Wszystkie pola: heat conduction coefficient - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Identification of the Thermal Conductivity Coefficient in the Heat Conduction Model with Fractional Derivative
Autorzy:: Brociek, R.
Słota, D.
Powiązania:: https://bibliotekanauki.pl/articles/382791.pdf
Data publikacji:: 2019
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: heat conduction equation
thermal conductivity coefficient
inverse problem
fractional derivative
thermal conductivity
model przewodzenia ciepła
współczynnik przewodzenia ciepła
problem odwrotny
pochodna ułamkowa
przewodność termiczna
Opis:: Main goal of the paper is to present the algorithm serving to solve the heat conduction inverse problem. Authors consider the heat conduction equation with the Riemann-Liouville fractional derivative and with the second and third kind boundary conditions. This type of model with fractional derivative can be used for modelling the heat conduction in porous media. Authors deal with the heat conduction inverse problem, which, in this case, consists in identifying an unknown thermal conductivity coefficient. Measurements of temperature, in selected point of the region, are the input data for investigated inverse problem. Basing on this information, a functional describing the error of approximate solution is created. Minimizing of this functional is necessary to solve the inverse problem. In the presented approach the Ant Colony Optimization (ACO) algorithm is used for minimization.
Źródło:: Archives of Foundry Engineering; 2019, 3; 38-42
1897-3310
2299-2944
Pojawia się w:: Archives of Foundry Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Measurements of absorbed heat flux and water-side heat transfer coefficient in water wall tubes
Autorzy:: Taler, D.
Taler, J.
Kowal, A.
Powiązania:: https://bibliotekanauki.pl/articles/240076.pdf
Data publikacji:: 2011
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: kotło parowe
odwrotne przewodzenie ciepła
strumień ciepła
żużel
heat flux meter
inverse heat conduction problem
slagging
steam boiler
Opis:: The tubular type instrument (flux tube) was developed to identify boundary conditions in water wall tubes of steam boilers. The meter is constructed from a short length of eccentric tube containing four thermocouples on the fire side below the inner and outer surface of the tube. The fifth thermocouple is located at the rear of the tube on the casing side of the water-wall tube. The boundary conditions on the outer and inner surfaces of the water flux-tube are determined based on temperature measurements at the interior locations. Four K-type sheathed thermocouples of 1 mm in diameter, are inserted into holes, which are parallel to the tube axis. The non-linear least squares problem is solved numerically using the Levenberg-Marquardt method. The heat transfer conditions in adjacent boiler tubes have no impact on the temperature distribution in the flux tubes.
Źródło:: Archives of Thermodynamics; 2011, 32, 1; 77-88
1231-0956
2083-6023
Pojawia się w:: Archives of Thermodynamics
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: Determination of temperature and thermal stresses distribution in power boiler elements with use inverse heat conduction method
Autorzy:: Grądziel, S.
Powiązania:: https://bibliotekanauki.pl/articles/240169.pdf
Data publikacji:: 2011
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: metoda inwersji
propagacja nacisków
szybkozmienna temperatura
współczynnik przenikania ciepła
heat transfer coefficient
inverse method
stress distribution
transient temperature
Opis:: The following paper presents the method for solving one-dimensional inverse boundary heat conduction problems. The method is used to estimate the unknown thermal boundary condition on inner surface of a thick-walled Y-branch. Solution is based on measured temperature transients at two points inside the element's wall thickness. Y-branch is installed in a fresh steam pipeline in a power plant in Poland. Determination of an unknown boundary condition allows for the calculation of transient temperature distribution in the whole element. Next, stresses caused by non-uniform transient temperature distribution and by steam pressure inside a Y-branch are calculated using the finite element method. The proposed algorithm can be used for thermal-strength state monitoring in similar elements, when it is not possible to determine a 3-D thermal boundary condition. The calculated temperature and stress transients can be used for the calculation of element durability. More accurate temperature and stress monitoring will contribute to a substantial decrease of maximal stresses that occur during transient start-up and shut-down processes.
Źródło:: Archives of Thermodynamics; 2011, 32, 3; 191-200
1231-0956
2083-6023
Pojawia się w:: Archives of Thermodynamics
Dostawca treści:: Biblioteka Nauki

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