Title page for ETD etd-11112010-214621

Type of Document Master's Thesis
Author Saikia, Bikash Deep.
Author's Email Address bsaiki1@tigers.lsu.edu
URN etd-11112010-214621
Title Surfactant-Induced Flow Behavior Effects in Gas Condensate Reservoirs
Degree Master of Science in Petroleum Engineering (M.S.P.E.)
Department Petroleum Engineering
Advisory Committee
Advisor Name Title
Rao, Dandina N. Committee Chair
Radonjic, Mileva Committee Member
Sears, Stephen O. Committee Member
  • gas condensate
  • surfactant
  • wettability
  • spreading coefficient
Date of Defense 2010-09-17
Availability unrestricted
Natural gas, which accounts for a quarter of world’s energy, has been a major energy source because of its abundance and less impact on environment. With explorations at higher depth, pressure and temperature, the share of gas condensate reservoirs to global gas production is increasing. A unique production challenge associated with these reservoirs is the condensate blockage problem, which is the buildup of condensate liquid saturation around wellbore as a result of drawdown below dew point pressure. Mitigation of this problem requires in depth understanding of the multiphase flow of liquid and gas. Surfactants are well known in the literature for affecting such multiphase flow characteristics in reservoirs. They affect the flow behavior primarily by wettability alteration as well as spreading coefficient modification. In this study, multiphase flow characteristics of gas condensates, with and without surfactants were observed by running corefloods representing actual reservoir retrograde condensation phenomena. A commercial anionic surfactant, Alfoterra® 123-4S, was successfully shown to facilitate condensate removal with relative permeability enhancement of over 17 percent at a surfactant concentration of 2000 ppm, which was also the optimum concentration under the flowing conditions. The efficacy of surfactant was observed to be a non-linear function of its concentration and this is attributed mainly to the pleateauing effect above the critical micellar concentration (CMC) values.
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