Abstract
Two-phase flows are common occurrences in many industrial applications. The understanding of their characteristics in industrial piping systems is vital for the efficient design, optimization, and operation of industrial processes. Most of the previous experimental studies involving the use of gamma densitometers for holdup measurements in air-water mixtures are limited to smaller diameter pipes (generally regarded as those with < 50 mm in nominal diameter). Further, very few literature report experimental data obtained using gamma desitometers. This paper presents an application of a gamma densitometer in the measurement of two-phase flow characteristics in an intermediate diameter pipe (nominal diameter between 50 mm and 100 mm). Scaled air-water experiments were performed in a 17-m long, 0.0764-m internal diameter horizontal pipe. Liquid superficial velocity ranged between 0.1–0.4 m/s while gas superficial velocity ranged from 0.3 to 10.0 m/s. The measured parameters include liquid holdup, pressure gradient, flow pattern, and slug flow features. The flow patterns observed were stratified, stratified-wavy, plug, slug, and annular flows. Plug and slug flow patterns showed good agreement with established flow pattern maps. Furthermore, the slug translational velocity was observed to increase with increasing mixture velocity, as reported by previous authors, hence establishing the reliability of the instrumentation employed. The slug body length was also measured using the gamma densitometer and was found to be within the range 24–36D with a mean length of 30.6D.
Highlights
Two-phase flow of liquid and gas is commonly encountered in the oil and gas industry
This paper presents an application of a gamma densitometer in the measurement of two-phase flow characteristics in an intermediate diameter pipe
We present detailed local measurements obtained for two-phase pressure gradient, liquid holdup, and slug flow features: slug frequency, slug liquid holdup, and slug translational velocity measured using gamma densitometers in a 0.0764-m internal diameter pipe
Summary
Two-phase flow of liquid and gas is commonly encountered in the oil and gas industry. In most cases of normal production, co-flowing liquid and gas phases are present in pipe tubing and flow lines. In the oil and gas industry, for example, to enhance oil production or transportation, gas is often injected to lower the density and mitigate serious hydrodynamic issues, especially at junctions and elbows. When a multiphase flowing mixture is encountered, the flow characteristics are completely different from those in single-phase flow. This includes flow patterns that vary depending on the fluid properties, pipe geometry, and inclination. For oil production in harsh environments, little changes in flow characteristics become critical. Flow assurance and transportation are heavily dependent on a sufficient understanding of flow mechanisms and related behaviours such that accurate predictions can be made
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