RU2125150C1 - Method for control of flooding in gas and gas-condensate deposits - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: this relates to control of flooding during development of deposit. According to method, bore-holes are drilled and determined is position of gas-water contact. Determined in taken gas samples are concentrations of trace elements. Then plotted is dependence of these concentrations on distance between opening zone of bed and gas-water contact. Advancement of gas-water contact and flooding of wells are judged according to changing concentrations of trace elements in periodically taken gas samples. Application of aforesaid method allows for increasing reliability, accuracy and durability of forecast about advancement of gas-water contact at given stages of flooding. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the oil and gas industry and can be used, in particular, to control the flooding of gas and gas condensate fields.

 In the process of exploiting gas fields, it becomes necessary to monitor the progress of gas-water contact (GWC) in order to take appropriate measures in a timely manner (reducing the volume of gas extraction, etc.), to prevent premature flooding of the well and thereby extend the period of its operation.

 There are various methods and ways to control the progress of GVK; for example, geophysical and hydrochemical [1,2].

 However, these methods of monitoring the progress of the GWC give purely approximate results, since they begin to “work” already at the stage of the intensive irrigation that has begun, and therefore do not allow a long-term forecast to be made.

 The prototype of the proposed technical solution is a hydrochemical method, including drilling, determining the position of the gas-water contact (GWC) and gas sampling [1]. The gas is separated from the formation fluid and the content and component composition of the salts are determined in it and the progress of the gas-water contact is judged by comparison.

 A significant disadvantage of this method is that the method begins to record the flow of water into the well at a fairly late stage of flooding, when often time is short to prevent the well from failing.

 The objective of the present invention is to increase the reliability, accuracy and durability of the forecast for the advancement of GWC in the early stages of flooding.

 The problem is solved due to the fact that in the method for controlling the watering of gas and gas condensate fields during the development process, including drilling wells, determining the position of the gas-water contact (GWC), taking gas samples over the entire section of the reservoir, determining the concentration of trace elements in gas samples, building the dependence of these concentrations on the distance between the opening zone of the formation and GWC and on the change in the concentration of trace elements in gas samples periodically taken from production wells promoting GVK and watering wells.

 The drawing shows the change in the concentration of trace elements in gas samples throughout the section of the reservoir.

 The method works as follows. Natural gas is taken from exploratory wells throughout the section of the productive stratum into sealed containers that withstand wellhead pressure. The content of at least 2-3 microcomponents is determined in the selected gas (table 1), on the basis of which the initial (base) graph is constructed, where the distances from the place of gas entering the well (opening area of the producing formation) to GWC are plotted along the ordinate axis, and on the other - the content of trace elements (see drawing).

The progress of the GWC and the degree of watering of production wells are judged by the change in the concentration of trace elements, for which periodically (T ₀ , T ₁ , etc.) gas is taken from it, the concentrations of trace elements are found in it, the values of which are plotted on the graph, as shown in the drawing .

 The testing of the proposed method for monitoring the progress of the GWC showed its high efficiency, since it allows predicting the approach of formation water to the bottom of the production well much earlier than other methods, which allows you to take appropriate measures in time and prevent the well from failing.

Sources of information
1. V.N. Dakhnov, Interpretation of the results of geophysical studies of well sections, M., Nedra, 1982, p. 344, paragraph 102.

 2. Goncharov V.S. et al., Methodological Guide for Hydrogeochemical Control of Watering of Gas and Gas Condensate Fields, M., VNIIGAZ, 1995, p. 6-7, 71-72.

Claims (1)

 A method of controlling the watering of gas and gas condensate fields during their development, including drilling wells, determining the position of the gas-water contact (GWC), taking gas samples over the entire section of the reservoir, characterized in that the concentration of trace elements in the gas samples is determined, the dependence of these concentrations on the distance between the opening zone of the reservoir and the GWC and the change in the concentration of trace elements in gas samples taken from production wells periodically judge the progress of the GWC and watering with well.

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