Search Results - "Huber, M L"

Surrogate Mixture Model for the Thermophysical Properties of Synthetic Aviation Fuel S-8: Explicit Application of the Advanced Distillation Curve by Huber, M. L, Smith, B. L, Ott, L. S, Bruno, T. J

“…Fluid volatility is an important property of liquid fuels that previously has not been adequately addressed in the development of surrogate models for the…”
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Measurements and Modeling Study on a High-Aromatic Diesel Fuel by Windom, B. C, Huber, M. L, Bruno, T. J, Lown, A. L, Lira, C. T

“…The increasing cost of diesel fuel, potential for supply disruptions, and environmental concerns have resulted in a great deal of research to improve the…”
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Generalized SAFT-DFT/DMT Model for the Thermodynamic, Interfacial, and Transport Properties of Associating Fluids:  Application for n-Alkanols by Kiselev, S. B, Ely, J. F, Abdulagatov, I. M, Huber, M. L

“…We have developed a “global” crossover (GC) statistical associating fluid theory (SAFT) equation of state (EOS) for associating fluids that incorporates…”
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Surrogate Mixture Models for the Thermophysical Properties of Aviation Fuel Jet-A by Huber, M. L, Lemmon, E. W, Bruno, T. J

“…We developed surrogate mixture models to represent the thermophysical properties of two samples of aviation turbine fuel Jet-A. One sample is a composite of…”
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Current Status of Transport Properties of Hydrogen by Leachman, J. W., Jacobsen, R. T, Penoncello, S. G., Huber, M. L.

“…This article contains a survey of experimental data for the thermal conductivity and viscosity of hydrogen, which are needed for many applications in system…”
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Simplified Model for the Critical Thermal-Conductivity Enhancement in Molecular Fluids by Perkins, R. A., Sengers, J. V., Abdulagatov, I. M., Huber, M. L.

“…This paper reviews the available information for the thermal-conductivity enhancement. This enhancement can be represented by a simplified solution of the…”
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Preliminary Surrogate Mixture Models for the Thermophysical Properties of Rocket Propellants RP-1 and RP-2 by Huber, M. L, Lemmon, E. W, Ott, L. S, Bruno, T. J

“…We have developed surrogate mixture models to represent the thermophysical properties of two kerosene rocket propellants, RP-1 and RP-2. The surrogates were…”
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Chemically Authentic Surrogate Mixture Model for the Thermophysical Properties of a Coal-Derived Liquid Fuel by Huber, M. L, Lemmon, E. W, Diky, V, Smith, B. L, Bruno, T. J

“…We developed a surrogate mixture model to represent the physical properties of a coal-derived liquid fuel using only information obtained from a gas…”
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Thermal conductivity correlations for minor constituent fluids in natural gas: n-octane, n-nonane and n-decane by Huber, M.L., Perkins, R.A.

“…Natural gas, although predominantly comprised of methane, often contains small amounts of heavier hydrocarbons that contribute to its thermodynamic and…”
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Relating Complex Fluid Composition and Thermophysical Properties with the Advanced Distillation Curve Approach by Bruno, T. J., Ott, L. S., Lovestead, T. M., Huber, M. L.

“…Complex fluids have long posed a significant challenge in our ability to characterize and model fluid properties. Here, we consider complex fluids to be…”
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Experimental study of the thermal conductivity of ammonia + water refrigerant mixtures at temperatures from 278 K to 356 K and at pressures up to 20 MPa by Shamsetdinov, F.N., Zaripov, Z.I., Abdulagatov, I.M., Huber, M.L., Gumerov, F.M., Gabitov, F.R., Kazakov, A.F.

“…The thermal conductivity of binary ammonia + water mixtures was measured over the temperature range from 278 K to 356 K and at pressures to 20 MPa using the…”
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Transport properties of refrigerants R32, R125, R134a, and R125+R32 mixtures in and beyond the critical region by Kiselev, S.B, Perkins, R.A, Huber, M.L

“…A practical representation for the transport coefficients of pure refrigerants R32, R125, R134a, and R125+R32 mixtures is presented which is valid in the…”
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Thermodynamic properties of R32 + R134a and R125 + R32 mixtures in and beyond the critical region by Kiselev, S.B, Huber, M.L

“…A parametric crossover equation of state for pure fluids is adapted to binary mixtures. This equation incorporates scaling laws asymptotically close to the…”
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Enthalpy change measurements of a mixed refrigerant in a microcryogenic cooler in steady and pulsating flow regimes by Lewis, R.J., Wang, Y.-D., Lin, M.-H., Huber, M.L., Radebaugh, R., Lee, Y.C.

“…► We measure the enthalpy change of a refrigerant mixture in a microcooler. ► Enthalpy change of steady flow is a factor of 10 less the design value. ►…”
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Thermophysical property standard reference data from NIST by FRIEND, D. G, HUBER, M. L

“…The National Institute of Standards and Technology (NIST) has a primary function to develop and disseminate standard reference data for the thermophysical…”
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Transport properties of petroleum fractions by BALTATU, M. E, CHONG, R. A, HUBER, M. L, LAESECKE, A

“…A corresponding-states model for the transport properties of petroleum fractions is presented. The model requires only the API specific gravity and the mean…”
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Viscosity of H2O in the Critical Region by Sengers, J. V., Perkins, R. A., Huber, M. L., Friend, D. G.

“…It has been well established that thermodynamic and transport properties of fluids exhibit singular behavior near the critical point. In this article, the…”
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Measured and predicted thermodynamic properties of selected halon alternative/nitrogen mixtures by Yang, J.C, Vázquez, I, Boyer, C.I, Huber, M.L, Weber, L

“…Experimental measurements of selected thermodynamic properties of alternative agent/nitrogen mixtures were performed. The selected alternatives were HFC-227ea…”
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Viscosity correlations for minor constituent fluids in natural gas: n-octane, n-nonane and n-decane by Huber, Marcia L., Laesecke, Arno, Xiang, Hong Wei

“…Natural gas, although predominantly comprised of methane, often contains small amounts of heavier hydrocarbons that contribute to its thermodynamic and…”
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Vapour nucleation in a cryogenic–fluid–dissolved–nitrogen mixture during rapid depressurization by Yang, J. C., Cleary, T. G., Huber, M. L., Grosshandler, W. L.

“…Br in the cases of initial total pressures of…”
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