Study on the temperature drop process of the buried hot oil pipeline during shutdown

L. Gang, Z. Guozhong, Zhang Yuanyuan
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引用次数: 8

Abstract

The insulation layer thermal resistance and the soil characteristics around influence the characteristics of the temperature drop of waxy oil pipeline during shutdown. The temperature drop process of crude in the pipeline is a unsteady heat transfer problem with a moving phase interface while the wax precipitation, the properties of the crude depend on the temperature. The temperature drop process of the buried hot oil pipeline is simulated, it show that, for buried pipelines, the oil detemperature rate is slow down obviously because of the extending of the zone influenced by temperature drop with the shutdown time going, and the initial oil temperature has no effect on the size of the zone influenced by the temperature drop if the soil properties are well-proportioned. In addition, decreasing the soil rectangle solving area properly can reduce the amount of calculation while ensuring the results exactitude. The oil temperature profile in the pipe during shutdown process was studied. And with the shutdown time goes by, high temperature area which lie upper inside the pipe as the result of natural convection after shutdown would move adown gradually to the lower part inside pipe for buried pipeline.
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埋地热油管道停运降温过程研究
保温层的热阻和周围的土壤特性影响着蜡质输油管道停运时的温降特性。原油在管道中的降温过程是一个具有移动相界面的非定常换热问题,同时蜡质析出,原油的性能取决于温度。模拟了埋地热油管道的降温过程,结果表明:随着停机时间的延长,油的降温影响区不断扩大,油的降温速度明显减慢;在土壤性质均匀的情况下,初始油温对降温影响区大小没有影响。此外,适当减小土体矩形求解面积可以在保证计算结果准确性的同时减少计算量。研究了停油过程中管内油温分布。随着停机时间的延长,停机后由于自然对流作用而处于管内上部的高温区域逐渐下移至埋地管道的管内下部。
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