Liquefied natural gas (LNG) is a viable, environmental-friendly alternative marine fuel. Several LNG-fueled vessels are already operating, and the LNG market is expected to grow further in the next years. A capillary marine LNG infrastructure network is developing to strengthen the fuel supply chain, which includes smallscale LNG storage and bunkering installations. However, safety remains a crucial aspect for the expansion of sustainable and reliable LNG technologies due to flammability hazards of natural gas. Storage tanks are vulnerable units from a safety point of view: External fires might affect LNG tanks leading to their catastrophic failure with a possibility of accident escalation. The present contribution aims at the evaluation of thermal response of storage tanks exposed to high levels of thermal radiation from distant sources, such as a pool fires generated after the ignition of LNG spills. A two-dimension computational fluid dynamic (CFD) approach is applied to predict tank pressurization rate and temperature distribution for a set of case studies. The results obtained give insight about the dynamic response of pressurized cryogenic vessels involved in process accidents, providing a useful contribution to emergency response planning as well as identifying important safety aspects regarding LNG storage and distribution chain.
Iannaccone T., Scarponi G.E., Landucci G., Cozzani V. (2020). LNG Tanks exposed to distant pool fires: A cfd study. CHEMICAL ENGINEERING TRANSACTIONS, 82, 373-378 [10.3303/CET2082063].
LNG Tanks exposed to distant pool fires: A cfd study
Iannaccone T.Primo
;Scarponi G. E.;Landucci G.;Cozzani V.
2020
Abstract
Liquefied natural gas (LNG) is a viable, environmental-friendly alternative marine fuel. Several LNG-fueled vessels are already operating, and the LNG market is expected to grow further in the next years. A capillary marine LNG infrastructure network is developing to strengthen the fuel supply chain, which includes smallscale LNG storage and bunkering installations. However, safety remains a crucial aspect for the expansion of sustainable and reliable LNG technologies due to flammability hazards of natural gas. Storage tanks are vulnerable units from a safety point of view: External fires might affect LNG tanks leading to their catastrophic failure with a possibility of accident escalation. The present contribution aims at the evaluation of thermal response of storage tanks exposed to high levels of thermal radiation from distant sources, such as a pool fires generated after the ignition of LNG spills. A two-dimension computational fluid dynamic (CFD) approach is applied to predict tank pressurization rate and temperature distribution for a set of case studies. The results obtained give insight about the dynamic response of pressurized cryogenic vessels involved in process accidents, providing a useful contribution to emergency response planning as well as identifying important safety aspects regarding LNG storage and distribution chain.File | Dimensione | Formato | |
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