David McDonnell scite author profile

Abstract. This paper first examines the mass transfer from a vertical flat surface of a soluble material due to natural convection. A perturbation term is then introduced into the stream function to model the introduction of a constant counterflow. The effect this counterflow has on both the overall mass transfer and the overall velocity profile is studied in detail.Mathematics Subject Classification (2010). 76R50 76R10 76M45.

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Mass transfer from a vertical flat plate due to a constant upward flow

McDonnell¹,

Redmond²,

Crane³

2013

Z. Angew. Math. Mech.

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Subject classification 76R50 76R05 76M45 76D10This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface.

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A mathematical analysis of drug dissolution in the USP flow through apparatus

McDonnell¹,

D’Arcy

Crane³

et al. 2017

Heat Mass Transfer

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This paper applies boundary layer theory to the process of drug dissolution in the USP (United States Pharmacopeia) Flow Through Apparatus. The mass transfer rate from the vertical planar surface of a compact within the device is examined. The theoretical results obtained are then compared with those of experiment. The paper also examines the effect on the dissolution process caused by the interaction between natural and forced convection within the apparatus and the introduction of additional boundaries.

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An Analysis of Drug Dissolution Rates in the USP 24 Type 2 Apparatus

McDonnell¹,

Redmond²,

D’Arcy

et al. 2009

Proc Appl Math and Mech

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David McDonnell

Rapid determination of gemifloxacin in human plasma by high-performance liquid chromatography–tandem mass spectrometry

Mass transfer from a vertical flat plate due to natural convection with a constant counterflow

Mass transfer from a vertical flat plate due to a constant upward flow

A mathematical analysis of drug dissolution in the USP flow through apparatus

An Analysis of Drug Dissolution Rates in the USP 24 Type 2 Apparatus

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