Experimental and numerical analysis of a walls made from aerated concrete blocks exposed to fire
Аутори
Mirković-Marjanović, MilicaKijanović, Aleksandar
Ilić, Snežana
Todorović, Goran
Gospavić, Radovan
Конференцијски прилог (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
ABSTRACT
In this paper solution of a non-stationary one dimensional (1D) heat conduction problem has been presented. The finite difference method, i.e. by applying energy balance has been used. The finite difference method has been applied and the partial differential equation of heat conduction has been reduced to an algebraic form. This procedure is also called discretization problem. By solving the system of algebraic equations, temperatures at discrete points - network nodes were obtained. Additional discretization was performed in non-stationary processes over time. Numerical 1D non- stationary calculation was performed on six walls of different thickness made of aerated concrete 50 mm, 75 mm, 100 mm, 120 mm, 150 mm and 250 mm thick are exposed to the developed fire. The developed fire represents the logarithmic dependence of the temperature as a function of time according to the standard SRPS EN 834-1. The period of wall heating was analyzed, i.e. period until the moment when th...e temperature rise is observed on the non-exposed side of the wall. The paper compares the achieved experimental results with the obtained numerical results.
Кључне речи:
numerical one-dimensional (1D) non-stationary calculation / fire condition / autoclaved aerated concrete / thermal behavior / different thicknesses of a wallИзвор:
Proceedings of the 19 th international symposium of MASE, April 2022., 2022, 583-590Финансирање / пројекти:
- nfo:eu-repo/grantAgreement/MESTD/inst-2020/200012/RS//
Колекције
Институција/група
GraFarTY - CONF AU - Mirković-Marjanović, Milica AU - Kijanović, Aleksandar AU - Ilić, Snežana AU - Todorović, Goran AU - Gospavić, Radovan PY - 2022 UR - https://grafar.grf.bg.ac.rs/handle/123456789/3055 AB - ABSTRACT In this paper solution of a non-stationary one dimensional (1D) heat conduction problem has been presented. The finite difference method, i.e. by applying energy balance has been used. The finite difference method has been applied and the partial differential equation of heat conduction has been reduced to an algebraic form. This procedure is also called discretization problem. By solving the system of algebraic equations, temperatures at discrete points - network nodes were obtained. Additional discretization was performed in non-stationary processes over time. Numerical 1D non- stationary calculation was performed on six walls of different thickness made of aerated concrete 50 mm, 75 mm, 100 mm, 120 mm, 150 mm and 250 mm thick are exposed to the developed fire. The developed fire represents the logarithmic dependence of the temperature as a function of time according to the standard SRPS EN 834-1. The period of wall heating was analyzed, i.e. period until the moment when the temperature rise is observed on the non-exposed side of the wall. The paper compares the achieved experimental results with the obtained numerical results. C3 - Proceedings of the 19 th international symposium of MASE, April 2022. T1 - Experimental and numerical analysis of a walls made from aerated concrete blocks exposed to fire EP - 590 SP - 583 UR - https://hdl.handle.net/21.15107/rcub_grafar_3055 ER -
@conference{ author = "Mirković-Marjanović, Milica and Kijanović, Aleksandar and Ilić, Snežana and Todorović, Goran and Gospavić, Radovan", year = "2022", abstract = "ABSTRACT In this paper solution of a non-stationary one dimensional (1D) heat conduction problem has been presented. The finite difference method, i.e. by applying energy balance has been used. The finite difference method has been applied and the partial differential equation of heat conduction has been reduced to an algebraic form. This procedure is also called discretization problem. By solving the system of algebraic equations, temperatures at discrete points - network nodes were obtained. Additional discretization was performed in non-stationary processes over time. Numerical 1D non- stationary calculation was performed on six walls of different thickness made of aerated concrete 50 mm, 75 mm, 100 mm, 120 mm, 150 mm and 250 mm thick are exposed to the developed fire. The developed fire represents the logarithmic dependence of the temperature as a function of time according to the standard SRPS EN 834-1. The period of wall heating was analyzed, i.e. period until the moment when the temperature rise is observed on the non-exposed side of the wall. The paper compares the achieved experimental results with the obtained numerical results.", journal = "Proceedings of the 19 th international symposium of MASE, April 2022.", title = "Experimental and numerical analysis of a walls made from aerated concrete blocks exposed to fire", pages = "590-583", url = "https://hdl.handle.net/21.15107/rcub_grafar_3055" }
Mirković-Marjanović, M., Kijanović, A., Ilić, S., Todorović, G.,& Gospavić, R.. (2022). Experimental and numerical analysis of a walls made from aerated concrete blocks exposed to fire. in Proceedings of the 19 th international symposium of MASE, April 2022., 583-590. https://hdl.handle.net/21.15107/rcub_grafar_3055
Mirković-Marjanović M, Kijanović A, Ilić S, Todorović G, Gospavić R. Experimental and numerical analysis of a walls made from aerated concrete blocks exposed to fire. in Proceedings of the 19 th international symposium of MASE, April 2022.. 2022;:583-590. https://hdl.handle.net/21.15107/rcub_grafar_3055 .
Mirković-Marjanović, Milica, Kijanović, Aleksandar, Ilić, Snežana, Todorović, Goran, Gospavić, Radovan, "Experimental and numerical analysis of a walls made from aerated concrete blocks exposed to fire" in Proceedings of the 19 th international symposium of MASE, April 2022. (2022):583-590, https://hdl.handle.net/21.15107/rcub_grafar_3055 .