石油与天然气研究

抽象的

Water-Solvent Polymers for High-Temperature Resistant Pressure Driven Cracking: A Review

Zhengkun Tian

Sulfate decreasing prokaryotes (SRP) cause hydrogen sulfide (H2S) age in some water flooded hydrocarbon supplies that is known as microbial repository souring or bio souring. The H2S created in-situ by SRP is poisonous and destructive that unfavorably influences the quality, creation, and economy of oil handles along with negative natural effects. Different compound, organic, and microbial techniques have been carried out to control such in-situ microbial responses in the beyond couple of many years yet they are not completely controllable. This work plans to give further knowledge into microbial repository souring and its alleviations procedures. To start with, this survey explains on the complicated material science of souring and consequently investigates the most recent demonstrating devices being utilized to catch the natural chemistry of souring and the physical science of H2S age. Afterward, a basic conversation on the effect of overseeing boundaries like liquid organization, temperature, tension, pH, and saltiness on H2S bio generation is added. Then, H2S-liquid stone associations prompting dividing, adsorption, and searching peculiarities are deductively made sense of and their impacts on H2S transport are clarified. Different moderation and control procedures are introduced and fundamentally analyzed considering their appropriateness and pertinence in various situations. At long last, some field cases are accounted for, and the critical difficulties and the impending examination necessities are featured. This wise audit gives fundamental data on microbial exercises in hydrocarbon handles that are significant for substance and oil designers to handle souring issue