Detail publikace
Modelování následků úniku bioplynu z plynojemu
TRÁVNÍČEK, P. KOTEK, L. JUNGA, P.
Český název
Modelování následků úniku bioplynu z plynojemu
Anglický název
Modelling of consequences of biogas leakage from gasholder
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
This paper describes modelling of consequences of biogas leakage from a gasholder on agricultural biogas station. Four scenarios were selected for the purpose of this work. A rupture of gasholders membrane and instantaneous explosion of gas cloud, blast of gas with delay, emptying of whole volume of gas (without initiation) and initiation of gas with Jet-Fire. Leakage of gas is modelled by special software and consequences are determined on the basis of results. The first scenario was modelled with help of equations because used software does not include an appropriate model. A farm with high building density was chosen as a model case. Biogas is replaced by methane because used software does not support modelling of dispersion of mixtures. From this viewpoint, a conservative approach is applied because biogas contains “only” approximately 60% of methane (in dependence on technology and processed material).
Český abstrakt
Tento příspěvek popisuje modelování následků úniku bioplynu ze zásobníku na zemědělské bioplynové stanici. Pro účely této práce byly vybrány čtyři scénáře. Porušení membrány plynojemu a okamžitý výbuch plynového mraku, výbuch plynu se zpožděním, vyprázdnění celého objemu plynu (bez iniciace) a únik plynu s iniciací Jet-Fire. Únik plynu je modelován softwarem a důsledky jsou stanoveny na základě výsledků. První scénář byl modelován pomocí rovnic, protože použitý software neobsahuje vhodný model.
Anglický abstrakt
This paper describes modelling of consequences of biogas leakage from a gasholder on agricultural biogas station. Four scenarios were selected for the purpose of this work. A rupture of gasholders membrane and instantaneous explosion of gas cloud, blast of gas with delay, emptying of whole volume of gas (without initiation) and initiation of gas with Jet-Fire. Leakage of gas is modelled by special software and consequences are determined on the basis of results. The first scenario was modelled with help of equations because used software does not include an appropriate model. A farm with high building density was chosen as a model case. Biogas is replaced by methane because used software does not support modelling of dispersion of mixtures. From this viewpoint, a conservative approach is applied because biogas contains “only” approximately 60% of methane (in dependence on technology and processed material).
Klíčová slova česky
Nehoda; biplyn, stanice
Klíčová slova anglicky
Accident; Agriculture; Biogas; Station
Vydáno
01.01.2017
Nakladatel
University of Zagreb - Faculty of Agriculture
Místo
Zagreb
ISSN
1332-9049
Ročník
18
Číslo
1
Strany od–do
15–28
Počet stran
14
BIBTEX
@article{BUT136320,
author="Petr {Trávníček} and Luboš {Kotek} and Petr {Junga},
title="Modelling of consequences of biogas leakage from gasholder",
year="2017",
volume="18",
number="1",
month="January",
pages="15--28",
publisher="University of Zagreb - Faculty of Agriculture",
address="Zagreb",
issn="1332-9049"
}