Electrical Resistivity Data for Heat-Transfer Test-Section Metals

Gambill, W.R.

doi:10.2172/4252128

Cited by 4 publications

(4 citation statements)

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“…Three different solvent mixtures were used, as listed in Table II. To estimate the viscosity of mixtures, the Gambill method [60] is used. Then v and D diff are calculated from Stoke's law and the Stoke-Einstein relation, respectively.…”

Section: Experimental Methodsmentioning

confidence: 99%

Assembly of hard spheres in a cylinder: a computational and experimental study

Bian

Shields

et al. 2017

Soft Matter

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Hard spheres are an important benchmark of our understanding of natural and synthetic systems. In this work, colloidal experiments and Monte Carlo simulations examine the equilibrium and out-of-equilibrium assembly of hard spheres of diameter σ within cylinders of diameter σ≤D≤ 2.82σ. Although phase transitions formally do not exist in such systems, marked structural crossovers can nonetheless be observed. Over this range of D, we find in simulations that structural crossovers echo the structural changes in the sequence of densest packings. We also observe that the out-of-equilibrium self-assembly depends on the compression rate. Slow compression approximates equilibrium results, while fast compression can skip intermediate structures. Crossovers for which no continuous line-slip exists are found to be dynamically unfavorable, which is the main source of this difference. Results from colloidal sedimentation experiments at low diffusion rate are found to be consistent with the results of fast compressions, as long as appropriate boundary conditions are used.

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Section: Experimental Methodsmentioning

confidence: 99%

Assembly of hard spheres in a cylinder: a computational and experimental study

Bian

Shields

et al. 2017

Soft Matter

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“…Nonetheless, in this case, it has been considered a mixture of two substances as working fluid. The properties of the mixture are obtained with REFPROP [48], except the thermal conductivity, kinematic and dynamic viscosities, which have been calculated with Filippov and Novoselova [49], Gambill [50] and Graham's [51] models respectively (Equation 27, 28, 29) using the REFPROP properties of each substance.…”

Section: Cold Side Heat Exchangermentioning

confidence: 99%

Computational study of geothermal thermoelectric generators with phase change heat exchangers

Catalán

Araiz

Aranguren

et al. 2020

Energy Conversion and Management

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“…9 is based on a 65°F coolant temperature rise to give the same axial thermal stresses as in normal 100-Mw operation. It was also calculated by a criterion similar to Eq.. (30) that if the velocity were constantly reduced in proportion to the temporal decrease of thermal power (to keep dt constant at 65°F as the power changed), the minimum stable downflow velocity would be 0.20 fps.…”

Section: K^j"mentioning

confidence: 99%