Practical class №22. Well stimulation
Aims of practical lesson is introduction with well stimulation and their types
22.1. Lexical terms and word combinations
stimulation - возбуждение скважины, интенсификация притока флюидов в скважину
acidizing - кислотная обработка
acid fluid solution - кислый электролит
dissolve(v) - растворять
matrix (low pressure) acidizing - матричная обработка (под давлением ниже давления гидроразрыва пласта)
acid fracturing (high pressure acidizing) - кислотный разрыв
fracturing - гидроразрыв пласта
proppant fracturing - гидроразрыв с расклинивающим агентом
propellent stimulation - интенсификация притока флюидов в скважину при помощи пропеллента
hydraulic fracturing - гидравлический разрыв пласта
flow capacity - пропускная способность
“bridging” - закупоривание, перекрывание
treatment - кислотная обработка
producing zone - продуктивная зона (в скважине)
foreign solid -33 посторонние механические примеси
formation damage - повреждение продуктивного пласта
22.2. Reading Passage
Sometimes once the well is fully completed, further stimulation is necessary to achieve the planned productivity. There are a number of stimulation techniques:
Acidizing. This involves the injection of chemicals to eat away at any skin damage, "cleaning up" the formation, thereby improving the flow of reservoir fluids. Acidizing is the process of injecting an acid fluid solution into a producing zone(s) for the purpose of dissolving foreign solids or rock, enlarging existing channels or creating new ones. The channels are opened or enlarged as a result of a chemical reaction. There are two basic types of acidizing:
1. matrix (low pressure) acidizing – is used on wells that have formation damage. The acids injected below the fracturing point so that the acid is allowed to work through the natural pores of the rock. This procedure is usually used on sandstone formations;
2. acid fracturing (high pressure acidizing) – uses a sufficient volume of acid under high pressure to fracture a formation, allowing the acid to penetrate further into the formation. Acid fracturing is used most often on carbonate formations (limestone and dolomite).
Fracturing. This means creating and extending a fracture from the perforation tunnels deeper into the formation increasing the surface area for formation fluids to flow into the well as well as extending past any possible damage near the wellbore. This may be done by either injecting fluids at high pressure (hydraulic fracturing), injecting fluids laced with round granular material (proppant fracturing) or using explosives to generate a high speed gas flow (propellent stimulation).
Hydraulic fracturing is the process of injecting a special fluid, under high pressure into a producing zone to create and extend the produced fractures or high-conductive channels into a formation some distance from the wellbore. The channels are maintained with the aid of proppants or propping materials introduced during the fracturing process, after the fractures have been initiated and extended. The primary objective of this procedure is to stimulate a well to increase its productivity. Hydraulic fracturing is normally used when low permeability is a characteristic of the reservoir in general.
Hydraulic fracturing is being used more and more as a well and reservoir stimulation technique. It is used to:
1. improve the productivity of a well by creating penetrating reservoir fractures in a formation increasing its flow capacity;
2. improve the ultimate recovery from a well by extending the flow channels further into the formation;
3. aid in secondary recovery operations by improving the flow capacity in a formation near the wellbore which increases the rate of injection in disposal or pressure maintenance wells.
Perforation plays a key role in the success of hydraulic fracturing. HF has two main steps: fracture creation by application of pressure, and injection of fluid carrying proppant, which holds open the fractures to allow production. Once the fracture is created, perforations provide the entrance to the fracture for the proppant. Perforation diameter must be sufficient to prevent “bridging”, accumulation of proppant that blocks the entrance hole, preventing further treatment.
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