T
Thomas F. Irvine
Researcher at Stony Brook University
Publications - 59
Citations - 2764
Thomas F. Irvine is an academic researcher from Stony Brook University. The author has contributed to research in topics: Heat transfer & Viscometer. The author has an hindex of 19, co-authored 59 publications receiving 2726 citations. Previous affiliations of Thomas F. Irvine include University of Minnesota & State University of New York System.
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A new technique for measuring the Fickian diffusion coefficient in binary liquid solutions
TL;DR: The decaying pulse technique was used to measure the average diffusion coefficient of potassium chloride and sodium chloride in water and water, respectively, at 18.5, 25.0, and 30.0°C as discussed by the authors.
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The effect of concentration gradient on the melting of a horizontal ice plate from above
TL;DR: The melting of a horizontal ice plate from above into a calcium chloride aqueous solution in a rectangular cavity is considered numerically and experimentally in this article, where the ice plate melts spontaneously with decreasing temperature at the melting front, even when there exists no initial temperature difference between ice and liquid.
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Use of the falling ball viscometer to obtain flow curves for inelastic, non-newtonian fluids
Thomas Butcher,Thomas F. Irvine +1 more
TL;DR: In this paper, the authors used the falling ball viscometer to determine the flow curve of non-Newtonian fluids with respect to a sphere moving along the axis of a cylinder and ratios of cylinder to sphere diameter.
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Gravitational and centrifugal buoyancy effects in curved square channels with conjugated boundary conditions
TL;DR: In this paper, the wall average Nusselt number, Nu, is presented as a function of four parameters: the wall conduction parameter, φ, the Prandtl number, and two Grashof numbers, Grg and Grc, which represent the gravitational and centrifugal forces, respectively, present in a variable density fluid.
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Theoretical and experimental study of the falling cylinder viscometer
Fulin Gui,Thomas F. Irvine +1 more
TL;DR: In this article, a fundamental study of the flow field around the falling cylinder viscometer (FCV) has been reported, which allows the prediction of end effects without resorting to empirical corrections or instrument calibration.