A Study on the Numerical Analysis of Main Valve for Emergency Escape Using Marine Craft CO2 System

Jae Hoon Lee; Si Pom Kim; Rock Won Jeon; Hyeok Woo Oh; Dong Ho Kang

doi:10.4028/www.scientific.net/AMM.727-728.572

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 727-728A Study on the Numerical Analysis of Main Valve...

A Study on the Numerical Analysis of Main Valve for Emergency Escape Using Marine Craft CO₂ System

Abstract:

Recently, there have been growing concerns on ships, one of the means to transport plant facilities, as studies on developing large scale plant facilities have been carried out. Particularly, carbon dioxide system, one of the fire safety systems, is mainly used as the fire safety facility of ships, and main valves are employed for supplying carbon dioxide. However, studies on main valves used in ships are yet to be carried out more. Especially, when carbon dioxide is sprayed as a main function of main valves at lower pressure than required, firefighting is put into difficulty. Accordingly, to solve such problem, this study observed internal pressure change using flow analysis of the main valve, then conducted fluid-structure interaction analysis based on its result, and finally investigated disk’s opening and closure and the structural safety and characteristics depending on valve’s inlet and outlet diameters.

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Periodical:

Applied Mechanics and Materials (Volumes 727-728)

Pages:

572-577

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.727-728.572

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Online since:

January 2015

Authors:

Jae Hoon Lee, Si Pom Kim*, Rock Won Jeon, Hyeok Woo Oh, Dong Ho Kang

Keywords:

Carbon Dioxide System for Ships, Fluid-Structure Analysis, Main Valve, Structural Safety

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* - Corresponding Author

References

[1] Dong-Wook Heang, Sung-Jin Kim, Jun-Ho Bae, Sung-Yuen Jung, Chul Kim, Structural Capability Evaluation of the Conventional and Pilot Type Valves for LNG/LNG-FPSO Ships, KSPE. 29 (2012) 1331-1339.

DOI: 10.7736/kspe.2012.29.12.1331

Google Scholar

[2] Ki-Hwa Bae, Jea-Hyoun Park, Sang-Mo Kang, A Study on the Flow Characteristics inside a Glove Valve for Ships, KOSME. 32 (2008) 110-118.

Google Scholar

[3] Sang-Won Park, Sang-Woo Lee, Three Dimensional Flow Characteristics in the Downstream Region of a Butterfly Type Valve Used in Air Conditioning Systems, KSME. 24 (2000) 260-269.

Google Scholar

[4] Ki-Chel Sin, Development of Domestic Hydraulic Machinery Industry and Construction Machine, IKSFC. 21 (2004) 20-25.

Google Scholar

[5] Jae-Hwa Chung, A Numerical Analysis of Reverse Cleaning Flow Characteristics in a Porous Ceramic Filter System, KSME. 1 (1998) 723-728.

Google Scholar

[6] Kwang-Hyun Bang, Kyung-Kyu, Young-A Song, Pyung-Su Kim, Numerical Analysis of Fluid Flow and Filtering Efficiency in Centrifugal Oil Filter, KOSME. 6 (2008) 65-66.

Google Scholar