Abstract
This study shows that the thermal conductivity of the rock borehole adjacent to the wells varies depending on the operation of the well. This is due to the fact that the actual temperature and temperature difference affect the humidity and other thermal properties of the rocks, which in turn affect the heat transfer coefficient across the section between the moving gas and the rocks. The static temperature field of primitive geothermal gradients acquires changes in a dynamic form. Theoretical consideration of changes in the thermal conductivity of rocks near the face and the wells is proposed to improve the prediction of gas condensate wells production. The result is achieved by introducing the specified equations of the thermal energy balance in the radial filtration and lifting of well products, which contain the coefficients of heat exchange and throttling. The refinement bias estimation of the 10%–15% level of gas condensate well extraction is shown using proposed methodological approach to relatively well-known (traditional in the field development practice) methods for estimating the extraction of a “medium well” from a particular oil and gas field evaluation. The results of this work demonstrate important scientific, applied, educational and methodological significance of using the methodology presented by the authors.
Highlights
Gas and condensate extraction from gas condensate wells is carried out after drafting development projects and preliminary estimation of extractive capacity
The authors used the mathematical method of introducing artificial coefficients of elimination effects, which allowed us to make a comparative analysis under identical conditions by other technical parameters and indicators
Taking into account the actual change in the thermal conductivity of rocks due to depth, depending on their temperature, as well as the change in temperature of the extracting fluid from throttling in the well cavity led to a precision forecasting the flow of wells by 10%–15%
Summary
Gas and condensate extraction from gas condensate wells is carried out after drafting development projects and preliminary estimation of extractive capacity. During the design of the field development, basic and advanced methods for forecasting the main development parameters are used. Long-term operation and repair of wells, the estimation of possible and optimal operating modes is required. This makes it necessary to continuously improve the methods of calculating thermal parameters and debit. The forecasting of gas condensate wells production is influence by the thermal conductivity of the adjacent rocks.
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