Abstract
LNG (Liquefied Natural Gas) vaporizing stations are usually built in the cities and towns, and the BOG (Boiled Off Gas) pressurizing system is a very important element. In the pressurizing system, the severe vibration of the low-temperature reciprocating compressor may lead to a failure of the pipeline system and the equipment. Therefore, this paper analyzes the stress and pressure pulsation of the BOG compressor piping system in the LNG vaporizing station. The beam model was used to establish the pipe model. The static, harmonic and modal analysis were carried out based on the plane-wave theory and the pressure-fluctuation theory, and the influence factors of support spacing, the settlement of the fulcrum foundation, pipe pressure and elbow angle were analyzed. The main conclusions are as follows: (1) the unbalanced excited force caused by pressure pulsation greatly affects the stress of the exhaust pipe and compressor outlet pipe, and has less influence on the stress of the suction pipe and compressor inlet pipe; (2) although unbalanced excited force is generated in the elbow, it also has an impact on the straight pipe stress; (3) adding an expansion joint to the pipe of the BOG compressor can effectively reduce the stress of the pipe its the displacement, and can increase the flexibility of the pipe.
Highlights
LNG (Liquefied Natural Gas) is a type of cryogenic liquid that cools gaseous natural gas to −162 ◦C under atmospheric pressure
The pressure pulsation produces the exciting force at the elbow, tee or other components, and the exciting force varies with time, which affects the stress of the pipes
The software can meet the accuracy of calculation, and we found that the CAESAR II software is superior in the case of a complicated piping system for its fast calculation speed and easy modeling processes
Summary
LNG (Liquefied Natural Gas) is a type of cryogenic liquid that cools gaseous natural gas to −162 ◦C under atmospheric pressure. Zhang Hongjuan [16] analyzed the vibration causes of the reciprocating pump pipe and proposed the addition of an air chamber to reduce the pressure pulsation. Wang Qiang [18] put forward a structure for a pipeline vibration elimination device, which can reduce the vibration of the pipe and attenuate the pressure pulsation of the fluid. The pressure pulsation produces the exciting force at the elbow, tee or other components, and the exciting force varies with time, which affects the stress of the pipes As it shown, assuming that d represents the inner diameter of the pipe, β stands for the angle of elbow, the inlet and outlet pressures are p, and the resultant force of elbow can be calculated as: Energies 2022, 15, x FOR PEER REVIEW. The software can meet the accuracy of calculation, and we found that the CAESAR II software is superior in the case of a complicated piping system for its fast calculation speed and easy modeling processes
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