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Vladimir Soloviev

Adjunct Faculty - Teachin
Mathematics, Mechanical Engineering

350 EB
Provo, UT 84602

Biography

Office Hours

By appointment.

Research

Heat Transfer, Gas Radiation, Applied Mathematics

Biography
Publications
Courses

EDUCATION

Ph.D. Mechanical Engineering, Brigham Young Unicversity, 1999

M.S. Mechanical Engineering, Brigham Young University, 1995

M.S. Mathematics and Applied Mathematics, Novosibirsk State University, Russia, 1977

PROFESSIONAL EXPERIENCE

1999 – present Visiting Professor of Mechanical Engineering,

BrighamYoungUniversity

2008 – present Adjunct Professor of Mathematics,

UtahValleyUniversity

1977 – 1992 Scientific Researcher,

Radiative Transfer Laboratory,

Kutateladze Institute of Thermophysics,

Russian Academy of Sciences

• Vladimir P. Solovjov and Brent W. Webb. Global Spectral Methods in Gas Radiation: the Exact Limit of the SLW Model and its Relationship to the ADF and FSK Meethods. ASME Journal of Heat Transfer (submitted).

• Vladimir P. Solovjov, Denis Lemonnier and Brent W. Webb. SLW-1 modelling of radiative heat transfer in non-isothermal non-homogeneous gas mixtures with soot. (submitted).

• Vladimir P. Solovjov, Denis Lemonnier and Brent W. Webb. The SLW-1 Model for Efficient Prediction of Radiative Transfer in High Temperature Gases. (submitted).

• Leonid A. Dombrovsky, Vladimir P. Solovjov, and Brent W. Webb. Attenuation of Solar Radiation by Water Mist from the Ultraviolet to the Infrared Range. (submitted).

• Vladimir P. Solovjov and Brent W. Webb. Application of CW local correction approach to SLW modelling of radiative transfer in non-isthermal gaseous media. Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. , pp.-, 2009.

• Vladimir P. Solovjov and Brent W. Webb. Application of CW local correction approach to SLW modelling of radiative transfer in non-isthermal gaseous media. Proceedings of Eurotherm Seminar 83 "Computational Thermal Radiation in Participating Media III", Lisbon, Portugal, 15-17 April, 2009, pp. 303-312. P.J.Coelho, D.Lemonnier, P.Lybaert, N.Selçuk, editors. IST Press.

• Matthew R. Jones and Vladimir P. Solovjov. Green’s Function Approach to Nonlinear Conduction and Surface Radiation Problems. ASME Journal of Heat Transfer, 2009, Vol. 132, No.2. pp.024502-1 – 024502-5.

• Vladimir P. Solovjov and Brent W. Webb. The SLW Model: Exact Limit and Relationship to other Global Methods. HT2009-88322. Proceedings of 2009 ASME Summer Heat Transfer Conference, July 19-23, 2009 - San Francisco, California.

• Matthew R. Jones and Vladimir P. Solovjov. Green’s Function Approach to Nonlinear Conduction and Surface Radiation Problems. HT2009-88033. Proceedings of 2009 ASME Summer Heat Transfer Conference, July 19-23, 2009 - San Francisco, California.

• Vladimir P. Solovjov and Brent W. Webb. Multilayer Modeling of Radiative Transfer by SLW and CW Methods in Non-Isothermal Gaseous Medium. Journal of Quantitative Spectroscopy and Radiative Transfer,Vol.109, pp.245-257, 2008.

• Vladimir P. Solovjov and Brent W. Webb. Multilayer Modeling of Radiative Transfer by SLW and CW Methods in Non-Isothermal Gaseous Medium. In the Proceedings of the Fifth International Symposium on Radiative Transfer, Bodrum, Turkey, June 17-22, 2007. Editors M.Pinar Menguc and Nevin Selcuk.

• Matthew R. Jones and Vladimir P. Solovjov. The Radiating Annular Fin Problem: A Solution Based on the Green’s Function Approach Proceedings of 2006 ASME International Mechanical Engineering Congress. Chicago, November 5-10, 2006.

• Vladimir P. Solovjov and Brent W. Webb. The Influence of Carbon Monoxide on Radiation Transfer from a Mixture of Combustion Gases and Soot. Proceedings of Eurotherm Seminar 78 "Computational Thermal Radiation in Participating Media II", Poitier, France, 5-7 April, 2006.

• Jordan Cox, Reinhard Franz, and Vladimir Siolovjov. Advanced Applied Engineering Mathematics, Volume I. Second Edition. Lecture Notes and Supplemental Material for Graduate Students. BYU Academic Publising (with J. Cox and R.Franz), 2005.

Sensitivity Analysis of an Inverse Method for Characterizing Industrial Foams. Proceedings of 2005 ASME Summer Heat Transfer Conference, July 17-22, 2005 - San Francisco, California.

• Vladimir P. Solovjov and Brent W. Webb. The Cumulative Wavenumber Method for Modeling Radiative Transfer in Gas Mixtures with Soot. Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 93, pp.273-287, 2005.

• M.R.Jones, V.P.Solovjov, B.W.Webb, and S.M.Salisbury. Identification of Appropiate Source Models for Accurate Diffusion Modeling of Radiative Transfer in a Non-Absorbing Foam Layer. Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 93, pp.125-137, 2005.

• Vladimir P. Solovjov and Brent W. Webb. Prediction of Radiative Transfer in an Aluminum Recycling Furnace. Journal of the Institute of Energy (J.Energy Inst.) Vol.78, pp.18-26, 2005.

• Jordan Cox, Reinhard Franz, and Vladimir Siolovjov. Advanced Applied Engineering Mathematics, Volume II. Lecture Notes and Supplemental Material for Graduate Students.. BYU Academic Publising (together with Jordan Cox and Reinhard Franz), 2005.

• Jordan Cox, Reinhard Franz, and Vladimir Siolovjov. Advanced Applied Engineering Mathematics. Lecture Notes and Supplemental Material for Graduate Students.. BYU Academic Publising (together with Jordan Cox and Reinhard Franz), 2004.

• Vladimir P. Solovjov and Brent W. Webb. The Cumulative Wavenumber Method for Modeling Radiative Transfer in Gas Mixtures with Soot. In the Proceedings of the Fourth International Symposium on Radiative Transfer, Istanbul, Turkey, June 20-25, 2004. Editors M.Pinar Menguc and Nevin Selcuk, pp.539-549

• M.R.Jones, V.P.Solovjov, B.W.Webb, and S.M.Salisbury. Identification of Appropriate Source Models for Accurate Diffusion Modeling of Radiative Transfer in a Non-Absorbing Foam Layer. In the Proceedings of the Fourth International Symposium on Radiative Transfer, Istanbul, Turkey, June 20-25, 2004. Editors M.Pinar Menguc and Nevin Selcuk, pp.143-152

Simulations for Radiation Propagation in a Finite, Non-Absorbing Layer.(submitted)

• V.M.Miklyukov, S.-S.Chow, and V.P.Solovjov. Stagnation Zones of Ideal Flows in Long and Narrow Bands. Internartional Journal on Mathematics and Mathematical Sciences. 62 (2004), pp. 3339-3356.

• M.R.Jones, V.P.Solovjov, and B.W.Webb. Diffusion Modeling of the Radiative Transfer in a Non-Absorbing Foam Layer. Proceedings of IMECE2003-41828, 2003 ASME International Mechanical Engineering Congress. Washington, D.C., November 15-21, 2003

• M.R.Jones, V.P.Solovjov, and B.W.Webb. Investigation of Various Source Models in the Diffusion Approximation. Proceedings of 2003 ASME Summer Heat Transfer Conference, July 21-23, 2003 - Las Vegas Nevada

• Vladimir P. Solovjov and Brent W. Webb. Prediction of Radiative Transfer in an Aluminum Recycling Furnace. Proceedings of Eurotherm Seminar 73 "Computational Thermal Radiation in Participating Media", Mons, Belgium, 15-17 April, 2003

• V.P.Solovjov, M.R.Jones, K.Fackrell, and B.W.Webb. Characterization of Industrial Foams. Proceedings of IMECEE 2002-33905, ASME International Mechanical Engineering Congress. New Orleans, Louisiana, 17-22 November, 2002

• Vladimir P. Solovjov and Brent W. Webb. Application of the Cumulative Wavenumber Approach for Modeling Radiative Transfer in H2O under Non-Isothermal and Non-Homogeneous Conditions. Proceedings of IMECEE 2002-33886,ASME International Mechanical Engineering Congress. New Orleans, Louisiana, 17-22 November, 2002

• Vladimir P. Solovjov and Brent W. Webb. A Local-Spectrum Correlated Model for Radiative Transfer in Non-Uniform Gas Mixtures. Journal of Quantitative Spectroscopy and Radiative Transfer, 2002, Vol. 73, pp. 361-373 (in English)

• Vladimir P. Solovjov and Brent W. Webb. An Efficient Method for Modeling of Radiative Transfer in Multicomponent Gas Mixtures with Soot Particles. ASME Journal of Heat Transfer, 2001, Vol. 123, No.3. pp. 450-457 (in English)

• Vladimir P. Solovjov and Brent W. Webb. A Local-Spectrum Correlated Model for Radiative Transfer in Non-Uniform Gas Mixtures. In The Proceedings of the Third International Symposium on Radiative Transfer, June 17-22, 2001, Antalya, Turkey

• Vladimir P. Solovjov and Brent W. Webb. SLW Modeling of Radiative Transfer in Multicomponent Gas Mixtures. Journal of Quantitative Spectroscopy and Radiative Transfer, 2000, Vol. 65, No. 4, pp. 655-672 (in English).

• Vladimir P. Solovjov and Brent W. Webb. Numerical Modeling of Radiation Transfer in the Mixture of Combustion Gases with Soot Particles. 8th International Conference on Numerical Combustion. SIAM, Amelia Island, Florida, March 5-8, 2000.

• Vladimir P. Solovjov and Brent W. Webb. Cumulative Wavelength as a Source of Dynamical Information of the Molecular Gas Spectra. In Abstracts of the Fifth SIAM Conference on Applications of Dynamical Systems, May 23-27, 1999, Snowbird, Utah (in English)

• Vladimir P. Solovjov and Brent W. Webb. Methods of Spectral Integration for SLW Modeling of Radiative Transfer in the Multicomponent Gas Mixtures. In Abstracts of the Fifth SIAM Conference on Mathematical and Computational Issues in the Geosciences, March 24-27, 1999, San-Antonio, Texas (in English)

• Vladimir P. Solovjov. Spectral Line-Based Weighted-Sum-of-Gray-Gases Modeling of Radiative Transfer in Multicomponent Mixtures of Hot Gases. Ph.D. Dissertation, Brigham Young University, Provo, Utah, 1999 (in English)

• Vladimir P. Solovjov and Brent W. Webb. Radiative Transfer Model Parameters for Carbon Monoxide at High Temperature. In Proceedings of the Eleventh International Heat Transfer Conference, Kyongju, Korea, Ed. by J.S. Lee, Vol. 7, pp. 445-450, 1998 (in English)

• Vladimir P. Solovjov and Brent W. Webb. SLW Modeling of Radiative Transfer in the Mixture of Hot Gases. In Abstracts of the Twelfth Annual Technical Conference “Environmentally Acceptable Coal Combustion”, Advanced Combustion Engineering Research Center at BYU, Provo, Utah, p. 75, 1998 (in English)

• Vladimir P. Solovjov. Solution of the Radiative Transfer Equation by the Moment Method Using Polynomials Of Special Form. Journal of Quantitative Spectroscopy and Radiative Transfer (USA), Vol. 47, No. 3, pp. 229-236, 1992 (in English)

General Method of Solving Complex Heat and Radiation Transfer Problems. Russian Journal of Engineering Thermophysics (USA), Vol. 2, No. 3, pp. 167-191, 1992 (in English)

Global Moment Technique for Analytical Investigation of Nonstationary Heat Transfer Problems in Thermal Plasma. Institute of Thermophysics of Russian Academy of Sciences, Novosibirsk, Preprint No. 264-92, pp. 1-38, 1992 (in English)

Global Technique for Analytical Investigation of Non-Stationary Problems of Heat Transfer in Thermal Plasma. Part 1. Theoretical Basis and Applied Possibilities of the Method. Institute of Thermophysics of Russian Academy of Sciences, Novosibirsk, Preprint No. 259-92, pp. 1-38, 1992 (in Russian)

Method of Analytical Studies of Thermal Regime of Work of Thermocathode. Proceedings of 8th National Conference on Physics of Low Temperature Plasma, Ed. by O.G. Martynenko, Minsk, Vol. 1, pp. 72-74, 1991 (in Russian)

Method of Analytical Studies of Thermal Regime of Work of Thermocathode. Proceedings of 10th International Symposium on Plasmochemistry, Vol. 7, Bohum, Germany, 1991 (in English)

General Method for Analytical Study of Nonlinear Time-Varying Problems of Heat Transfer and Radiative Transport. Soviet Physics Doklady, Vol. 36, No. 12, pp. 951-957, pp. 846- 849, December 1991 (in English)

General Method for Analytical Study of Nonlinear Time-Varying Problems of Heat Transfer and Radiative Transport. Proceedings of the Academy of Sciences of the USSR, Vol. 321, No. 5, pp. 951-957, 1991 (in Russian)

Spectral Composition of Light Scattered in Fluid Flow Around a Rotating Disk. Journal of Applied Mechanics and Technical Physics, Consulting Bureau, New York, Plenum Publishing Corporation, Vol. 32, No. 3, pp. 456-461, 1991 (in English)

Investigation of the Spectral Structure of the Light Scattered in the Fluid Flow near the Rotating Disk. Journal of Applied Mechanics and Technical Physics, Siberian Branch of Academy of Sciences of USSR, Novosibirsk, No. 3, pp. 164-169, 1991 (in Russian)

Spectral and Total Emissivities of Non-Isothermal Layer of Quartz Ceramics. Siberian Physics-Technical Journal, Siberian Branch of Academy of Sciences of USSR, Novosibirsk, No. 1, pp. 23- 28, 1991 (in Russian)

Theoretical and Experimental Investigations into Spectral Structure of Density Fluctuations in Turbulent Fluid Flow. In Engineering Turbulence Modeling and Experiments. Ed. by W. Rodi and E. Ganic, pp. 345-350, Elsevier, 1990 (in English)

Mathematical Model of Radiation-Heat Conditions in a Solar Greenhouse with Semitransparent Covering. Applied Solar Energy, Allerton Press Inc., New York, pp. 62-67, 1987 (in English)

Mathematical Model of Radiation-Heat Conditions in a Solar Greenhouse with Semitransparent Covering. Geliotekhnika, Vol. 23, No. 6, pp. 56-61, 1987 (in Russian)

The Spectrum of Light Scattered by a Turbulent Fluid. In Molecular Physics of Non- Equilibrium Systems, Institute of Thermophysics, Siberian Branch of Academy of Sciences of USSR, Novosibirsk, 1978, pp. 31-35 (In Russian)

Study of the Effect of Radiation on Heat Transfer Near Air-Water Interface. In Investigation of Complex Heat Transfer, Siberian Branch of Academy of Sciences of USSR, Novosibirsk, 1979, pp. 99-109 (in Russian). (Reference on this article is in the International Journal of Heat and Mass Transfer, 1981, Vol. 24, p. 964)

• Vladimir P. Solovjov. Thermal Stratification in a Plane Surface Layer of Water. In Investigation of Complex Heat Transfer, Siberian Branch of Academy of Sciences of USSR, Novosibirsk, 1978, pp. 31-35 (in Russian)

TEACHING

ME 321 Fundamentals of ThermodynamicsME 340 Heat TransferME 540 Intermediate Heat Transfer (graduate class)

ET 502 Advanced Applied Engineering Mathematics (graduate class) I

ET 503 Advanced Applied Engineering Mathematics (graduate class) II

MATH 111 Trigonometry

MATH 112 Calculus I

MATH 113 Calculus II

MATH 302 Mathematics for Engineers I

MATH 303 Mathematics for Engineers II

MATH 312 Advanced Engineering Mathematics I

MATH 313 Advanced Engineering Mathematics II

MATH 343 Linear Algebra

Courses Taught