Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness

Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness

This research aims to test four new polymers for their stability under high salinity/high hardness conditions for their possible use in polymer flooding to improve oil recovery from hydrocarbon reservoirs. The four sulfonated based polyacrylamide co-polymers were FLOCOMB C7035; SUPERPUSHER SAV55; TH...

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Main Authors: Saeed Akbari, Syed Mohammad Mahmood, Isa M. Tan, Hosein Ghaedi, Onn Lin Ling
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:Polymers
Subjects:
rheology
AN132 VHM
FLOCOMB
SUPERPUSHER SAV55
THERMOASSOCIATIF
salinity-hardness
Online Access:https://www.mdpi.com/2073-4360/9/12/647
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spelling doaj-9b61b664d01447c7b587f86cfc4c19bc2020-11-24T20:48:26ZengMDPI AGPolymers2073-43602017-11-0191264710.3390/polym9120647polym9120647Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and HardnessSaeed Akbari0Syed Mohammad Mahmood1Isa M. Tan2Hosein Ghaedi3Onn Lin Ling4Centre of Research in Enhanced Oil Recovery (COREOR), Petroleum Engineering Department, Universiti Teknologi PETRONAS, Seri Iskandar, Tronoh 32610, MalaysiaShale Gas Research Group (SGRG), Institute of Hydrocarbon Recovery, Petroleum Engineering Department, Universiti Teknologi PETRONAS, Seri Iskandar, Tronoh 32610, MalaysiaFundamental and Applied Science, Universiti Teknologi PETRONAS, Seri Iskandar, Tronoh 32610, MalaysiaChemical Engineering Department, Universiti Teknologi PETRONAS, Seri Iskandar, Tronoh 32610, MalaysiaPetroleum Engineering Department, Universiti Teknologi PETRONAS, Seri Iskandar, Tronoh 32610, MalaysiaThis research aims to test four new polymers for their stability under high salinity/high hardness conditions for their possible use in polymer flooding to improve oil recovery from hydrocarbon reservoirs. The four sulfonated based polyacrylamide co-polymers were FLOCOMB C7035; SUPERPUSHER SAV55; THERMOASSOCIATIF; and AN132 VHM which are basically sulfonated polyacrylamide copolymers of AM (acrylamide) with AMPS (2-Acrylamido-2-Methylpropane Sulfonate). AN132 VHM has a molecular weight of 9–11 million Daltons with 32 mol % degree of sulfonation. SUPERPUSHER SAV55 mainly has about 35 mol % sulfonation degree and a molecular weight of 9–11 million Daltons. FLOCOMB C7035, in addition, has undergone post-hydrolysis step to increase polydispersity and molecular weight above 18 million Daltons but it has a sulfonation degree much lower than 32 mol %. THERMOASSOCIATIF has a molecular weight lower than 12 million Daltons and a medium sulfonation degree of around 32 mol %, and also contains LCST (lower critical solution temperature) type block, which is responsible for its thermoassociative characteristics. This paper discusses the rheological behavior of these polymers in aqueous solutions (100–4500 ppm) with NaCl (0.1–10 wt %) measured at 25 °C. The effect of hardness was investigated by preparing a CaCl2-NaCl solution of same ionic strength as the 5 wt % of NaCl. In summary, it can be concluded that the rheological behavior of the newly modified co-polymers was in general agreement to the existing polymers, except that THERMOASSOCIATIF polymers showed unique behavior, which could possibly make them a better candidate for enhanced oil recovery (EOR) application in high salinity conditions. The other three polymers, on the other hand, are better candidates for EOR applications in reservoirs containing high divalent ions. These results are expected to be helpful in selecting and screening the polymers for an EOR application.https://www.mdpi.com/2073-4360/9/12/647rheologyAN132 VHMFLOCOMBSUPERPUSHER SAV55THERMOASSOCIATIFsalinity-hardness
collection DOAJ
language English
format Article
sources DOAJ
author Saeed Akbari
Syed Mohammad Mahmood
Isa M. Tan
Hosein Ghaedi
Onn Lin Ling
spellingShingle Saeed Akbari
Syed Mohammad Mahmood
Isa M. Tan
Hosein Ghaedi
Onn Lin Ling
Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness
Polymers
rheology
AN132 VHM
FLOCOMB
SUPERPUSHER SAV55
THERMOASSOCIATIF
salinity-hardness
author_facet Saeed Akbari
Syed Mohammad Mahmood
Isa M. Tan
Hosein Ghaedi
Onn Lin Ling
author_sort Saeed Akbari
title Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness
title_short Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness
title_full Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness
title_fullStr Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness
title_full_unstemmed Assessment of Polyacrylamide Based Co-Polymers Enhanced by Functional Group Modifications with Regards to Salinity and Hardness
title_sort assessment of polyacrylamide based co-polymers enhanced by functional group modifications with regards to salinity and hardness
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2017-11-01
description This research aims to test four new polymers for their stability under high salinity/high hardness conditions for their possible use in polymer flooding to improve oil recovery from hydrocarbon reservoirs. The four sulfonated based polyacrylamide co-polymers were FLOCOMB C7035; SUPERPUSHER SAV55; THERMOASSOCIATIF; and AN132 VHM which are basically sulfonated polyacrylamide copolymers of AM (acrylamide) with AMPS (2-Acrylamido-2-Methylpropane Sulfonate). AN132 VHM has a molecular weight of 9–11 million Daltons with 32 mol % degree of sulfonation. SUPERPUSHER SAV55 mainly has about 35 mol % sulfonation degree and a molecular weight of 9–11 million Daltons. FLOCOMB C7035, in addition, has undergone post-hydrolysis step to increase polydispersity and molecular weight above 18 million Daltons but it has a sulfonation degree much lower than 32 mol %. THERMOASSOCIATIF has a molecular weight lower than 12 million Daltons and a medium sulfonation degree of around 32 mol %, and also contains LCST (lower critical solution temperature) type block, which is responsible for its thermoassociative characteristics. This paper discusses the rheological behavior of these polymers in aqueous solutions (100–4500 ppm) with NaCl (0.1–10 wt %) measured at 25 °C. The effect of hardness was investigated by preparing a CaCl2-NaCl solution of same ionic strength as the 5 wt % of NaCl. In summary, it can be concluded that the rheological behavior of the newly modified co-polymers was in general agreement to the existing polymers, except that THERMOASSOCIATIF polymers showed unique behavior, which could possibly make them a better candidate for enhanced oil recovery (EOR) application in high salinity conditions. The other three polymers, on the other hand, are better candidates for EOR applications in reservoirs containing high divalent ions. These results are expected to be helpful in selecting and screening the polymers for an EOR application.
topic rheology
AN132 VHM
FLOCOMB
SUPERPUSHER SAV55
THERMOASSOCIATIF
salinity-hardness
url https://www.mdpi.com/2073-4360/9/12/647
work_keys_str_mv AT saeedakbari assessmentofpolyacrylamidebasedcopolymersenhancedbyfunctionalgroupmodificationswithregardstosalinityandhardness
AT syedmohammadmahmood assessmentofpolyacrylamidebasedcopolymersenhancedbyfunctionalgroupmodificationswithregardstosalinityandhardness
AT isamtan assessmentofpolyacrylamidebasedcopolymersenhancedbyfunctionalgroupmodificationswithregardstosalinityandhardness
AT hoseinghaedi assessmentofpolyacrylamidebasedcopolymersenhancedbyfunctionalgroupmodificationswithregardstosalinityandhardness
AT onnlinling assessmentofpolyacrylamidebasedcopolymersenhancedbyfunctionalgroupmodificationswithregardstosalinityandhardness
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