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Search Publications by: Joe W. Magee (Fed)

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Displaying 51 - 75 of 109

Program: 2005 Boulder Laboratories Postdoctoral Poster Symposium

June 15, 2005
Author(s)
Joe W. Magee
The Boulder Laboratories Diversity Council has announced a networking opportunity - the 2005 Boulder Laboratories Postdoctoral Poster Symposium, for postdoctoral associates and student affiliates. The planned event is to begin with an informal gathering

PVTx Measurements and Crossover Equation of State of Pure n-Hexane and Dilute Aqueous n-Hexane Solutions in the Critical and Supercritical Regions

February 2, 2005
Author(s)
Ilmutdin Abdulagatov, Emil Bazaev, Joe W. Magee, Sergei B. Kiselev, James F. Ely
The PVTx relationship of aqueous n-hexane solutions (0.0201, 0.082 and 0.8500 mole fraction of n-hexane) has been measured in the near-critical and supercritical regions with a constant-volume piezometer. Measurements were made on the critical isotherm of

Program: 2004 Boulder Laboratories Postdoctoral Poster Symposium

July 15, 2004
Author(s)
Joe W. Magee
In honor of both the Boulder Labs 50 Year Anniversary and 50 years of the NIST/National Research Council Postdoctoral Associateship Program, we will hold the First Boulder Labs Postdoctoral Poster Symposium on Thursday, June 24, 2004, from 2 to 4 p.m. in

Establishing Benchmarks for the First Industrial Fluids Simulation Challenge

May 15, 2004
Author(s)
Daniel G. Friend, David Frurip, Joe W. Magee, J Olson
In order to judge the entries in the First Fluid Properties Simulation Challenge [1], a benchmarking committee was established, comprised of the authors of this paper. The mandate of the committee was to determine best values for the physical property

PVTx and Isochoric Heat Capacity Measurements for Aqueous Methanol Solutions

November 1, 2003
Author(s)
M M. Aliev, Joe W. Magee, I M. Abdulagatov
Isochoric heat capacity and PVTx properties of an aqueous methanol solution (050 mass fraction or 0.36 mol fraction of methanol) were measured in the liquid phase with a twin-cell adiabatic calometer. Temperatures ranged from 333 K to 422 K, and pressures

Specific Isochoric Heat Capacity Measurements for Liquid Isobutane

January 1, 2003
Author(s)
Hiroyuki Miyamoto, Hiroshi Kitajima, Noboru Kagawa, Joe W. Magee, Seizo Tsuruno, Koichi Watanabe
Experimental specific isochoric heat capacities (C v) and PρT properties for isobutane are presented that were measured with a twin-cell type adiabatic isochoric calorimeter. The measurements were obtained for temperatures from 272 to 408 K and for

Study on Isochoric Specific Heat Capacities for Liquid Methanol-Water Mixtures

November 1, 2002
Author(s)
Hiroshi Kitajima, Hiroyuki Miyamoto, Noboru Kagawa, Joe W. Magee, Harumi Endo, Seizo Tsuruno, Koichi Watanabe
Hydrogen bonding of water (H 2O) is certain to introduce an effect of the molecular energy to the heat capacity. Due to the presence of the strong hydrogen bonding, interactions between water and methanol (CH 3OH) molecules show anomalous thermodynamic

Isochoric Heat Capacity Measurements for Heavy Water Near the Critical Point

May 1, 2002
Author(s)
N. G. Polikhronidi, I M. Abdulagatov, Joe W. Magee, G. V. Stepanov
Isochoric heat capacity measurements of D 20 are presented as a function of temperature at fixed densities of 319.60, 398.90, 431.09 and 506.95 kg m -3. The measurements cover a range of temperatures from 551 to 671 K and pressures up to 32 Mpa. The

Study of Isochoric Specific Heat Capacity Measurements for Liquid Water-Methanol Mixtures

November 20, 2001
Author(s)
Hiroshi Kitajima, Hiroyuki Miyamoto, Noboru Kagawa, Joe W. Magee, Harumi Endo, Seizo Tsuruno, Koichi Watanabe
Hydrogen bonding of water (H 2O) is certain to introduce an effect of the molecular energy to the heat capacity. Due to the presence of the strong hydrogen bonding, interactions between water and methanol (CH 3OH) molecules show anomalous thermodynamic