Abstract
The contribution deals with quantification of natural gas leak from a domestic low pressure pipe to a confined space in relation to formation of explosive concentration. Within the experiments, amount of leak gas was determined considering the character of pipe damage. Leakage coefficients, natural gas expansion and time before reaching the lower explosive limit of a gas-air mixture were taken. Conducted experiments were then modelled using CFD software and the results were verified. In numerical model, several models of flow were used and afterwards following issues were analysed: leakage velocity, spatial distribution of the mixture in a confined space, formation of concentration at the lower explosive limit etc. This work should contribute to better understanding of propagation and distribution of gaseous fuel mixtures in confined spaces and thereby significantly reduce the risk of fires or explosions or prevent them.
Highlights
Mathematical modelling of fires and explosions is ranked among quickly developing branches of computational fluid dynamics
Satisfactory results can be obtained through numerical modelling of fluid dynamics
ANSYS Fluent software used for simulations in this contribution belongs to such products
Summary
Mathematical modelling of fires and explosions is ranked among quickly developing branches of computational fluid dynamics. It is related mainly to development of theories linked to combustion, numerical methods for solution of governing equations systems and progress of computer technologies. Validation of obtained results using suitable physical model is integral part of modelling. Satisfactory results can be obtained through numerical modelling of fluid dynamics. Number of specialized software for simulation of these effects exists. Besides these products, very sophisticated programs for advanced simulations of flow can be used that are able to solve the processes associated with chemical reactions and heat transfer. ANSYS Fluent software used for simulations in this contribution belongs to such products
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