comparative studies on enhanced oil recovery thermoviscosifying polymer versus polyacrylamide
comparative studies on enhanced oil recovery thermoviscosifying polymer versus polyacrylamide
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying.In this work, comparative studies with PAM and TVP having closer molecular weight were performed with regard to their rheological behaviors, thermal stability, and core flooding feasibility.
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying...
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying Polymer Versus Polyacrylamide Xian’e Li,?Zhi Xu,?Hongyao Yin,?Yujun Feng,*,?,?and Hongping Quan§ ?Polymer Research Institute,...
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Comparative Studies on Enhanced Oil Recovery
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying Polymer Versus Polyacrylamide Energy & Fuels ( IF 3.605) Pub Date : 2017-02-27 00:00:00, DOI: 10.1021/acs.energyfuels.6b02653 Xian’e Li, Zhi Xu, Hongyao Yin, Yujun Feng, Hongping Quan
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Comparative Study on Enhancing Oil Recovery under High
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying Polymer Versus Polyacrylamide [2017] Li, Xiana e; Feng Yujun; Quan Hongping; Xu Zhi; et al. Access the full text Link Link Lookup at Google Scholar
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Comparative Studies on Enhanced Oil Recovery - PubAg
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying Polymer Versus Polyacrylamide Author: Li Xian’e, Xu Zhi, Yin Hongyao, Feng Yujun, Quan Hongping Source: Energy & Fuels 2017 v.31 no.3 pp. 2479-2487 ISSN: 1520-5029 Subject:
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Comparative Studies on Enhanced Oil Recovery - figshare
High-molecular-weight polyacrylamide (PAM) has been widely used in chemically enhanced oil recovery (EOR) processes under mild conditions, but its poor tolerance to high temperature and high salinity impeded the use in severe oil reservoirs. To overcome the inadequacies of PAM, thermoviscosifying polymers (TVPs) whose viscosity increases upon increasing temperature and salinity were developed
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Comparative Studies on Enhanced Oil Recovery
Comparative Studies on Enhanced Oil Recovery: Thermoviscosifying Polymer Versus Polyacrylamide Author: Li Xian’e, Xu Zhi, Yin Hongyao, Feng Yujun, Quan Hongping Source: Energy & Fuels 2017 v.31 no.3 pp. 2479-2487 ISSN: 1520-5029 Subject:
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Enhancing Oil Recovery from Low-Permeability Reservoirs with
After 0.7 pore volume of 0.1% polymer solution was injected, TVP achieved an incremental oil recovery factor of 13.64% after water flooding, 3.54% higher than that of HPAM under identical conditions. All these results demonstrate that TVP has great potential to be used in low-permeability oil reservoirs for chemical EOR.
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Comparative Study on Enhancing Oil Recovery under High
High-molecular-weight polyacrylamide (PAM) has been widely used in chemically enhanced oil recovery (EOR) processes under mild conditions, but its poor tolerance to high temperature and high salinity impeded the use in severe oil reservoirs. To overcome the inadequacies of PAM, thermoviscosifying polymers (TVPs) whose viscosity increases upon increasing temperature and salinity were developed
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Comparative analysis of the performance of hydrophobically
After 0.7 pore volume of 0.1% polymer solution was injected, TVP achieved an incremental oil recovery factor of 13.64% after water flooding, 3.54% higher than that of HPAM under identical conditions. All these results demonstrate that TVP has great potential to be used in low-permeability oil reservoirs for chemical EOR.
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A New Class of Biodegradable Thermosensitive Polymers. 2
High-molecular-weight polyacrylamide (PAM) has been widely used in chemically enhanced oil recovery (EOR) processes under mild conditions, but its poor tolerance to high temperature and high salinity impeded the use in severe oil reservoirs. To overcome the inadequacies of PAM, thermoviscosifying polymers (TVPs) whose viscosity increases upon increasing temperature and salinity were developed
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Application of polymer integration technique for enhancing
1. Introduction Polymer flooding is an enhanced oil recovery (EOR) technique that consists in the addition of high molecular weight polymers—water solutions into the reservoir. The goal is to decrease the water/oil mobility ratio by increasing the viscosity of the displacing water leading to the improvement of recovery efficiencies [ 1, 2 ].
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