A procedure for designing hydraulic safety valves with shear pins for petroleum industry assemblies

Ibragimov, É. S.; Gazarov, R. K.

doi:10.1007/bf01150351

Cited by 1 publication

(1 citation statement)

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“…In mechanical systems, shear pins are widely used for the fail-safe mechanism. For example, shear pins are installed on gear trains, aircraft mounting engines, 4 valves, 5 couplings, 6 and flocculators. 7 The most challenging problem in analyzing shear pins is the requirement to simultaneously fulfill two constraints in their design.…”

Section: Introductionmentioning

confidence: 99%

Fail-safe design and analysis for the guide vane of a hydro turbine

Budiman

Suharto

Djodikusumo

et al. 2016

Advances in Mechanical Engineering

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A design for the fail-safe mechanism of a guide vane in a Francis-type hydro turbine is proposed and analyzed. The mechanism that is based on a shear pin as a sacrificial component was designed to remain simple. Unlike the requirements of conventional designs, a shear pin must be able to withstand static and dynamic loads but must fail under a certain overload that could damage a guide vane. An accurate load determination and selection of the shear pin material were demonstrated. The static load for various opening angles of the guide vane were calculated using the computational fluid dynamics Fluent and finite element method Ansys programs. Furthermore, simulations for overload and dynamic load due to the waterhammer phenomenon were also conducted. The results of load calculations were used to select an appropriate shear pin material. Quasi-static shear tests were performed for two shear pins of aluminum alloy Al2024 subjected to different aging treatments (i.e. artificial and natural aging). The test results indicated that the Al2024 treated by natural aging is an appropriate material for a shear pin designed to function as a fail-safe mechanism for the guide vanes of a Francis-type hydro turbine.

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Section: Introductionmentioning

confidence: 99%