An Analytical Solution for Transient Heat Conduction in a Composite Slab with Time-Dependent Heat Transfer Coefficient

Chiba, Ryoichi

doi:10.1155/2018/4707860

Cited by 14 publications

(2 citation statements)

References 27 publications

(48 reference statements)

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“…The following conditions apply at the interfaces to handle, especially in a multilayer geometry [24]. Instead, the problem is solved separately and sequentially, such that the solution at the end of Stage A serves as the initial condition for Stage B.…”

Section: Problem Definitionmentioning

confidence: 99%

Theoretical modeling of endovascular drug delivery into a multilayer arterial wall from a drug-coated balloon

Jain

McGinty

Pontrelli

et al. 2022

International Journal of Heat and Mass Transfer

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Section: Problem Definitionmentioning

confidence: 99%

Theoretical modeling of endovascular drug delivery into a multilayer arterial wall from a drug-coated balloon

Jain

McGinty

Pontrelli

et al. 2022

International Journal of Heat and Mass Transfer

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“…A numerical solution is complete for two composite sheets with a trigonometric or exponential function of the heat transfer coefficient with time on the warm surface. Numerical results explained the transitory difference effects in the coefficient of heat transfer on the unsteady temperature range of composite sheets [2]. The unsteady one-dimensional heat transfer pattern was advanced and numerically solved by employing a finite difference method to study the effect of PCMs on the walls of exterior buildings.…”

Section: Introductionmentioning

confidence: 99%

A Numerical Study to Determine the Effect of an Insulator Location on the Transient Heat Transfer

Mageed,

Kurji,

Abdulrasool

2023

J. Ecol. Eng.

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Given the importance of thermal insulation in the walls of buildings to provide both electrical energy and thermal comfort in different weathers. In this research, the ANSYS-14 simulation program was used, considered one of the programs used to evaluate the thermal behavior of buildings, considering the effect of weather changes and building components during the steady and unsteady heat transfer of a composite wall from several layers. The simulation program was used for four types of insulation inside the wall with different thermal properties (Glass-Fiber Slab, Polyurethane Board, Hardboard (Medium) and Softwoods). A model was built for a traditional wall without an insulator and a model for a traditional wall that contains an insulator in different locations (from the outside, in the middle, and from the inside). Also, the model was isolated from the top and bottom surfaces, and each insulation material was applied in three locations in the wall. The conventional composite wall was exposed to a constant thermal load of 60 °C from the outside, and the inside wall was exposed to a thermal load of 25 °C This study focused on three steps. The first step is to know the best type of the four thermal insulators used in this study. The second step was to evaluate the best location of the insulator in the wall. The third step included the results of the previous two steps through which the best insulator was chosen and the best location in the wall. Three values of insulator thickness 2, 5 and 8 cm were used. Through the results of the study, it was found that placing the insulator on the outside of the wall plays a large role in reducing the rate of unsteady heat transfer and that its effect decreases by approaching the steady state, as it does not affect it in the case of the total steady state. The results also showed that the rate of unsteady heat transfer decreases by decreasing the thermal diffusivity of materials. It is also noticeable that the effect of the density and specific heat capacity appears clearly at the beginning of the thermal loading on the material. That effect decreases by approaching the steady state as the effect of the heat transfer coefficient of conduction appears. It was also found that both hardboard and polyurethane are the best in thermal insulation. It was also observed that the relationship between heat transfer rate and thickness is inverse-linear.

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A Comparative Numerical Study of Transient Thermal Behaviour of Water-Cooled Metallic Plates

Kumar

Singh

Jain

et al. 2021

Recent Advances in Sustainable Technologies

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An Analytical Solution for Transient Heat Conduction in a Composite Slab with Time-Dependent Heat Transfer Coefficient

Cited by 14 publications

References 27 publications

Theoretical modeling of endovascular drug delivery into a multilayer arterial wall from a drug-coated balloon

Theoretical modeling of endovascular drug delivery into a multilayer arterial wall from a drug-coated balloon

A Numerical Study to Determine the Effect of an Insulator Location on the Transient Heat Transfer

A Comparative Numerical Study of Transient Thermal Behaviour of Water-Cooled Metallic Plates

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