D-Index & Metrics Best Publications
Engineering and Technology
Russia
2022

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Engineering and Technology D-index 39 Citations 5,692 253 World Ranking 2696 National Ranking 2

Research.com Recognitions

Awards & Achievements

2022 - Research.com Engineering and Technology in Russia Leader Award

Overview

What is he best known for?

The fields of study he is best known for:

  • Thermodynamics
  • Organic chemistry
  • Hydrogen

The scientist’s investigation covers issues in Thermodynamics, Binodal, Atmospheric temperature range, Heat capacity and Critical point. His studies in Isochoric process, Equation of state, Supercritical fluid, Mole fraction and Molar volume are all subfields of Thermodynamics research. His Atmospheric temperature range research incorporates themes from Thermal conductivity, Viscosity and Analytical chemistry.

The various areas that he examines in his Viscosity study include Capillary action and Aqueous solution. His Heat capacity research focuses on Isobaric process and how it relates to Debye, Laser flash analysis and Dinitrogen tetroxide. Saturation is closely connected to Vapor pressure in his research, which is encompassed under the umbrella topic of Critical point.

His most cited work include:

  • Improvement of Quality in Publication of Experimental Thermophysical Property Data: Challenges, Assessment Tools, Global Implementation, and Online Support (134 citations)
  • Temperature-dependent mechanical behaviour of Australian Strathbogie granite with different cooling treatments (85 citations)
  • Quality Assessment Algorithm for Vapor-Liquid Equilibrium Data (68 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Thermodynamics, Atmospheric temperature range, Heat capacity, Critical point and Isochoric process. His research integrates issues of Binodal and Aqueous solution in his study of Thermodynamics. Ilmutdin M. Abdulagatov interconnects Thermal conductivity, Equation of state, Viscosity and Analytical chemistry in the investigation of issues within Atmospheric temperature range.

His Heat capacity study combines topics in areas such as Volume, Calorimeter, Calorimetry, Adiabatic process and Isobaric process. The study incorporates disciplines such as Hexane, Critical phenomena and Critical exponent in addition to Critical point. Ilmutdin M. Abdulagatov has researched Isochoric process in several fields, including Phase transition, Compressibility, Internal energy, Saturation and Internal pressure.

He most often published in these fields:

  • Thermodynamics (82.69%)
  • Atmospheric temperature range (36.22%)
  • Heat capacity (32.69%)

What were the highlights of his more recent work (between 2017-2021)?

  • Thermodynamics (82.69%)
  • Atmospheric temperature range (36.22%)
  • Analytical chemistry (22.76%)

In recent papers he was focusing on the following fields of study:

His main research concerns Thermodynamics, Atmospheric temperature range, Analytical chemistry, Heat capacity and Supercritical fluid. His research in the fields of Phase transition, Isochoric process, Critical point and Vapor–liquid equilibrium overlaps with other disciplines such as Atmospheric pressure. His Vapor–liquid equilibrium study incorporates themes from Binodal and Vapor pressure.

Ilmutdin M. Abdulagatov combines subjects such as Thermal conductivity, Temperature measurement, Thermal decomposition and Volume with his study of Atmospheric temperature range. His research integrates issues of Differential scanning calorimetry and Isobaric process in his study of Heat capacity. His Supercritical fluid research is multidisciplinary, relying on both Propane and Critical phenomena.

Between 2017 and 2021, his most popular works were:

  • Atomic Layer Deposition of Aluminum Nitride Using Tris(diethylamido)aluminum and Hydrazine or Ammonia (14 citations)
  • Temperature Effect on the Thermal Conductivity of Black Coal (8 citations)
  • Temperature effect on thermal-diffusivity and heat-capacity and derived values of thermal-conductivity of reservoir rock materials (6 citations)

In his most recent research, the most cited papers focused on:

  • Thermodynamics
  • Organic chemistry
  • Hydrogen

Thermodynamics, Atmospheric temperature range, Heat capacity, Atmospheric pressure and Analytical chemistry are his primary areas of study. His study in Thermodynamics concentrates on Isochoric process, Pressure coefficient, Critical point and Supercritical fluid. The Isochoric process study combines topics in areas such as Phase transition and Vapor–liquid equilibrium.

He has researched Atmospheric temperature range in several fields, including Thermal conductivity, Oxide, Silicon, Thin film and Vapor pressure. His research brings together the fields of Isobaric process and Heat capacity. His work on Mole fraction as part of general Analytical chemistry research is often related to Butane, thus linking different fields of science.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Improvement of Quality in Publication of Experimental Thermophysical Property Data: Challenges, Assessment Tools, Global Implementation, and Online Support

Robert D. Chirico;Michael Frenkel;Joseph W. Magee;Vladimir Diky.
Journal of Chemical & Engineering Data (2013)

172 Citations

Quality Assessment Algorithm for Vapor-Liquid Equilibrium Data

Jeong Won Kang;Vladimir Diky;Robert D. Chirico;Joseph W. Magee.
Journal of Chemical & Engineering Data (2010)

118 Citations

Temperature-dependent mechanical behaviour of Australian Strathbogie granite with different cooling treatments

W.G.P. Kumari;P.G. Ranjith;M.S.A. Perera;M.S.A. Perera;B.K. Chen.
Engineering Geology (2017)

99 Citations

Effective thermal conductivity of fluid-saturated rocks: Experiment and modeling

M.G. Alishaev;I.M. Abdulagatov;Z.Z. Abdulagatova.
Engineering Geology (2012)

91 Citations

Viscosity measurements for 2,3,3,3-tetrafluoroprop-1-ene (R1234yf) and trans-1,3,3,3-tetrafluoropropene (R1234ze(E))

Xianyang Meng;Guosheng Qiu;Jiangtao Wu;Ilmutdin M. Abdulagatov.
The Journal of Chemical Thermodynamics (2013)

88 Citations

Measurements of the isochoric heat capacities Cv of carbon dioxide in the critical region

I.M. Abdulagatov;N.G. Polikhronidi;R.G. Batyrova.
The Journal of Chemical Thermodynamics (1994)

83 Citations

Effect of pressure and temperature on the thermal conductivity of rocks

Ilmutdin M. Abdulagatov;Subkhanverdi N. Emirov;Zumrud Z. Abdulagatova;Sabir Ya. Askerov.
Journal of Chemical & Engineering Data (2006)

77 Citations

Liquid−Liquid−Vapor, Liquid−Liquid, and Liquid−Vapor Phase Transitions in Aqueous n-Hexane Mixtures from Isochoric Heat Capacity Measurements

Ibragimkhan K. Kamilov;Gennadii V. Stepanov;Ilmutdin M. Abdulagatov;and Anvar R. Rasulov.
Journal of Chemical & Engineering Data (2001)

76 Citations

Effect of temperature, concentration, and pressure on the viscosity of pomegranate and pear juice concentrates

M.A. Magerramov;A.I. Abdulagatov;N.D. Azizov;I.M. Abdulagatov.
Journal of Food Engineering (2007)

75 Citations

Densities and Excess, Apparent, and Partial Molar Volumes of Binary Mixtures of BMIMBF 4 + Ethanol as a Function of Temperature, Pressure, and Concentration

I. M. Abdulagatov;A. Tekin;J. Safarov;J. Safarov;A. Shahverdiyev.
International Journal of Thermophysics (2008)

72 Citations

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