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Inception of Liquid Loading Foam Flow. Ayantayo Ajani The University of Tulsa. Outline. Introduction Large Scale Facility Equipment and Data Collection Results Foam Flow Liquid Loading Preliminary Conclusions. Introduction.
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Inception of Liquid LoadingFoam Flow Ayantayo Ajani The University of Tulsa
Outline • Introduction • Large Scale Facility • Equipment and Data Collection • Results • Foam Flow Liquid Loading • Preliminary Conclusions
Introduction • Recall from air water flow that when residual pressure drop reaches zero value, liquid loading is initiated in the pipe. • The concept above will be investigated for foam flow in a 40 ft, 2-in and 4-in vertical pipe.
Test Section • 3 Trapping Sections • 2 Quick Closing Valves • 2 Pressure Transducers • Visualization Box
Outline • Introduction • Large Scale Facility • Equipment and Data Collection • Results • Foam Flow Liquid Loading • Preliminary Conclusions
Results: Pressure Gradient:Air-Water, 2-in Pipe 16 m/s 16 m/s
Results: Pressure Gradient:Air-Water, 4-in Pipe 19 m/s 20 m/s
Observations • The inception of liquid loading is not very sensitive to liquid velocity. We can assume a constant value over the range of investigation • Liquid film thickness, based on material balance, is bigger in 4” pipe than in 2” pipe
Outline • Introduction • Large Scale Facility • Equipment and Data Collection • Results • Foam Flow Liquid Loading • Preliminary Conclusions
Results: S-2158, 400 ppm, 2 inch 6 m/s 3.2 m/s
Results: S-2158, 800 ppm, 2 inch 4.3 m/s 2 m/s
Results: S-2158, 1200 ppm, 2 inch 3.2 m/s 2 m/s
Results: S-2158, 1600 ppm, 2 inch 1.4 m/s 1.5 m/s
Results: S-2158, 400 ppm, 4 inch 15 m/s 16 m/s
Results: S-2158, 800 ppm, 4 inch 16 m/s 14 m/s
Results: S-2158, 1200 ppm, 4 inch 8 m/s 3 m/s
Results: S-2158, 1600 ppm, 4 inch 4 m/s 2 m/s
Results: Critical Velocity for S-2158 Avgof VsgC for Vsl = 0.01 & 0.03 m/s
Results: S-2557, 200 ppm, 2 inch 15 m/s 10 m/s
Results: S-2557, 400 ppm, 2 inch 8.5 m/s 11 m/s
Results: S-2557, 600 ppm, 2 inch 4 m/s 9 m/s
Results: S-2557, 1000 ppm, 2 inch 3.4 m/s 5 m/s
Results: S-2557, 200 ppm, 4 inch 15 m/s 19 m/s
Results: S-2557, 400 ppm, 4 inch 14 m/s 16.5 m/s
Results: S-2557, 600 ppm, 4 inch 17 m/s 9 m/s
Results: S-2557, 1000 ppm, 4 inch 14.5 m/s 13 m/s
Results: Critical Velocity for S-2557Avg of VsgC for Vsl = 0.01 & 0.03 m/s
Results: Critical Velocity for S-3311Avg of VsgC for Vsl = 0.01 & 0.03 m/s
Results: Critical velocity versus Mass unloaded, (%): (Using Concentration at Half Life); 2 inch
Results: Critical velocity versus Mass unloaded, (%): (Using Concentration at Half Life); 4 inch
Outline • Introduction • Large Scale Facility • Equipment and Data Collection • Results • Foam Flow Liquid Loading • Preliminary Conclusions
Preliminary Conclusions • In the presence of foam, for both 2” and 4” pipes, the inception of liquid loading is postponed • The impact of foam in 2” pipe is much more significant than in 4” pipe. This is most likely caused by hold up behavior • We believe that entrained liquid in gas core increases as the pipeline diameter decreases
Preliminary Conclusions • Holdup in 2” pipe is smaller than holdup in 4” pipe at low gas velocities for a given concentration of surfactant • It is possible to predict the behavior of foam efficacy based on small scale experiments • The pressure drop, for a given surfactant concentration, is much greater in 2” pipe than in 4” pipe compared to air-water
Inception of Liquid LoadingFoam Flow Questions? Recommendations