(last updated 08/2024)
2024
Speed of sound measurements and derived third and fourth acoustic virial coefficients of supercritical neon
Authors: T. Dietl, A. El Hawary, R. M. Gavioso, R. Hellmann, K. Meier
Metrologia 61, 045007 (2024).
A novel vibrational sensor for high precision viscometry of liquids in wide ranges of temperature and pressure
Authors: C. Junker, A. Laesecke, K. Meier
Phys. Fluids 36, 087136 (2024).
Vapor–liquid equilibrium and thermodynamic properties of saturated argon and krypton from Monte Carlo simulations using ab initio potentials
Authors: P. Ströker, K. Meier
J. Chem. Phys. 160, 094503 (2024) (Editor’s Pick, Special Collection: Monte Carlo methods, 70 years after Metropolis et al. (1953)).
2023
Highly Accurate Densities and Isobaric and Isochoric Heat Capacities of Compressed Liquid Water Derived from New Speed of Sound Measurements
Authors: A. El Hawary, K. Meier
Int. J. Thermophys. 44, 180 (2023) (Open Access).
Ab Initio Calculation of Fluid Properties for Precision Metrology
Authors: G. Garberoglio, C. Gaiser, R. M. Gavioso, A. H. Harvey, R. Hellmann, B. Jeziorski, K. Meier,
M. R. Moldover, L. Pitre, K. Szalewicz, R. Underwood
J. Phys. Chem. Ref. Data 52, 031502 (2023) (Open Access).
Classical statistical mechanics in the μVL and μpR ensembles
Authors: P. Ströker, K. Meier
Phys. Rev. E 107, 064112 (2023).
Improved and Always Improving: Reference Formulations for Thermophysical Properties of Water
Authors: A. H. Harvey, J. Hrubý, K. Meier
J. Phys. Chem. Ref. Data 52, 011501 (2023).
2022
Thermodynamic properties of krypton from Monte Carlo simulations using ab initio potentials
Authors: P. Ströker, R. Hellmann, K. Meier
J. Chem. Phys. 157, 114504 (2022)
Thermodynamic properties of argon from Monte Carlo simulations using ab initio potentials
Authors: P. Ströker, R. Hellmann, K. Meier
Phys. Rev. E 105, 064129 (2022).
Effects of crystalline anisotropy on resonant acoustic loss of torsional quartz viscometers
Authors: P. R. Heyliger, C. Junker, K. Meier, W. L. Johnson
J. Acoust. Soc. Am. 151, 2135-2148 (2022).
Rigorous expressions for thermodynamic properties in the NpH ensemble
Authors: P. Ströker, K. Meier
Phys. Rev. E 105, 035301 (2022).
Thermodynamic Properties of Liquid Toluene and n‑Butane Determined from Speed of Sound Data
Authors: A. El Hawary, K. Meier
Int. J. Thermophys. 43, 71 (2022) (Open Access).
2021
Classical statistical mechanics in the grand canonical ensemble
Authors: P. Ströker, K. Meier
Phys. Rev. E 104, 014117 (2021).
Systematic formulation of thermodynamic properties in the NpT ensemble
Authors: P. Ströker, R. Hellmann, K. Meier
Phys. Rev. E 103, 023305 (2021).
2020
Analysis of the electrical field in viscosity sensors with torsionally vibrating quartz cylinders
Authors: C. Junker, K. Meier
J. Appl. Phys. 128, 044505 (2020).
Speed-of-sound measurements in liquid n‑pentane and isopentane
Authors: A. El Hawary, S. Z. Mirzaev, K. Meier
J. Chem. Eng. Data 65, 1243−1263 (2020).
2019
Eighth-order virial equation of state and speed-of-sound measurements for krypton
Authors: A. El Hawary, R. Hellmann, K. Meier, H. Busemann
J. Chem. Phys. 151, 154303 (2019).
2018
Speed-of-sound measurements and derived thermodynamic properties of liquid isobutane
Authors: A. El Hawary, K. Meier
J. Chem. Eng. Data 63, 3684-3703 (2018).
Wide-ranging absolute viscosity measurements of sub- and supercritical 1,1,1-trifluoroethane (R143a)
Authors: Arno Laesecke, Karsten Meier, Richard F. Hafer
J. Mol. Liq. 251, 128–141 (2018).
2016
Speed-of-sound measurements in compressed nitrogen and dry air
Authors: K. Meier, S. Kabelac
J. Chem. Eng. Data 61, 3941-3951 (2016).
Measurements of the speed of sound in liquid n-butane
Authors: A. El Hawary, K. Meier
J. Chem. Eng. Data 61, 3858-3867 (2016).
Measurements of the speed of sound in liquid and supercritical ethane
Authors: A. El Hawary, K. Meier
Fluid Phase Equilibria 418, 125-132 (2016).
2013
Measurements of the speed of sound in liquid toluene
Authors: K. Meier, S. Kabelac
J. Chem. Eng. Data 58, 1398-1406 (2013).
Measurements of the speed of sound in propene in the liquid and supercritical regions
Authors: K. Meier, S. Kabelac
J. Chem. Eng. Data 58, 1621-1628 (2013).
Measurements of the speed of sound in the refrigerants HFC227ea and HFC365mfc in the liquid region
Authors: K. Meier, S. Kabelac
J. Chem. Eng. Data 58, 446-454 (2013).
2012
Thermodynamic properties of propane. IV. Speed of sound in the liquid and supercritical regions
Authors: K. Meier, S. Kabelac
J. Chem. Eng. Data 57, 3391-3398 (2012).
A numerical and experimental investigation of an impingement cooling system for an Active Clearance Control system of a low pressure turbine
Authors: F. Ben Ahmed, R. Poser, Y. Schumann, B. Weigand, K. Meier
14th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery,, ISROMAC-14, February 27th –
March 2nd, Honolulu, USA, Paper Nr. 1029 (2012).
2011
Numerical investigation of heat transfer and pressure drop characteristics for different hole geometries of a turbine casing impingement cooling system
Authors: F. Ben Ahmed, R. Tucholke, B. Weigand, K. Meier
In: Proceedings of the Turbine Technical Conference & Exposition TURBO EXPO 2011, June 6-10, Vancouver, Canada, Paper Nr. GT2011-45251 (2011).
2010
Heat transfer and pressure drop characteristics for a turbine casing impingement cooling system
Authors: F. Ben Ahmed, B. Weigand, K. Meier
In: Proceedings of the International Heat Transfer Conference IHTC14, August 8-13, 2010, Washington D.C., USA, Paper Nr. IHTC-22817 (2010).
2006
Speed of sound instrument for fluids with pressures up to 100 MPa
Authors: K. Meier, S. Kabelac
Rev. Sci. Instrum. 77, 123903, 8 S. (2006).
Pressure derivatives in the classical molecular-dynamics ensemble
Authors: K. Meier, S. Kabelac
J. Chem. Phys. 124, 064104, 10 p. (2006).
2005
Messungen der Schallgeschwindigkeit im Flüssigkeitsgebiet der Kältemittel Propan, Propen und R227ea
Authors: K. Meier, S. Kabelac
S. 83-99 in: DKV-Tagungsbericht 2005, Band II.1, Deutscher Kälte- und Klimatechnischer Verein, Stuttgart (2005).
Transport coefficients of the Lennard-Jones model fluid. III. Bulk viscosity
Authors: K. Meier, A. Laesecke, S. Kabelac
J. Chem. Phys. 122, 014513, 9 S. (2005).
2004
Transport coefficients of the Lennard-Jones model fluid. II. Self-diffusion
Authors: K. Meier, A. Laesecke, S. Kabelac
J. Chem. Phys. 121 (19) 9526-9535 (2004).
Transport coefficients of the Lennard-Jones model fluid. I. Viscosity
Authors: K. Meier, A. Laesecke, S. Kabelac
J. Chem. Phys. 121 (8) 3671-3687 (2004).
3D visualization of molecular simulations in high-performance parallel computing environments
Authors: K. Meier, C. Holzknecht, S. Kabelac, S. Olbrich, K. Chmielewski
Molec. Simul. 30 (7) 469-477 (2004).
2001
Tele-immersive Visualisierung mittels 3D-Streamingverfahren im Gigabit-Wissenschaftsnetz
Authors: S. Olbrich, H. Pralle, S. Rasch, K. Meier
DFN-Mitteilungen 57 (11) 13-15 (2001).
A molecular-dynamics study of the self-diffusion coefficient and viscosity of the Lennard-Jones fluid
Authors: K. Meier, A. Laesecke, S. Kabelac
Int. J. Thermophys. 22 (1) 161-173 (2001).
1997
Monte Carlo simulations of binary Lennard-Jones mixtures: A test of the van der Waals one-fluid model
Authors: K. Meier, R. Tillner-Roth, S. Kabelac, T. J. Edwards
Int. J. Thermophys. 19 (3) 687-696 (1997).
Letzte Änderung: 26. August 2024