., Evolution of MoO3nanobelts and nanoplatelets formation with flame synthesis. Proceedings of the Combustion Institute 2021, 38, (1), 1289-1297.
4、Cheng, X.; Gao, Z.; Ren, F.; Rigopoulos, S.; Zhu, L.; Huang, Z., Experimental and kinetic modeling study on sooting tendencies of alkylbenzene isomers. Fuel 2021, 283.
5、Zou, X.; Ma, C.; Li, A.; Gao, Z.; Shadike, Z.; Jiang, K.; Zhang, J.; Huang, Z.; Zhu, L., Nanoparticle-Assisted Ni-Co Binary Single-Atom Catalysts Supported on Carbon Nanotubes for Efficient Electroreduction of CO2to Syngas with Controllable CO/H2Ratios. ACS Applied Energy Materials 2021.
6、Li, H.; Ma, C.; Zou, X.; Li, A.; Huang, Z.; Zhu, L., On-board methanol catalytic reforming for hydrogen Production-A review. International Journal of Hydrogen Energy 2021, 46, (43), 22303-22327.
7、夏淳,赵廷钰,方俊华,朱磊,黄震.冷起动及暖机工况下双喷射汽油机燃烧和颗粒物排放试验研究[J].车用发动机,2021(05):1-7.
8、张真英男,李昂,朱磊,黄震.小分子醇对天然气发动机热化学重整的影响[J].工程热物理学报,2021,42(01):222-231.
2020年发表论文:
1、Gao, Z.; Cheng, X.; Ren, F.; Zhu, L.; Huang, Z., Compositional Effects on Sooting Tendencies of Diesel Surrogate Fuels with Four Components. Energy and Fuels 2020, 34, (7), 8796-8807.
2、Zhu, L.; Li, A.; Zhang, Z.; Huang, Z., Development and Validation of Multi-Component Surrogate for Heavy Fuel Oil. Neiranji Gongcheng/Chinese Internal Combustion Engine Engineering 2020, 41, (6), 36-45.
3、Li, A.; Zhang, Z.; Cheng, X.; Lu, X.; Zhu, L.; Huang, Z., Development and validation of surrogates for RP-3 jet fuel based on chemical deconstruction methodology. Fuel 2020, 267.
4、Huang, G.; Li, Z.; Zhao, W.; Zhang, Y.; Li, J.; He, Z.; Qian, Y.; Zhu, L.; Lu, X., Effects of fuel injection strategies on combustion and emissions of intelligent charge compression ignition (ICCI) mode fueled with methanol and biodiesel. Fuel 2020, 274.
5、Zhu, L.; Li, B.; Li, A.; Ji, W.; Qian, Y.; Lu, X.; Huang, Z., Effects of fuel reforming on large-bore low-speed two-stroke dual fuel marine engine combined with EGR and injection strategy. International Journal of Hydrogen Energy 2020, 45, (53), 29505-29517.
6、Ji, W.; Li, A.; Zhu, L.; Lü, X.; Huang, Z., Effects of Multiple Injection on the Combustion and Emissions of Marine Low-speed Two-stroke Diesel Engine. Ranshao Kexue Yu Jishu/Journal of Combustion Science and Technology 2020, 26, (2), 139-145.
7、He, Z.; Wang, J.; Li, B.; Zhu, L.; Qian, Y.; Lu, X.; Huang, Z., Effects of n-heptane enrichment on in-cylinder thermochemical fuel reforming (TFR) characteristics and performances of spark ignition natural gas engine: A comparison with natural gas and methanol enrichment. Fuel 2020, 271.
8、Li, B.; Sun, Q.; Li, A.; Shao, Y.; He, Z.; Lu, X.; Huang, Z.; Zhu, L., Effects of propanol isomers enrichment on in-cylinder thermochemical fuel reforming (TFR) in spark ignition natural gas engine. International Journal of Hydrogen Energy 2020, 45, (18), 10932-10950.
9、Ma, C.; Zou, X.; Li, H.; Li, A.; Gao, Z.; Zhu, L.; Huang, Z., Flame synthesized MoO3 nanobelts and nanoparticles coated with BiVO4 for photoelectrochemical hydrogen production. Energy Conversion and Management 2020, 205.
10、Sun, Q.; Li, B.; Li, A.; Shao, Y.; He, Z.; Lu, X.; Zhu, L.; Huang, Z., Insight into fuel reactivity effects on thermochemical fuel reforming (TFR). International Journal of Hydrogen Energy 2020, 45, (15), 9010-9024.
11、朱磊,李昂,张真英男,黄震.船用重油多元模型燃料的构建与验证[J].内燃机工程,2020,41(06):36-45.
2019年论文
1. Predicting sooting tendencies of oxygenated hydrocarbon fuels with machine learning algorithms. Fuel, 2019, 242: 438-446.
2. Experimental and kinetic modeling study of ignition characteristics of RP-3 kerosene over low-to-high temperature ranges in a heated rapid compression machine and a heated shock tube, Combustion and Flame, 2019, 203:157-169.
3. Effects of natural gas, ethanol, and methanol enrichment on the performance of in-cylinder thermochemical fuel reforming (TFR) spark-ignition natural gas engine. Applied Thermal Engineering. 2019, 159:113913.
4. Predictions of Oxidation and Autoignition of Large Methyl Ester with Small Molecule Fuels. Fuel, 2019, 251, 162-174.
5. Experimental and Modeling Study on Autoignition of a Biodiesel/n-Heptane Mixture and Related Surrogate in a Heated Rapid Compression Machine. Energy & Fuels, 2019, 33:4552-4563.
6. Experimental and modeling validation of a large diesel surrogate: Autoignition in heated rapid compression machine and oxidation in flow reactor. Combustion and Flame, 2019, 202:195-207.
7. Engine performance and octane on demand studies of a dual fuel spark ignition engine with ethanol/gasoline surrogates as fuel. Energy Conversion and Management, 2019, 183: 296-306.
8. An experimental and kinetic modeling study of n-butylcyclohexane over low-to-high temperature ranges. Combustion and Flame, 2019, 206:83-97.
9. An experimental study on combustion and particulate emissions characteristics on a dual-injection gasoline engine. Applied Thermal Engineering. 2019, 156:722-729.
2018年论文
[1] Z Gao, L Zhu*, X Zou, C Liu, B Tian, Z Huang. Soot reduction effects of dibutyl ether (DBE) addition to a biodiesel surrogate in laminar coflow diffusion flames. Proceedings of combustion institute, 2019, 37:1265-1272.
[2] C Liu, L Zhu*, Z Gao, H Li, Z Huang. Effects of molecular O2 and NO2 on particle size distribution, morphology and nanostructure of diffusion flame soot oxidized in a flow reactor. Fuel, 2018, 234:335-346.
[3] Ang Li, Lei Zhu*,Yebing Mao, Jiaqi Zhai, Dong Han, Xingcai Lyu, Zhen Huang. Surrogate Formulation Methodology for Biodiesel Based on Chemical Deconstruction in Consideration of Molecular Structure and Engine Combustion Factors. Combustion and Flame, 2019, 199:152-167.
[4] Wenxia Ji, Lei Zhu*, Xingcai Lv, Zhen Huang. Numerical Study of NOx and ISFC Co-optimization on a Low-speed Two-stroke Engine by Miller Cycle, EGR, Intake Air Humidification and Injection strategy. Applied Thermal Engineering, 2019, 153:398-408.
2017年发表论文
[1] L. Zhu*, Z.Y. He, Z. Xu, X.C. Lu, J.H. Fang, W.G. Zhang, Z. Huang. In-cylinder thermochemical fuel reforming (TFR) in a spark-ignition natural gas engine. Proceedings of combustion institute, 2017, 36: 3487-3497.
[2] Z.Y. He, L. Zhu*, Z. Xu, O.T. Kaario, A. Li, Z. Huang. Effects of ethanol enrichment on in-cylinder thermochemical fuel reforming (TFR) spark ignition natural gas engine. Fuel, 2017, 197: 334-342.
[3] O.T. Kaario, V. Vurinen, L. Zhu, M. Larmi, R. Liu. Mixing and evaporation analysis of a high-pressure SCR system using a hybrid LES-RANS approach. Energy, 2017, 120:827-841.
[4] L. Zhu*, Z.Y. He, Z. Xu, Z. Gao, A. Li, Z. Huang. Improving cold start, combustion and emission characteristics of a lean burn spark ignition natural gas engine with multi-point hydrogen injection. Applied Thermal Engineering 2017, 121:83-89.
[5] Z Xu, L Zhu*, Z He, A Li, Y Shao, Z Huang. Performance optimization of in-cylinder thermochemical fuel reforming (TFR) with compression ratio in an SI natural gas engine. Fuel 2017, 203:162-170.
[6] Z Gao, L Zhu*, C Liu, A Li, Z He, C Zhang, Z Huang. A comparison of soot formation, evolution and oxidation reactivity of two biodiesel surrogates. Energy & Fuels 2017, 31: 8655-8664.
[7] A Li, L Zhu*, ZW Deng, Z Gao, Z Huang. A Fundamental Investigation into Chemical Effects of Carbon Dioxide on Intermediate Temperature Oxidation of Biodiesel Surrogate with Laminar Flow Reactor. Energy 2017, 141:20-31.
[8] A Li, ZW Deng, L Zhu*, Z Huang. Development and Validation of a Binary Surrogate Model for Biodiesel. SAE Technical Paper 2017-01-2326.
[9] ZW Deng, A Li, L Zhu*, Z Huang. Experimental and Kinetic Analyses of Thermochemical Fuel Reforming (TFR) with Alcohol Enrichment in Plug Flow Reactor: a Verification of In-Cylinder TFR. SAE Technical Paper 2017-01-2278.
[10] Z Gao, L Zhu*, X Zou, C Liu, Z Huang. Partial Premixing Effects on the Evolution of Soot Morphology and Nanostructure in Co- Flow Flames of a Biodiesel Surrogate. SAE Technical Paper 2017-01-2397.
2016年发表论文
[1] L. Zhu*, C.S. Cheung, Z. Huang. Impact of chemical structure of individual fatty acid esters on combustion and emission characteristics of diesel engine. Energy 2016, 107: 305-320.
[2] L. Zhu*, C.S. Cheung, Z. Huang. Combustion, gaseous and particulate emission of a diesel engine fueled with n-pentanol (C5 alcohol) blended with waste cooking oil biodiesel. Applied Thermal Engineering 2016, 102: 73-79.
[3] L. Zhu*, C.S. Cheung, Z. Huang. A comparison of particulate emission for rapeseed oil methyl ester, palm oil methyl ester and soybean oil methyl ester in perspective of their fatty ester composition. Applied Thermal Engineering 2016, 94: 249-255.
[4] Z He, Z Gao, L. Zhu*, S Li, A Li, W Zhang, Z Huang. Effects of H 2 and CO enrichment on the combustion, emission and performance characteristics of spark ignition natural gas engine. Fuel 2016, 183: 230:237.
[5] L. Zhu*, Z.Y. He, Z. Xu, X.C. Lu, J.H. Fang, W.G. Zhang, Z. Huang. In-cylinder thermochemical fuel reforming (TFR) in a spark-ignition natural gas engine. 36th International Symposium on Combustion, Korea, 2016.
[6] He, Z., Xu, Z., Zhu, L.*, Zhang, W. et al., The Performances of a Spark Ignition Natural Gas Engine Coupled with In-Cylinder Thermochemical Fuel Reforming (TFR). SAE Technical Paper 2016-01-2239.
2015年发表论文
[1] L. Zhu*, C.S. Cheung, W.G. Zhang, Z. Huang. Compatibility of Different Biodiesel Composition with Acrylonitrile Butadiene Rubber (NBR). Fuel 2015, 158: 288-292.
[2] Z.Y. He, Q.J. Jing, L. Zhu*, W.G. Zhang, Z Huang. The effects of different intake charge diluents on the combustion and emission characteristics of a spark ignition natural gas engine. Applied Thermal Engineering 2015, 89: 958-967.
[3] Y.Q. Luo, L. Zhu*, J.H. Fang, Z.Y. Zhuang, C. Guan, C. Xia, X.M. Xie, Z. Huang. Size distribution, chemical composition and oxidation reactivity of particulate matter from gasoline direct injection (GDI) engine fueled with ethanol-gasoline fuel. Applied Thermal Engineering 2015, 89: 647-655.
2010-2014年发表SCI论文
[1] L. Zhu, C.S. Cheung, W.G. Zhang, Z. Huang. Emissions characteristics of a diesel engine operating on biodiesel and biodiesel blended with ethanol and methanol. Science of The Total Environment 2010, 408:914-921.
[2] L. Zhu, W.G. Zhang, W. Liu, Z. Huang. Experimental study on particulate and NOx emissions of a diesel engine fueled with ultra low sulfur diesel, RME-diesel blends and PME-diesel blends. Science of The Total Environment 2010, 408:1050-1058.
[3] L. Zhu, C.S. Cheung, W.G. Zhang, Z. Huang. Influence of methanol-biodiesel blends on the particulate emissions of a direct injection diesel engine. Aerosol Science and Technology 2010, 44:362-369.
[4] L. Zhu, C.S. Cheung, W.G. Zhang, Z. Huang. Combustion, performance and emission characteristics of a DI diesel engine fueled with ethanol-biodiesel blends. Fuel 2011, 90:1743-1750.
[5] L. Zhu, W.G. Zhang, Z. Huang. Influence of biodiesel-methanol blends on the emissions in the low-temperature combustion of a direct-injection diesel engine using high levels of exhaust gas recirculation. Proc. IMechE Part D: J. Automobile Engineering 2011, 225:1044-1054.
[6] L. Zhu, C. S. Cheung, W.G. Zhang, Z. Huang. Effect of charge dilution on gaseous and particulate emissions from a diesel engine fueled with biodiesel and biodiesel blended with methanol and ethanol. Applied Thermal Engineering 2011, 31:2271-2278.
[7] L. Zhu, C.S. Cheung, W.G. Zhang, J.H. Fang, Z. Huang. Effects of ethanol-biodiesel blends and diesel oxidation catalyst (DOC) on particulate and unregulated emissions. Fuel 2013, 113, 690-696.
[8] C.S. Cheung, L. Zhu, Z. Huang. Regulated and unregulated emissions from a diesel engine fueled with biodiesel and biodiesel blended with methanol. Atmospheric Environment 2009, 43: 4865-4872.
[9] W. Liu, W.G. Zhang, L. Zhu, X.L. Li, Z. Huang. Characteristics of ultrafine particle from a compression-ignition engine fueled with low-sulfur diesel. Chinese Science Bulletin 2009, 54: 1773-1778.
[10] Q. Fang, Z. Huang, L. Zhu, J.J. Zhang, J. Xiao. Study on low nitrogen oxide and low smoke emissions in a heavy-duty engine fuelled with dimethyl ether. Proc. IMechE Part D: J. Automobile Engineering, 2011, 225: 779-786.
[11] Z.Z. Li, J.Y. Zhang, K.Q. Zhang, L. Zhu, Z. Huang. An experimental study of HCCI high load extension of HCCI engine with gasoline and n-heptane. Proc. IMechE Part D: J. Automobile Engineering, 2014,0954407014524183
[12] J.Y. Zhang, Z.Z. Li, K.Q. Zhang, L. Zhu, Z. Huang An experiment study of HCCI combustion and emission in a gasoline engine. Thermal Science 2013, 18, 295-306.
[13] 刘炜,张武高,李新令,朱磊,黄震。低硫柴油直喷燃烧超细颗粒排放特性研究。 科学通报 2009, 54: 1773-1778. (SCI).
[14] L. Zhu, J.H. Fang, W.G. Zhang, Z. Huang. The Effects of Diesel Oxidation Catalyst on Particulate Emission of Ethanol-Biodiesel Blend Fuel. SAE Technical Paper 2014-01-2730.
部分会议论文:
[1] 李昂,朱磊,邓志伟,黄震 基于流动反应器的丁酸甲酯氧化实验与模拟研究[C] 2016中国工程热物理学会会议论文
[2] 李昂,朱磊,邓志伟,黄震 二氧化碳在生物柴油替代燃料丁酸甲酯氧化中的化学作用[C] 2016中国内燃机学会燃烧节能净化分会会议论文
[3] 高展,刘春鹏,朱磊,黄震 醇基支链长度对短碳链脂肪酸酯扩散火焰碳烟颗粒生成及演变的影响[C] 2016中国工程热物理学会会议论文
[4] 高展,刘春鹏,朱磊,黄震 掺混醇类对丁酸甲酯扩散火焰碳烟颗粒形貌演变及微观结构影响的实验研究[C] 2016中国内燃机学会燃烧节能净化分会会议论文
[5] 刘春鹏,高展,朱磊,黄震 乙醇对丁酸甲酯扩散火焰碳烟颗粒形貌演变及微观结构影响的实验研究[C] 2016中国工程热物理学会会议论文
[6] 徐震,朱磊,何卓遥,黄震 压缩比对缸内热化学燃料重整天然气发动机燃烧与排放特性的影响[C] 2016中国工程热物理学会会议论文
[7] Lei Zhu. Low temperature combustion mode and particulate emission characteristics of biofuels [Invited report]. 6th International Symposium on “Clean and High-Efficiency Combustion in Engines”, Tianjin, 2015.
[8] 何卓遥,徐震,朱磊,黄震 合成气对天然气发动机的燃烧排放性能的影响[C] 中国内燃机学会燃烧节能净化分会会议论文
[9] L. Zhu, J.H. Fang, Z. Huang. Low temperature combustion of biodiesel [Oral report]. US-China Clean Energy Research Center for Clean Vehicles Annual Joint Conference, Michigan, 2012.
[10] L. Zhu, J.H. Fang, Z. Huang. Fundamental research of low temperature combustion of biodiesel [Oral report]. US-China Clean Energy Research Center for Clean Vehicles Annual Joint Conference, Beijing, 2013.
[11] L. Zhu, C.S. Cheung, Z. Huang. NOx and Particulate Emissions of a Diesel Engine Operating on biodiesel and biodiesel blended with ethanol and methanol[C]. 7th Asia-Pacific Conference on Combustion, Taiwan, 2009 .
[12] L. Zhu, W.G. Zhang, Z. Huang. Experimental Study on the Particulate Emissions and Unregulated Emissions of DI Diesel Engine Fueled with Ethanol-Biodiesel Blended Fuel[C], Conference of International Council on Combustion Engines (CIMAC), 2012.
[13] 朱磊,张武高,黄震。生物燃料对柴油机低温燃烧影响的研究。中国内燃机学会燃 烧、节能、净化分会 2010 年学术年会,重庆。
[14] 朱磊,张武高,朱浩月,黄震。生物柴油微观结构对发动机燃烧排放特性的影响。 中国工程热物理学会,2011 年燃烧学学术会议,杭州。
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