Estimation of Surface Temperature and Heat Flux Using Inverse Solution for One-Dimensional Heat Conduction

Monde, Masanori; Arima, Hirofumi; Mitsutake, Yuichi

doi:10.1115/1.1560147

Cited by 46 publications

(17 citation statements)

References 16 publications

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“…For one-dimensional conditions, if the temperatures at two points inside the heated block are measured, surface heat flux and temperature can be estimated from the recent solution by Monde et al [8,9], in which surface temperature and heat flux are obtained with The approximation function for measured temperature (Eq. (1)) is expressed in a half polynomial series with time.…”

Section: Estimation Of Surface Temperature and Heat Fluxmentioning

confidence: 99%

“…Temperatures at two points, which are positioned at about 2 mm and 5 mm from the boiling surface, are measured with a 1 mm ground sheathed thermocouple. The two measured temperatures are used in the estimation of surface temperature and heat flux by a one-dimensional inverse heat conduction solution [8,9]. In this paper, the purpose of using gold as a test material is to minimize the fowling effect.…”

Section: Experimental Facilitiesmentioning

confidence: 99%

“…A method to estimate surface temperature and heat flux, i.e., a solution to a one-dimensional inverse heat conductivity problem, has been developed with great success by Monde et al [8,9] recently. In this paper, the method is used for the estimation of surface temperature and heat flux to obtain boiling curves, especially the transition boiling curve.…”

Section: Introductionmentioning

confidence: 99%

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Characteristics of boiling curve in transition region between nucleate boiling and film boiling

Monde

Liu²,

Mitsutake

et al. 2005

Heat Trans. Asian Res.

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An experimental study has been carried out for estimating surface temperature and heat flux during both a transient heating process from nucleate boiling to film boiling and a cooling process in the reverse direction. Experiments were at atmospheric pressure, and calculations used a newly developed inverse solution. Three different materials, gold, copper, and brass, were employed to make clear the effect of thermal properties on the boiling curves in the transient region including the maximum and minimum heat fluxes. It was determined that the histories of surface temperature and heat flux for the transition boiling region during either heating or cooling process can be tracked well. The experiment shows that hysteresis exists in the heating and cooling processes for the transition region while no hysteresis exists in the nucleate boiling region, except that the maximum heat fluxes reached during the heating and cooling processes are much different. It was found that the characteristics for the heating process are minimally influenced by thermal properties, while characteristics of the cooling process are greatly affected.

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Section: Estimation Of Surface Temperature and Heat Fluxmentioning

confidence: 99%

Section: Experimental Facilitiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characteristics of boiling curve in transition region between nucleate boiling and film boiling

Monde

Liu²,

Mitsutake

et al. 2005

Heat Trans. Asian Res.

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“…A considerable number of research studies (Burggraf, 1964;Sparrow et al, 1964;Imber, 1974;Shoji, 1978;Monde, 2003aMonde, , 2003bWoodfield, 2006aWoodfield, , 2006b) have adopted analytical approaches for solving the IHCPs. Although limited to fairly simple geometry, explicit analytical solutions to IHCP have been derived and are very fast computational.…”

Section: Inverse Heat Conduction Problem (Ihcp)mentioning

confidence: 99%

Measurement of Boundary Conditions - Surface Heat Flux and Surface Temperature

Liu¹

2011

Convection and Conduction Heat Transfer

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“…In several papers, Monde et al [8], [9], [10], [11] develop analytical methods based on the Laplace transform to obtain a closed form solution for transient temperatures throughout a body using temperature measurements from two locations, estimate thermal diffusivity and conductivity. Woodfield improved these techniques to handle less smooth temperature changes.…”

Section: Introductionmentioning

confidence: 99%

Multisensor methods to estimate thermal diffusivity

Henderson

Knight

Grant

2012

2012 IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems (MFI)

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Abstract-Several methods for the estimation of thermal diffusivity are studied in this work. In many application scenarios, the thermal diffusivity is unknown and must be estimated in order to perform other estimation functions (e.g., tracking of the physical phenomenon, or solving other inverse problems like localization or sensor variance, etc.). In particular, we describe:1) The use of minimization methods (the Golden Mean and Lagarias' simplex) to determine the thermal diffusivity coefficient which when used in a forward heat flow simulation results in the least (vector) distance between the sampled data and the simulated data.2) The Maximum Likelihood Estimate for thermal diffusivity.3) The Extended Kalman Filter to recover the thermal diffusivity. We apply these methods to the determination of thermal diffusivity in snow.

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Estimation of Surface Temperature and Heat Flux Using Inverse Solution for One-Dimensional Heat Conduction

Cited by 46 publications

References 16 publications

Characteristics of boiling curve in transition region between nucleate boiling and film boiling

Characteristics of boiling curve in transition region between nucleate boiling and film boiling

Measurement of Boundary Conditions - Surface Heat Flux and Surface Temperature

Multisensor methods to estimate thermal diffusivity

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