Detail publikačního výsledku

COMPUTATIONAL DOMAIN OPTIMIZATION FOR NUMERICAL MODELING OF ENERGY PILES

ORAVEC, J.; ŠIKULA, O.

Originální název

COMPUTATIONAL DOMAIN OPTIMIZATION FOR NUMERICAL MODELING OF ENERGY PILES

Anglický název

COMPUTATIONAL DOMAIN OPTIMIZATION FOR NUMERICAL MODELING OF ENERGY PILES

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

One of the most efficient sources for the use of geothermal energy are thermally activated piles - energy piles. Generally, the thermal processes in the energypile can be modeled using numerical or analytical methods. In numerical modeling, there is a problem to determine the boundary of the computational domain for the pilot, which is infinitely surrounded by earth. This paper deals with the optimization of the computational domain size of thermally activated piles using the analytical model - Finite line source model. Using our own computational program, the distribution of the temperature field around the pile is obtained and on this basis the width and height of the computational domain is optimized. The aim is to determine these dimensions so that we achieve sufficient accuracy of the solution and at the same time low computational cost in numerical calculation. Parameters were determined by simulations on which size of the computational domain is dependant - diameter and length of energypile, overall computational time and value of percentage of activation temperature.

Anglický abstrakt

One of the most efficient sources for the use of geothermal energy are thermally activated piles - energy piles. Generally, the thermal processes in the energypile can be modeled using numerical or analytical methods. In numerical modeling, there is a problem to determine the boundary of the computational domain for the pilot, which is infinitely surrounded by earth. This paper deals with the optimization of the computational domain size of thermally activated piles using the analytical model - Finite line source model. Using our own computational program, the distribution of the temperature field around the pile is obtained and on this basis the width and height of the computational domain is optimized. The aim is to determine these dimensions so that we achieve sufficient accuracy of the solution and at the same time low computational cost in numerical calculation. Parameters were determined by simulations on which size of the computational domain is dependant - diameter and length of energypile, overall computational time and value of percentage of activation temperature.

Klíčová slova

Energy pile, Finite line source model, computational domain, temperature response

Klíčová slova v angličtině

Energy pile, Finite line source model, computational domain, temperature response

Autoři

ORAVEC, J.; ŠIKULA, O.

Rok RIV

2021

Vydáno

23.01.2020

ISBN

978-80-86433-73-8

Kniha

JUNIORSTAV 2020 - Sborník příspěvků

Strany od

836

Strany do

841

Strany počet

6

BibTex

@inproceedings{BUT161650,
  author="Jakub {Oravec} and Ondřej {Šikula}",
  title="COMPUTATIONAL DOMAIN OPTIMIZATION FOR NUMERICAL MODELING OF ENERGY PILES",
  booktitle="JUNIORSTAV 2020 - Sborník příspěvků",
  year="2020",
  pages="836--841",
  isbn="978-80-86433-73-8"
}