Simulation and Experimental Research for Piping Damper with Plunger-type Accumulator

Simulation and Experimental Research for Piping Damper with Plunger-type Accumulator

It can be beneficial to reduce vibrations in shipboard piping, so the authors designed a new kind of piping damper with a plunger-type accumulator. Special requirements for the piping damper included low impact displacement, low speed, as well as an appropriate locking speed. Inside the damper, a pl...

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Bibliographic Details
Published in:Journal of marine science and application Vol. 9; no. 3; pp. 274 - 279
Main Authors: Luo, Xiao-hui, Hu, Jun-hua, Wang, Xiao-bin, Niu, Zi-hua
Format: Journal Article
Language:English
Published: Heidelberg Harbin Engineering University 01-09-2010
Subjects:
Electrical Machines and Networks
Engineering
Geotechnical Engineering & Applied Earth Sciences
Machinery and Machine Elements
Offshore Engineering
Power Electronics
Research Papers
减振器
弹簧刚度
柱塞式
活塞式蓄能器
管道振动
间隙密封
low speed resistance
plunger-type accumulator
impact displacement
piping damper
locking speed
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Summary:It can be beneficial to reduce vibrations in shipboard piping, so the authors designed a new kind of piping damper with a plunger-type accumulator. Special requirements for the piping damper included low impact displacement, low speed, as well as an appropriate locking speed. Inside the damper, a plunger-type accumulator was installed and on the outside of the piston rod, a tube with exposed corrugations was added. Between the piston and the cylinder, a clearance seal was added. Using mathematical modeling, the effects of the dynamic performance of the damper's impact displacement on vibrations were observed. Changes to the clearance between the piston and the cylinder, the stiffness of the spring in the accumulator, the throttle valve size, and locking speed resistance of the damper were respectively simulated and studied. Based on the results of the simulation, dampers with optimal parameters were developed and tested with different accumulator spring stiffnesses and different throttles. The simulation and experimental results showed that parameters such as seal clearance between piston and cylinder, accumulator spring stiffness and throttle parameters have significant effects on the damper's impact displacement, low speed resistance and locking speed.
Bibliography:TH137
low speed resistance
piping damper
plunger-type accumulator; piping damper; impact displacement; low speed resistance; locking sneed
locking sneed
plunger-type accumulator
23-1505/T
TQ051.21
impact displacement
ISSN:1671-9433
1993-5048
DOI:10.1007/s11804-010-1007-4