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• W2275457680 abstract "Efficiency of reservoir engineering can be estimated using gas and gas condensate recovery factor. In Russian oil and gas industry for traditional method (depletion drive) gas recovery ratio is no more then 85-90% for gas fields, 75-85% for gas condensate fields and condensate recovery factor equal to or below 30%. The main feature of gas condensate fields is a manifestation of retrograde condensation in the development of such systems. Formation fluid condensate reservoir, in that case, the gaseous phase presented, which is further dissolved in the liquid hydrocarbons in the vapor state. By reducing the reservoir pressure of the gas-condensate system starts to fall liquid hydrocarbons (retrograde condensation), commonly referred to as C5 + or simply higher C5 +. Retrograde condensate is difficult to extract and its recovery is virtually impossible if the development of the field is carried out on the depletion of reservoir energy. The reason for this is that the saturation of the pore space of the condensate is quite low, causing spontaneous inflow doesn’t occurs. During maintenance using depletion drive condensate production can be enhanced as soon as reservoir pressure such value, when the phenomena of increasing the content of condensate in the production wells is shown. However, this is quite a low pressure (about 1 - 2 MPa or less), and is usually lower than the pressure at which the development of the field stops. It should seem that using one or other scheme of reservoir stimulation can partially increase gas and condensate recovery. The following are some results of analytic and research work dealing with enhancing gas and condensate recovery for the depleted gas condensate fields. All studies are conducted in the main researching centre of Russian gas industry (LLC «Gazprom VNIIGAZ») since 1980." @default.
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• W2275457680 date "2015-06-18" @default.
• W2275457680 modified "2023-09-23" @default.
• W2275457680 title "ГИДРОТЕРМОДИНАМИЧЕСКОЕ МОДЕЛИРОВАНИЕ АКТИВНЫХ МЕТОДОВ РАЗРАБОТКИ ГАЗОКОНДЕНСАТНЫХ МЕСТОРОЖДЕНИЙ" @default.
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