The College of Education for Pure Sciences, Department of Chemistry, discussed a master's thesis on the preparation, diagnosis and evaluation of superabsorbent gels derived from acrylamide and tetramethyl urea and their applications in the oil fields. The thesis, presented by the researcher (Mohamed Haitham Ahmed), included: In the oil industry, water must be separated from oil before pumping it for export or refining. The problem is that there is a small amount of the properties of this mixture of oil and water and the effect of factors from water remains attached to the oil, and its separation requires a deep understanding of the different properties and stability of this mixture. This study focused on developing environmentally friendly super absorbent gels with high swelling and absorption capacity, fast swelling rate, low production cost, and good durability (good gel texture) to remove water from (crude oil, gasoline, kerosene and oil) practically. As well as using these gels to absorb a type of water that is present in oil fields and is specified in SH1 and SH2 water (two types of water in the Gharraf oil field) as well as absorbing water vapor and salts, which are considered a problem in refineries (during pumping and transport operations in pipelines, which makes it difficult to get rid of them. In this study, (two types) of super absorbent semi-network interconnected gels (Semi-IPNs) were prepared, where the first type (A-H) of gels prepared from a fixed amount of linear anionic polyacrylamide (APAM) and different amounts of acrylamide (AAm) with N,Ǹ-Methylene bis-acrylamide (MBA) as a crosslinking agent, sodium persulfate (SPS) as an initiator for the polymerization of acrylamide and a fixed amount of tetramethylethylene as an accelerating agent to degrade the initiator. The second type of gels (PETMU) is prepared using tetramethylurea TMU with linear anionic polyacrylamide (APAM) polyelectrolyte, forming a new semi-IPNs gel using hydrogen peroxide as a crosslinking agent. The prepared gels were characterized using (FT-IR, SEM, FE-SEM, XRD and TGA&DSC) techniques. The swelling properties of all prepared semi-interference network gels (Semi-IPNs) were examined by determining the percentage of
The aim of the message
Preparation of a number of smart electrolytic polymer gel structures based on the presence of (amide groups CONH2, quaternary ammonium groups -N+R4, carboxyl groups -COOH, hydroxyl groups -OH).
And studying the effect of several factors on the swelling ratio such as the effect of (pH, temperature and concentration of salt solutions) on water absorption.
Using these polymer structures in water/oil removal applications (crude oil - kerosene), water/gasoline, water/oil.
Study the removal efficiency of (water/oil (crude oil - kerosene), water/gasoline, water/oil) of the prepared gels and the possibility of applying them.