Naval Standard Safety Valve Design Using CAD Solutions-Reference-Cited by-同舟云学术

Naval Standard Safety Valve Design Using CAD Solutions

Published:2014-10 Issue: Volume:658 Page:65-70
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Dumitrache Constantin¹,Calimanescu Ioan¹,Comandar Corneliu²

Affiliation:

1. Maritime University of Constanta

2. Technical University “Gheorghe Asachi”

Abstract

Apressure relief valveis a safety device designed to protect a pressurized vessel or system during an over-pressure event. An overpressure event refers to any condition which would cause pressure in a vessel or system to increase beyond the specified design pressure or maximum allowable working pressure. Many electronic, pneumatic and hydraulic systems exist today to control fluid system variables, such as pressure, temperature and flow. Each of these systems requires a power source of some type, such as electricity or compressed air in order to operate. A pressure relief valve must be capable of operating at all times, especially during a period of power failure when system controls are nonfunctional. The sole source of power for the pressure relief valve, therefore, is the process fluid.

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.658.65.pdf

Reference10 articles.

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2. Sallet D. W., Somers G. W., Flow Capacity and Response of Safety Relief Valves to Saturated Water Flow, Plant/Operations Progress, Volume 4 Issue 4, 1985, 207 – 216.

3. Tadashi Narabayashi, Hideo Nagasaka, Masao Niwano, Yoshiteru Ohtsuki, Safety Relief Valve Performance for Two-phase Flow, Journal of nuclear science and technology, Vol. 23 , No. 3, March 1986, 197-213.

4. Asok Ray, Dynamic modeling and simulation of a relief valve, SIMULATION, Vol. 31, No. 5, 1978, 167-172.

5. L. Catalani, Dynamic Stability Analysis of Spring Loaded Safety Valves - Elements for Improved Valve Performance through Assistance Device, 7th International Conference on Structural Mechanics in Reactor Technology, DIVISION G: LWR PRESSURE COMPONENTS – VESSEL, Chicago, IL, USA, August 22-26, (1983).

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