Abstract
Flow measurements that utilize differential pressure meters are commonly applied in industry. In such conditions, gas flow is often accompanied by liquid condensation. For this reason, errors occur in the metering process that can be attributed to the fluctuations in continuous phase parameters in the flow. Furthermore, the occurrence of a dispersed phase results in flow disturbance and dynamic pressure pulsations. For the above reasons, new methods and tools are sought with the purpose of performing measurements of gas-liquid flows providing measurement results that can be considered as fairly accurate in the cases when flow involves a liquid phase form. The paper reports the results of a study involving measurement of wet gas flow using differential pressure flowmeters. The experiments were conducted for three constant mass air flow rates equal to 0.06, 0.078 and 0.086 kg/s. After stabilization of the air flow rates, water was fed into the pipe with flow rates in the range from 0.01 to 0.16 kg/s. The research involved a standard orifice and three types of slotted orifices with various slot arrangements and geometries. The analysis focused on the effect of orifice geometry on the flow metering results. On the basis of the results, it was found that the slotted orifice generates smaller differential pressure values compared to the standard orifice. The water mass fraction in the gas leads to overestimated results of measurements across the flowmeter. Regardless of the type of the orifice, is necessary to undertake a correction of the results. The paper proposes a method of gas mass flow correction. The results were compared with the common over-reading correction models available in the literature.
Highlights
Orifice meters are often applied in flow measurements involving the transport of gases in industry
The flow rate of air routed into the system is measured using a differential pressure flow meter which takes the form of a standard orifice
The analysis of the study results demonstrates that greater values of differential pressure are generated as a consequence of an increase in the mass fraction of liquid in the air flow
Summary
Orifice meters are often applied in flow measurements involving the transport of gases in industry. Two-phase mixture measurements form some of the major challenges in the branch of flow metrology Such measurements normally deal with mass flow rates of gas-liquid mixtures and occur in many areas of science and technology, e.g., in petrochemical, chemical industries and in meteorology and power engineering [1,2,3]. Individual researchers supervised by Morrison, including Macek, Ihfe and Brewer, conducted experiments into the performance of slotted orifices in the conditions of single-phase as well as two-phase gas-liquid flow. These experiments demonstrated that the use of the slotted orifice leads to the homogenization of the two-phase flow when it is compared with the standard orifice. The tests examined how the homogeneity of the two-phase gas/liquid mixture varied depending on the use of the slotted orifice in a horizontal pipe for various conditions before the orifice
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