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INVESTIGATION OF THE EFFECTS OF PIPE WALL ROUGHNESS AND PIPE DIAMETER ON THE DECOMPRESSION WAVE SPEED IN NATURAL GAS PIPELINES

机译：天然气管道中管壁粗糙度和管径对减压波速度影响的研究

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The shock tube experimental results have shown clearly that the decompression wave was slowed down in a pipe with a rough inner surface relative to that in a smooth pipe under comparable conditions. In the present paper a one-dimensional dynamic simulation model, named EPDECOM, was developed to investigate the effects of pipe wall roughness and pipe diameter on the decompression wave speed. Comparison with experimental results showed that the inclusion of frictional effects led to a better prediction than that of the widely used model implemented in GASDECOM. EPDECOM simulation results showed that the effect of roughness on the decompression wave speed is significant for pipe diameters less than 250 mm. However the decompression wave speed is nearly independent of the roughness for diameters above 250 mm as the frictional effect becomes negligible at such diameters.

机译：减震管的实验结果清楚地表明，在可比的条件下，内表面粗糙的管道中的减压波要比光滑管道中的减压波要慢。本文建立了一个名为EPDECOM的一维动态仿真模型，以研究管壁粗糙度和管径对减压波速的影响。与实验结果的比较表明，与在GASDECOM中广泛使用的模型相比，包含摩擦效果可以带来更好的预测。 EPDECOM仿真结果表明，对于直径小于250 mm的管道，粗糙度对减压波速度的影响非常显着。但是，对于大于250 mm的直径，减压波速几乎与粗糙度无关，因为在这种直径下摩擦效果可以忽略不计。

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《International pipeline conference》|2013年|315-322|共8页
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C. Lu; G. Michal; A. Elshahomi; A. Godbole; P. Venton; K. K. Botros; L. Fletcher; B. Rothwell;
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1. Extension of the semi-empirical correlation for the effects of pipe diameter and internal surface roughness on the decompression wave speed to include High Heating Value Processed Gas mixtures [J] . K. K. Botros, L. Carlson, M. Reed International Journal of Pressure Vessels and Piping . 2013,第Null期

机译：将半经验相关性扩展到管直径和内表面粗糙度对减压波速的影响，以包括高热值处理气体混合物
2. Experimental Investigation Into the Relationship Between the Roughness Height in Use With Nikuradse or Colebrook Roughness Functions and the Internal Wall Roughness Profile for Commercial Steel Pipes [J] . Botros K. K. Journal of Fluids Engineering: Transactions of the ASME . 2016,第8期

机译：关于使用尼古拉德或科尔布鲁克粗糙度函数的粗糙度高度与商用钢管内壁粗糙度轮廓之间关系的实验研究
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机译：管壁粗糙度和管道直径对天然气管道减压波速影响的研究
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机译：管壁粗糙度和管径对天然气管道减压波速度的影响研究
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INVESTIGATION OF THE EFFECTS OF PIPE WALL ROUGHNESS AND PIPE DIAMETER ON THE DECOMPRESSION WAVE SPEED IN NATURAL GAS PIPELINES

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