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Fluid Phase Equilibria

Fluid Phase EquilibriaSCIE

国际简称:FLUID PHASE EQUILIBR  参考译名:液相平衡

  • 中科院分区

    3区

  • CiteScore分区

    Q2

  • JCR分区

    Q2

基本信息:
ISSN:0378-3812
E-ISSN:1879-0224
是否OA:未开放
是否预警:否
TOP期刊:否
出版信息:
出版地区:NETHERLANDS
出版商:Elsevier
出版语言:Multi-Language
出版周期:Semimonthly
出版年份:1977
研究方向:工程技术-工程:化工
评价信息:
影响因子:2.8
H-index:103
CiteScore指数:5.3
SJR指数:0.569
SNIP指数:0.97
发文数据:
Gold OA文章占比:19.06%
研究类文章占比:99.50%
年发文量:199
自引率:0.1538...
开源占比:0.0721
出版撤稿占比:0
出版国人文章占比:0.14
OA被引用占比:0.0051...
英文简介 期刊介绍 CiteScore数据 中科院SCI分区 JCR分区 发文数据 常见问题

英文简介Fluid Phase Equilibria期刊介绍

Fluid Phase Equilibria publishes high-quality papers dealing with experimental, theoretical, and applied research related to equilibrium and transport properties of fluids, solids, and interfaces. Subjects of interest include physical/phase and chemical equilibria; equilibrium and nonequilibrium thermophysical properties; fundamental thermodynamic relations; and stability. The systems central to the journal include pure substances and mixtures of organic and inorganic materials, including polymers, biochemicals, and surfactants with sufficient characterization of composition and purity for the results to be reproduced. Alloys are of interest only when thermodynamic studies are included, purely material studies will not be considered. In all cases, authors are expected to provide physical or chemical interpretations of the results.

Experimental research can include measurements under all conditions of temperature, pressure, and composition, including critical and supercritical. Measurements are to be associated with systems and conditions of fundamental or applied interest, and may not be only a collection of routine data, such as physical property or solubility measurements at limited pressures and temperatures close to ambient, or surfactant studies focussed strictly on micellisation or micelle structure. Papers reporting common data must be accompanied by new physical insights and/or contemporary or new theory or techniques.

期刊简介Fluid Phase Equilibria期刊介绍

《Fluid Phase Equilibria》自1977出版以来,是一本工程技术优秀杂志。致力于发表原创科学研究结果,并为工程技术各个领域的原创研究提供一个展示平台,以促进工程技术领域的的进步。该刊鼓励先进的、清晰的阐述,从广泛的视角提供当前感兴趣的研究主题的新见解,或审查多年来某个重要领域的所有重要发展。该期刊特色在于及时报道工程技术领域的最新进展和新发现新突破等。该刊近一年未被列入预警期刊名单,目前已被权威数据库SCIE收录,得到了广泛的认可。

该期刊投稿重要关注点:

Cite Score数据(2024年最新版)Fluid Phase Equilibria Cite Score数据

  • CiteScore:5.3
  • SJR:0.569
  • SNIP:0.97
学科类别 分区 排名 百分位
大类:Physics and Astronomy 小类:General Physics and Astronomy Q2 62 / 243

74%

大类:Physics and Astronomy 小类:General Chemical Engineering Q2 90 / 273

67%

大类:Physics and Astronomy 小类:Physical and Theoretical Chemistry Q2 74 / 189

61%

CiteScore 是由Elsevier(爱思唯尔)推出的另一种评价期刊影响力的文献计量指标。反映出一家期刊近期发表论文的年篇均引用次数。CiteScore以Scopus数据库中收集的引文为基础,针对的是前四年发表的论文的引文。CiteScore的意义在于,它可以为学术界提供一种新的、更全面、更客观地评价期刊影响力的方法,而不仅仅是通过影响因子(IF)这一单一指标来评价。

历年Cite Score趋势图

中科院SCI分区Fluid Phase Equilibria 中科院分区

中科院 2023年12月升级版 综述期刊:否 Top期刊:否
大类学科 分区 小类学科 分区
工程技术 3区 CHEMISTRY, PHYSICAL 物理化学 ENGINEERING, CHEMICAL 工程:化工 THERMODYNAMICS 热力学 3区 3区 3区

中科院分区表 是以客观数据为基础,运用科学计量学方法对国际、国内学术期刊依据影响力进行等级划分的期刊评价标准。它为我国科研、教育机构的管理人员、科研工作者提供了一份评价国际学术期刊影响力的参考数据,得到了全国各地高校、科研机构的广泛认可。

中科院分区表 将所有期刊按照一定指标划分为1区、2区、3区、4区四个层次,类似于“优、良、及格”等。最开始,这个分区只是为了方便图书管理及图书情报领域的研究和期刊评估。之后中科院分区逐步发展成为了一种评价学术期刊质量的重要工具。

历年中科院分区趋势图

JCR分区Fluid Phase Equilibria JCR分区

2023-2024 年最新版
按JIF指标学科分区 收录子集 分区 排名 百分位
学科:CHEMISTRY, PHYSICAL SCIE Q3 103 / 178

42.4%

学科:ENGINEERING, CHEMICAL SCIE Q2 80 / 170

53.2%

学科:THERMODYNAMICS SCIE Q2 23 / 76

70.4%

按JCI指标学科分区 收录子集 分区 排名 百分位
学科:CHEMISTRY, PHYSICAL SCIE Q3 116 / 178

35.11%

学科:ENGINEERING, CHEMICAL SCIE Q2 84 / 171

51.17%

学科:THERMODYNAMICS SCIE Q2 38 / 76

50.66%

JCR分区的优势在于它可以帮助读者对学术文献质量进行评估。不同学科的文章引用量可能存在较大的差异,此时单独依靠影响因子(IF)评价期刊的质量可能是存在一定问题的。因此,JCR将期刊按照学科门类和影响因子分为不同的分区,这样读者可以根据自己的研究领域和需求选择合适的期刊。

历年影响因子趋势图

发文数据

2023-2024 年国家/地区发文量统计
  • 国家/地区数量
  • CHINA MAINLAND190
  • USA129
  • Iran110
  • Brazil97
  • GERMANY (FED REP GER)76
  • France56
  • Spain51
  • Russia49
  • Japan43
  • South Africa39

本刊中国学者近年发表论文

  • 1、Mechanism analysis of liquid-liquid extraction separation for dimethyl carbonate and methanol by choline-based DESs as extractants

    Author: Yin, Kexin; Shen, Yuanyuan; Jiao, Yuyang; Zhou, Mengjin; Wang, Xianlong; Zhu, Zhaoyou; Cui, Peizhe; Wang, Yinglong

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 566, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113701

  • 2、Measurement and modelling of the interfacial tensions of CO2 + decane-iododecane mixtures at high pressures and temperatures

    Author: Pan, Ziqing; Trusler, J. P. Martin

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 566, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113700

  • 3、Computer-aided Screening of High Performance Covalent-Organic Frameworks for Removal of SO2 from Flue Gases

    Author: Wang, Liusheng; Cao, Weiliang; Wang, Zhaoxu; Zheng, Baishu

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 567, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113710

  • 4、Measurements and correlation of activity coefficients at infinite dilution for organic solutes in 1-heptyl-3-methylimidazolium chloride

    Author: Chen, Di-Wei; Zhang, Chen; Zhang, Zhen-Yu; Peng, Xiao-Ming; Ren, Rui-Zhen; Ge, Ming-Lan

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 567, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113713

  • 5、A connection between the density and temperature of the Lennard-Jones fluids at equilibrium and the first peak of the radial distribution function

    Author: Chen, Qiuju; Tian, Jianxiang

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 567, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113709

  • 6、Influence mechanism of different organic solvents on API solvation behaviors: Molecular dynamics simulations

    Author: Zhu, Xiaotong; Huang, Yiping; Zhang, Mao; Ji, Yuanhui

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 567, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113708

  • 7、A new molecular thermodynamic model of liquid-liquid interfacial tension

    Author: Zhao, Yueqiang; Zhu, Jing; Wang, Shengkang; Chang, Yanjiao; Liu, Weiwei

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 564, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113593

  • 8、Crossover PC-SAFT equations of state based on White's method for the thermodynamic properties of CO2, n-alkanes and n-alkanols

    Author: Yang, Meijie; Zhan, Taotao; Su, Yuqi; Dong, Ao; He, Maogang; Zhang, Ying

    Journal: FLUID PHASE EQUILIBRIA. 2023; Vol. 564, Issue , pp. -. DOI: 10.1016/j.fluid.2022.113610

投稿常见问题

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