TY - GEN
T1 - Pressure drop reduction of stable water-in-oil emulsion flow
T2 - Role of water fraction and pipe diameter
AU - Al-Yaari, M.
AU - Al-Sarkhi, A.
AU - Hussein, I.
AU - Abbad, M.
AU - Chang, F.
AU - Abu-Sharkh, B.
PY - 2013
Y1 - 2013
N2 - Emulsified acids provide significant benefits in stimulating oil and gas wells by slowing the reaction rate with carbonates and reducing corrosion in the tubular goods. However, pumping emulsified acids can result in high friction losses and hence reducing stimulation effectiveness. Therefore, reducing friction pressure loss is an important factor in expanding the application of emulsified acids. This experimental work aims to investigate a possible friction reduction through the control of water fraction as well as pipe diameter. Surfactant-stabilized water-in-oil emulsions with different water fraction were created. Pressure drop measurements of the flow of all formed emulsions were conducted in a flow loop consisting of 1-in and 0.5-in horizontal pipe diameters at 77 °F emulsion temperature. Such results were explained in terms of emulsion viscosity as well as the average droplet size and distribution of the emulsion dispersed phase (water). The results showed that stable water-in-oil emulsions are strong function of the dispersed water fraction. As water fraction increased, emulsion pressure drop increased. This was attributed to the increase in the emulsion viscosity due to an increase in the water fraction. Therefore, water-in-oil emulsion frictional pressure drop can be reduced by reducing water fraction. In addition, decreasing pipe diameter from 1-in to 0.5-in resulted in up to 74% reduction in emulsion friction factor and such dependency was clearer as water fraction increased.
AB - Emulsified acids provide significant benefits in stimulating oil and gas wells by slowing the reaction rate with carbonates and reducing corrosion in the tubular goods. However, pumping emulsified acids can result in high friction losses and hence reducing stimulation effectiveness. Therefore, reducing friction pressure loss is an important factor in expanding the application of emulsified acids. This experimental work aims to investigate a possible friction reduction through the control of water fraction as well as pipe diameter. Surfactant-stabilized water-in-oil emulsions with different water fraction were created. Pressure drop measurements of the flow of all formed emulsions were conducted in a flow loop consisting of 1-in and 0.5-in horizontal pipe diameters at 77 °F emulsion temperature. Such results were explained in terms of emulsion viscosity as well as the average droplet size and distribution of the emulsion dispersed phase (water). The results showed that stable water-in-oil emulsions are strong function of the dispersed water fraction. As water fraction increased, emulsion pressure drop increased. This was attributed to the increase in the emulsion viscosity due to an increase in the water fraction. Therefore, water-in-oil emulsion frictional pressure drop can be reduced by reducing water fraction. In addition, decreasing pipe diameter from 1-in to 0.5-in resulted in up to 74% reduction in emulsion friction factor and such dependency was clearer as water fraction increased.
UR - https://www.scopus.com/pages/publications/84883398043
U2 - 10.2523/iptc-16883-ms
DO - 10.2523/iptc-16883-ms
M3 - Conference contribution
AN - SCOPUS:84883398043
SN - 9781627481762
T3 - Society of Petroleum Engineers - International Petroleum Technology Conference 2013, IPTC 2013: Challenging Technology and Economic Limits to Meet the Global Energy Demand
SP - 3535
EP - 3543
BT - Society of Petroleum Engineers - International Petroleum Technology Conference 2013, IPTC 2013
PB - Society of Petroleum Engineers
ER -