Polymer recovery technology

A chemical-enhanced oil-recovery technology can be used to remove oily contaminants from soil. Laboratory studies demonstrated that a variety of alkaline-surfactant combinations can be used with a polymer to reduce the residual oil saturation in waterflooding [1435]. 

H.L. Chang, Polymer Flooding Technology - Yesterday, Today, and Tomorrow, Proceedings of the Soc. Petrol. Eng. Symposium on Improved 0x1 Recovery 4/16-19/78, Tulsa, OK. SPE Paper 7043-... 

Enhanced oil recovery (EOR), 9 1 12 23 18 611-639. See also EOR polymers additional technologies in, 18 630-631 alkaline flooding in, 18 629-630 carbon dioxide capture and storage, 18 617... 

Delgado, C., Barmetabena, F., et al. (2007) Assessment of the environmental advantages and drawbacks of existing and emerging polymers recovery processes. Luxembourg, European Commission, Joint Research Centre, Institute for Prospective Technological Studies. 

Dou, Z.-L., Zhao, W., Chen, B.-R, 1999. Polymer flooding pilot test and performance analysis in Layer 5 of the Western Block 7, Gudong fleld. Oil and Gas Recovery Technology 6 (1), 12-16. 

We carefully selected papers on many important topics, such as a paper that offers practical hints on the recovery of strain electromagnetic susceptibility relaxation, a numerical approach to the susceptibility of cross-linked polymers, an update on cross-linked polymers with nanoscale cross-site chains, a paper addressing the role of polymers in technologies and environment protection, an update on quantum-chemical calculation, and a paper that covers some aspects of silver nanoparticles. Also included are chapters that discuss the problems of mechanics of textile performance, new aspects of polymeric nanoCbers, a mathematical model of nanofragment cross-linked polymers, and much more. 

M. Xanthos and A.L. Bisio, "Energy Savings from Plastics Recovery Technologies", The Intersociety Polymer Conference, Baltimore, MD, October 7-10, 1995. 

Polymer Flood Technology Field Injection of High Viscosity Polyacrylamide Solutions With an Automated Mixing Process," paper presented at the 1989 5th European Symposium on Improved Oil Recovery, Budapest, Hungary, April 25-27. 

Pengrowth has targeted East Bodo (Alberta side) and Cosine (Saskatchewan side) for waterflood optimization and subsequent enhanced oil recovery applications. Currently, the most practical EOR technology for this heavy oil reservoir seems to be the polymer flood technology in combination with horizontal weUs. Several investigatorsri-4) have demonstrated the potential of the polymer flood fechnology for improved oil recovery in heavy oil reservoirs. 

This study focused on progressing the polymer flood concept to improve oil recovery in the East Bodo Field from initial screening, to laboratory evaluations and simulations and, finally, to the field pilot stage. The results at each evaluation step reinforced the idea of the polymer flood technology to be a suitable and economical lOR process for East Bodo. 

WASSMUTH, F.R., GREEN, K., HODGINS, L. and TURTA, A.T., Polymer Flood Technology for Heavy Oil Recovery paper 2007-182 presented at the Petroleum Society s S Canadian International Petroleum Conference (58 Annual Technical Meeting), Calgary, AB, 12-14 June 2007. 

Wassmuth, F.R., Green, K., Hodgins, L., and Turta, A.T. 2007. Polymer Flood Technology For Heavy Oil Recovery. Paper 2007-182 presented at the Canadian International Petroleum Conference, Calgary,12-14 June. DPI 10,2118/2007-182. 

Microemulsions became well known from about 1975 to 1980 because of their use ia "micellar-polymer" enhanced oil recovery (EOR) (35). This technology exploits the ultralow iaterfacial tensions that exist among top, microemulsion, and bottom phases to remove large amounts of petroleum from porous rocks, that would be unrecoverable by conventional technologies (36,37). Siace about 1990, iaterest ia the use of this property of microemulsions has shifted to the recovery of chloriaated compounds and other iadustrial solveats from shallow aquifers. The latter appHcatioa (15) is sometimes called surfactant-enhanced aquifer remediation (SEAR). 

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