CNPq [Grant No. 302983/2018-0]

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CNPq [Grant No. 302983/2018-0]

Authors

Publications

Temperature profile and thermal piston component of photoacoustic response calculated by the fractional dual-phase-lag heat conduction theory

Somer, Aloisi; Galović, Slobodanka; Lenzi, Ervin Kaminski; Novatski, Andressa; Đorđević, Katarina Lj.

(2023) 

TY  - JOUR
AU  - Somer, Aloisi
AU  - Galović, Slobodanka
AU  - Lenzi, Ervin Kaminski
AU  - Novatski, Andressa
AU  - Đorđević, Katarina Lj.
PY  - 2023
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/10560
AB  - We present the temperature distribution predictions for photothermal systems by considering an extension of dual-phase lag. It is an extension of the GCE-II and GCE-III models with a fractional dual-phase lag from kinetic relaxation time. Solving the one-dimensional problem considering a planar and periodic excitation, we obtained the temperature distribution and the Photoacoustic (PA) signal for the transmission setup. We also analyze the effects of fractional order derivatives and kinetic relaxation time. It is shown that the derived models have promising results that could be used to explain the experimentally observed behavior of PA signals measured on thin films with an inhomogeneous internal structure.
T2  - International Journal of Heat and Mass Transfer
T1  - Temperature profile and thermal piston component of photoacoustic response calculated by the fractional dual-phase-lag heat conduction theory
VL  - 203
SP  - 123801
DO  - 10.1016/j.ijheatmasstransfer.2022.123801
ER  - 
@article{
author = "Somer, Aloisi and Galović, Slobodanka and Lenzi, Ervin Kaminski and Novatski, Andressa and Đorđević, Katarina Lj.",
year = "2023",
abstract = "We present the temperature distribution predictions for photothermal systems by considering an extension of dual-phase lag. It is an extension of the GCE-II and GCE-III models with a fractional dual-phase lag from kinetic relaxation time. Solving the one-dimensional problem considering a planar and periodic excitation, we obtained the temperature distribution and the Photoacoustic (PA) signal for the transmission setup. We also analyze the effects of fractional order derivatives and kinetic relaxation time. It is shown that the derived models have promising results that could be used to explain the experimentally observed behavior of PA signals measured on thin films with an inhomogeneous internal structure.",
journal = "International Journal of Heat and Mass Transfer",
title = "Temperature profile and thermal piston component of photoacoustic response calculated by the fractional dual-phase-lag heat conduction theory",
volume = "203",
pages = "123801",
doi = "10.1016/j.ijheatmasstransfer.2022.123801"
}
Somer, A., Galović, S., Lenzi, E. K., Novatski, A.,& Đorđević, K. Lj.. (2023). Temperature profile and thermal piston component of photoacoustic response calculated by the fractional dual-phase-lag heat conduction theory. in International Journal of Heat and Mass Transfer, 203, 123801.
https://doi.org/10.1016/j.ijheatmasstransfer.2022.123801
Somer A, Galović S, Lenzi EK, Novatski A, Đorđević KL. Temperature profile and thermal piston component of photoacoustic response calculated by the fractional dual-phase-lag heat conduction theory. in International Journal of Heat and Mass Transfer. 2023;203:123801.
doi:10.1016/j.ijheatmasstransfer.2022.123801 .
Somer, Aloisi, Galović, Slobodanka, Lenzi, Ervin Kaminski, Novatski, Andressa, Đorđević, Katarina Lj., "Temperature profile and thermal piston component of photoacoustic response calculated by the fractional dual-phase-lag heat conduction theory" in International Journal of Heat and Mass Transfer, 203 (2023):123801,
https://doi.org/10.1016/j.ijheatmasstransfer.2022.123801 . .
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