EXPERIMENTAL STUDY OF THE PROBLEM OF INCREASING THE THROUGHPUT CAPACITY OF PIPELINES FOR THE TRANSPORTATION OF GAS-LIQUID MIXTURES
Water and air were fed into a 3 m long; 2 cm dia glass tube that included a horizontal initial section and descending and ascending portions interconnected by a short-cut with a valve. The slope of the descending portion was varied from 5 deg to 20 deg. The experimental data, plotted on a chart, showed that the throughput capacity coefficient improves substantially with increase in slope angle and with gas-liquid ratio up to about 2.8:1. The effectiveness of a short-cut increases with the slope angle.
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Authors:
- Gol'dzberg, V L
- Gallyamov, A K
- Publication Date: 1968
Language
- Russian
Media Info
- Pagination: 2 p.
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Serial:
- Izvestiia Vysshikh Uchebnykh Zavedenii, Neft i Gaz
- Volume: 11
- Issue Number: 6
Subject/Index Terms
- TRT Terms: Flow; Pipe flow; Velocity
- Uncontrolled Terms: Flow velocity
- Old TRIS Terms: Pipeline flow theory
- Subject Areas: Design; Marine Transportation;
Filing Info
- Accession Number: 00056054
- Record Type: Publication
- Source Agency: American Petroleum Institute
- Files: TRIS
- Created Date: Jun 24 1974 12:00AM