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Combustion Theory And Modelling

Combustion Theory And Modelling

燃烧理论与建模

  • 4区 中科院分区
  • Q2 JCR分区
期刊首页 期刊评价 发文分析 高引用文章 了解投稿 期刊咨询

期刊简介

《Combustion Theory And Modelling》是由Taylor and Francis Ltd.出版社于1997年创办的英文国际期刊(ISSN: 1364-7830,E-ISSN: 1741-3559),该期刊长期致力于能源与燃料领域的创新研究,主要研究方向为工程技术-工程:化工。作为SCIE收录期刊(JCR分区 Q2,中科院 4区),本刊采用OA未开放获取模式(OA占比0.0515...%),以发表能源与燃料领域等方向的原创性研究为核心(研究类文章占比100.00%%)。凭借严格的同行评审与高效编辑流程,期刊年载文量精选控制在46篇,确保学术质量与前沿性。成果覆盖Web of Science、Scopus等国际权威数据库,为学者提供推动工程技术领域高水平交流平台。

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投稿提示

Combustion Theory And Modelling审稿周期约为 约6.0个月 。该刊近年未被列入国际预警名单,年发文量约46篇,录用竞争适中,主题需确保紧密契合工程技术前沿。投稿策略提示:避开学术会议旺季投稿以缩短周期,语言建议专业润色提升可读性。

  • 工程技术 大类学科
  • English 出版语言
  • 是否预警
  • SCIE 期刊收录
  • 46 发文量

中科院分区

中科院 SCI 期刊分区 2023年12月升级版

Top期刊 综述期刊 大类学科 小类学科
工程技术
4区
ENERGY & FUELS 能源与燃料 ENGINEERING, CHEMICAL 工程:化工 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS 数学跨学科应用 THERMODYNAMICS 热力学
4区 4区 4区 4区

中科院 SCI 期刊分区 2022年12月升级版

Top期刊 综述期刊 大类学科 小类学科
工程技术
4区
ENERGY & FUELS 能源与燃料 ENGINEERING, CHEMICAL 工程:化工 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS 数学跨学科应用 THERMODYNAMICS 热力学
4区 4区 4区 4区

JCR分区

按JIF指标学科分区 收录子集 分区 排名 百分位
学科:ENERGY & FUELS SCIE Q4 133 / 170

22.1%
学科:ENGINEERING, CHEMICAL SCIE Q3 104 / 170

39.1%
学科:MATHEMATICS, INTERDISCIPLINARY APPLICATIONS SCIE Q2 47 / 135

65.6%
学科:THERMODYNAMICS SCIE Q3 39 / 76

49.3%
按JCI指标学科分区 收录子集 分区 排名 百分位
学科:ENERGY & FUELS SCIE Q4 136 / 173

21.68%
学科:ENGINEERING, CHEMICAL SCIE Q3 102 / 171

40.64%
学科:MATHEMATICS, INTERDISCIPLINARY APPLICATIONS SCIE Q4 109 / 135

19.63%
学科:THERMODYNAMICS SCIE Q3 51 / 76

33.55%

CiteScore

CiteScore SJR SNIP CiteScore 排名
CiteScore:3 SJR:0.513 SNIP:0.866
学科类别 分区 排名 百分位
大类:Physics and Astronomy 小类:General Physics and Astronomy Q2 104 / 243

57%
大类:Physics and Astronomy 小类:Energy Engineering and Power Technology Q2 129 / 272

52%
大类:Physics and Astronomy 小类:Modeling and Simulation Q2 161 / 324

50%
大类:Physics and Astronomy 小类:Fuel Technology Q3 65 / 128

49%
大类:Physics and Astronomy 小类:General Chemistry Q3 217 / 408

46%
大类:Physics and Astronomy 小类:General Chemical Engineering Q3 147 / 273

46%

期刊发文

  • Comparison of combustion duration and end-gas autoignition in inwardly and outwardly propagating flames induced by different ignition configurations

    Author: Yang, Linlin; Wang, Yiqing; Chen, Zheng

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. 27, Issue 1, pp. 103-117. DOI: 10.1080/13647830.2022.2153741

  • Experimental study and thermodynamic analysis of coal spontaneous combustion characteristics

    Author: Zhang, Minbo; Wang, Zichao; Wang, LongKang; Zhang, Zhen; Zhang, Dangyu; Li, Chunxin

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. 27, Issue 1, pp. 118-137. DOI: 10.1080/13647830.2022.2153742

  • An improved stiff-ODE solving framework for reacting flow simulations with detailed chemistry in OpenFOAM

    Author: Wu, Kun; Jiang, Yuting; Huo, Zhijie; Cheng, Di; Fan, Xuejun

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. 27, Issue 1, pp. 57-82. DOI: 10.1080/13647830.2022.2153739

  • A dynamic load balancing model coupled with DAC and ISAT for a stochastic turbulent combustion model

    Author: Huo, Zhijie; Cleary, Matthew J. J.; Wu, Kun; Masri, Assaad R. R.; Fan, Xuejun

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. , Issue , pp. -. DOI: 10.1080/13647830.2023.2165967

  • Experimental and numerical study of flame acceleration and DDT in a channel with continuous obstacles

    Author: Xiao, Huahua; Li, Xiaoxi

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. , Issue , pp. -. DOI: 10.1080/13647830.2023.2171905

  • Comprehensive influence of uncertainty propagation of chemical kinetic parameters on laminar flame speed prediction: a case study of dimethyl ether

    Author: Chang, Yachao; Wang, Pengzhi; Huang, Shuai; Han, Xu; Jia, Ming

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. , Issue , pp. -. DOI: 10.1080/13647830.2023.2169637

  • Efficient two-dimension particle element method of interior ballistic two-phase flow

    Author: Shenshen, Cheng; Ruyi, Tao; Xinggan, Lu; Shao, Xue; Kun, Jiang

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. , Issue , pp. -. DOI: 10.1080/13647830.2023.2178974

  • Effects of artificial flame front thickening on intermediate minor species prediction using the LES-FGM method

    Author: Zhang, Weijie; Zhou, Quan; Wang, Jinhua; Huang, Zuohua

    Journal: COMBUSTION THEORY AND MODELLING. 2023; Vol. , Issue , pp. -. DOI: 10.1080/13647830.2023.2195375

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