Durukan, Ö. Et Al. 2024. Quantitive HAZOP and D-S evidence theory-fault tree analysis approach to predict fire and explosion risk in inert gas system on-board tanker ship. OCEAN ENGINEERING , vol.308 , 118-274.

Durukan, Ö., Akyuz, E., Destanoğlu, O., Arslanoğlu, Y., & Sezer, S. I., (2024). Quantitive HAZOP and D-S evidence theory-fault tree analysis approach to predict fire and explosion risk in inert gas system on-board tanker ship. OCEAN ENGINEERING , vol.308, 118-274.

Durukan, ÖZCAN Et Al. "Quantitive HAZOP and D-S evidence theory-fault tree analysis approach to predict fire and explosion risk in inert gas system on-board tanker ship," OCEAN ENGINEERING , vol.308, 118-274, 2024

Durukan, ÖZCAN Et Al. "Quantitive HAZOP and D-S evidence theory-fault tree analysis approach to predict fire and explosion risk in inert gas system on-board tanker ship." OCEAN ENGINEERING , vol.308, pp.118-274, 2024

Durukan, Ö. Et Al. (2024) . "Quantitive HAZOP and D-S evidence theory-fault tree analysis approach to predict fire and explosion risk in inert gas system on-board tanker ship." OCEAN ENGINEERING , vol.308, pp.118-274.

@article{article, author={ÖZCAN DURUKAN Et Al. }, title={Quantitive HAZOP and D-S evidence theory-fault tree analysis approach to predict fire and explosion risk in inert gas system on-board tanker ship}, journal={OCEAN ENGINEERING}, year=2024, pages={118-274} }