Selected publications

Selected articles in journals:

    1. J. Pilarz, J. Feder-Kubis, E. Postnikov, V. V. Melent’ev, O.S. Ryshkova, V.I. Korotkovskii, A.K. Radchenko, M. Wasiak, I. Polishuk, M. Chorążewski. Speeds of sound and densities in imidazolium-based ionic liquids under elevated pressures: New experimental data and modelling by spinodal method and CP-PC-SAFT. Journal of Chemical Thermodynamics. 2023. V. 176: 106905.
    2. O.S.Ryshkova, R.N. Belenkov, E.B.Postnikov, Viscosity of liquid bromoalkanes at ambient pressure from 253.15 to 423.15 K: New experimental data and their free volume theory-based interpretation. Fluid Phase Equilibria. 2020. V. 522: 112735
    3. E.B. Postnikov, B. Jasiok, V.V. Melent’ev, O.S. Ryshkova, V.I. Korotkovski , A.K. Radchenko , A.R. Lowe, M. Chorążewski. Prediction of high pressure properties of complex mixtures without knowledge of their composition as a problem of thermodynamic linear analysis. Journal of Molecular Liquids. 2020. V. 310: 113016.
    4. J. Pilarz , J. Feder-Kubis, V.V. Melent’ev, O.S. Ryshkova , V.I. Korotkovskii, A.K. Radchenko, E.B. Postnikov, M. Chorążewski, I. Polishuk. Speeds of sound in ionic liquids under elevated pressures. New experimental data and CP-PC-SAFT modelling. Journal of Molecular Liquids. 2020. V. 303: 112669.
    5. A.R. Lowe, B. Jasiok, V.V. Melent’ev, O.S. Ryshkova, V.I. Korotkovskii, A.K. Radchenko, E.B. Postnikov, M. Spinnler, J. Safarov, E. Hassel, M. Chorążewski. High-temperature and high-pressure thermophysical property measurements and thermodynamic modelling of an international oil standard: RAVENOL diesel rail injector calibration fluid. Fuel Processing Technology. 2020. V. 199:106220.
    6. Y.A. Neruchev, V.I. Korotkovskii, O.S. Ryshkova. Energy of intermolecular forces in liquid halogenalkanes and their binary mixtures. Journal of Physics: Conference Series. 2019. V. 1385:012024.
    7. O.S. Ryshkova, E.B. Postnikov, I. Polyshuk. Viscosities of 1-Iodoalkanes. New Experimental Data, Prediction, and Analysis. Industrial & Engineering Chemistry Research. 2019. V. 58. P. 20116-20124.
    8. O.S. Ryshkova, M.F. Bolotnikov, V.I. Korotkovskiy, Y.A. Neruchev. Peculiarities of temperature dependence of liquid 1-chloroalkane viscosity. High Temperature. V. 54. P. 820-823
    9. V. I. Korotkovskii, O. S. Ryshkova, Yu. A. Neruchev, A. L. Goncharov, E. B. Postnikov,  Isobaric Heat Capacity, Isothermal Compressibility and Fluctuational Properties of 1-Bromoalkanes. International Journal of Thermophysics. 2016. V. 37: 58
    10. V.I. Korotkovskii, A.V. Lebedev, O.S. Ryshkova, M.F. Bolotnikov, Yu.E. Shevchenko, Yu.A. Neruchev Thermophysical properties of liquid squalane C30H62 within the temperature range of 298.15–413.15 K at atmospheric pressure. High Temperature. 2012. V. 50. pp. 471-474.
    11. O.S. Ryshkova, Yu.A. Neruchev Investigations of the Equilibrium Properties of Liquid Bromoalkanes on the Saturation Curve. High Temperature. 2009. V. 47. pp. 664-668.
    12. M.F. Bolotnikov, Yu.A. Neruchev, O.S. Ryshkova, Yu.E. Shevchenko Speed of Sound, Densities, and Isentropic Compressibilities of Liquid 1-Bromoalkanes at Temperatures from (243.15 to 423.15) K Journal of Chemical and Engineering Data. 2009. V. 54. pp. 1716-1719.
    13. M.F. Bolotnikov, Yu.A. Neruchev, O.S. Ryshkova Density of 1-iodopropane and 1-iodobutane within the temperature range from (253.15 to 383.15) K Journal of Chemical and Engineering Data. 2007. V. 52. pp. 1146-1147.
    14. M.F. Bolotnikov, Yu.A. Neruchev, O.S. Ryshkova Density of some 1-bromoalkanes within the temperature range from (243.15 to 423.15) K Journal of Chemical and Engineering Data. 2007. V. 52. pp. 1065-1068.
    15. M.F. Bolotnikov, Yu.A. Neruchev, O.S. Ryshkova Density of some 1-chloroalkanes within the temperature range from (253.15 to 423.15) K Journal of Chemical and Engineering Data. 2007. V. 52. pp. 2514-2516.