RU2199646C1 - Process opening productive pool with differential pressure - Google Patents

Abstract

FIELD: oil and gas industry. SUBSTANCE: process is meant to drill oil, gas or water intake wells to get oil, gas and water. In correspondence with process drill pipe string with drill bit is run into well. Wellhead setup is implemented. Well bore is washed and aerated flushing fluid with gaseous nitrogen, for example, is supplied to drilling bit in process of drilling. Two containers, as minimum, with autonomous pressure gauges are sunk into well prior to lowering of drill pipe string. On completion of flushing of well bore cable bottom-hole pressure gauge is run into well to depth of location of autonomous pressure gauges of drill pipe string. In well bore there are conducted tests aimed at establishment of conditions for depression drilling. With start of flow circulation of flushing fluid with gaseous agent in well bore there are formed in turn at least three modes of supply of aerated flushing fluid which form depression: below planned pressure, equal to planned pressure and above planned pressure. Values of pressure across autonomous and cable bottom-hole pressure gauges are measured under all modes. Time and pressure loss in interval from point of location of pressure gauge to wellhead are established and fixed. Obtained data are used to analyze changes of bottom-hole pressure depending on flow rate of flushing fluid and gaseous agent and graph of such dependence is plotted. Required mode of supply of flushing fluid and gaseous agent is set by this graph. Flushing fluid and gaseous agent are supplied to drill bit under selected mode to keep specified value of depression in productive pool while it is open over its entire thickness. It enhances quality of opening of productive pools with depression with any nonuniformity of properties of solids in productive pools over their thickness, ensures simultaneously reduced time of productive pool opening and prevents emergency situations in process of their driving thanks to high-accuracy determination of required mode of supply of flushing fluid and gaseous agent to secure uninterrupted maintenance of specified value of depression and required distribution of pressures in well bore depending on properties of solids uncovered in drilling process of productive pool over its entire thickness. EFFECT: enhanced quality of opening of productive pools with depression.

Description

 The invention relates to the field of the oil and gas industry, and in particular to methods for opening productive oil and gas horizons by wells, and is intended for use both in newly developed oil and gas fields, and in fields under development. The invention can be used for drilling vertical, deviated and horizontal wells in both carbonate and terrigenous reservoirs at any low pressure in the reservoir.

According to the patent of the Russian Federation 2058474, IPC ⁶ E 21 B 21/14 (claimed 10.08.93, published 20.04.96, BI 11) the invention is known under the name "Method of drilling a well", which is taken as an analogue.

When implementing the invention, a drill is used by analogy with a device driven by the energy of a liquid working agent, prepared by supplying a liquid of a substance soluble in it at a controlled flow rate, providing a single-phase liquid state of aggregation of the working agent in the bottom of the shell and the release of this substance from the liquid into in the form of gas with the formation of a gas-liquid mixture. As a substance dissolved in a liquid, a substance is used, mainly carbon dioxide, capable of forming a saturated solution with the liquid at a temperature of from -10 to 100 ^° C and a pressure of from 1 to 0.1 MPa and released from it in the form of a gas with a pressure drop of 0, 1 MPa and maintaining a constant temperature, in a volume of not less than 0.1 m ³ per 1 m ^{3 of} saturated solution in terms of normal conditions.

 Using the invention by analogy will increase the efficiency of well drilling due to the use of a liquid solution as an active agent that intensively releases gas when moving in the annulus, starting from any predetermined depth of the well to its mouth.

 A disadvantage of the method known by analogy is that not in all cases and is not fully ensured an increase in drilling efficiency due to the fact that the regulation of the flow rate of the solute and the shift of the boundaries of the transition of the gas-liquid mixture into a liquid single-phase state along the length of the column in a real well virtually impossible to ensure the necessary properties at the required depths within the required limits, which in addition increases the time of work and complicates the drilling process.

The closest (prototype) to the claimed invention in terms of the set of essential features and the achieved result from among the known technical solutions is the method of opening a productive formation for depression, described in the description of the utility model to the certificate of the Russian Federation 16177, IPC ⁷ E 21 B 21/14 (stated January 25. 2000, published 10.12.2000, BI 34) under the name "Device for opening the reservoir."

 The specified device during operation implements a method (adopted by us as a prototype), which includes lowering drill pipe with a bit into the well, tying the wellhead, flushing the wellbore and supplying the bit when drilling an aerated flushing fluid with a gaseous, for example, nitrogen agent.

 In the prototype method, a drill pipe string with a bit of a smaller diameter is lowered into a well cased to the reservoir. The wellhead harness is sealed and equipped with supply lines to the drill pipe string through the flushing fluid ejector from the tank at the wellhead and a gaseous agent from the source of its formation, which is used, for example, an SDA-5 / 101M mobile nitrogen compressor station. The annulus of the well with a flow line is connected to the separator.

 When drilling a productive formation through a drill string, flushing fluid and nitrogen are simultaneously and simultaneously supplied to the bit in a gaseous state, which eliminates the need to wait for the soluble (as in the analogue) substance to dissolve in the flushing fluid, thereby reducing time, simplifying drilling operations and ensuring while depression in the system: well - productive formation.

 The disadvantages of the known prototype method is that not in all cases a high quality of opening of productive formations is depressed, while the opening time of productive layers is not fully provided and emergency situations during their passage are not completely excluded. This occurs in cases of inadequacy of the calculated depression on the reservoir and is also due to the geological properties of the reservoirs being discovered (rock heterogeneity, the nature of fluid saturation, etc.).

 The main objective of the invention is to achieve a new technical result, namely, improving the quality of opening of productive formations in a depression with any heterogeneity of the rock properties of productive formations by their thickness, while ensuring a reduction in the time of opening of productive formations and eliminating emergency situations when they are drilled due to the establishment of high the accuracy of the required flow regime of flushing fluid and gaseous agent to ensure and continuously maintain a given value depression and thus the desired distribution along the wellbore pressure depending on the properties reveals rock during drilling the productive formation throughout its thickness.

 This goal is achieved by the fact that in the known method of opening a productive formation in a depression, including lowering drill pipe with a bit into the well, tying the wellhead, flushing the wellbore and feeding the bit when drilling an aerated flushing fluid with a gaseous, for example, nitrogen agent, into the proposed method in conjunction with the above-mentioned known operations, we introduced new significant features: new operations and devices for their conduct, new modes of operations and the order they are performed namely, before lowering into the well into the drill pipe string, at least two containers with autonomous pressure gauges are introduced, after washing the wellbore through the cable entry into the well, the cable depth gauge is lowered to the depth of the autonomous manometers of the drill pipe string in the well, then in the well bore conduct research to establish drilling regimes for depression, for which, after the start of circular circulation of the flushing fluid with a gaseous agent in the wellbore, at least three those who are creating depression of aerated flushing fluid supply modes: lower than the calculated pressure equal to the calculated one and higher than the calculated one, while in all modes the pressure values are measured on stand-alone and cable depth gauges, time is fixed and pressure losses are established in the interval from the installation site of the manometer to the wellhead, according to the data obtained, an analysis is made of the change in bottomhole pressure depending on the flow rate of the flushing fluid and the gaseous agent and a graph of such a dependence is constructed, according to which avlivayut desired flushing fluid supply mode and the gaseous agent, followed by supplying the washing liquid and gaseous agent to produce the selected bit mode to maintain a predetermined value of depression in a producing formation at the opening across its thickness.

 The above new significant features are the hallmarks of the invention in relation to the known method of the prototype.

 Currently, from publicly available sources of scientific, technical and patent information, we are not aware of methods for opening a productive formation for depression, which, together with well-known essential features, would contain the new set of essential features proposed by us, outlined above, as in the inventive method for opening a productive formation on depression.

 Together, the known and new distinctive essential features provide the claimed invention the achievement of a new technical result in its implementation.

 Conducting research in the wellbore to establish depression regimes for drilling a productive formation, proposed in the method after washing the wellbore in the initial period of circular circulation of washing fluid with a gaseous agent in at least three modes of supply of aerated drilling fluid to create depression at pressures: lower than and above the calculated one, with measurement of pressure values on autonomous and cable depth gauges installed according to the invention, fixing time and pressure losses in the interval from the installation site of the pressure gauge to the wellhead and analysis of such data, it makes it possible to establish with high accuracy the necessary mode of supply of flushing fluid and gaseous agent to ensure and continuously maintain a given value of depression and the required pressure distribution along the wellbore depending on the properties of the rock being discovered in the process of drilling a productive formation over its entire thickness, which ultimately allows you to improve the quality of opening of productive formations in the depression with any uneven heterogeneity of the rock properties of the productive formations by their thickness and at the same time, reduce the time of their opening and eliminate accidents due to penetration of wellbores due to heterogeneity of the drilled rocks.

 The method is as follows.

 First, the wellbore is drilled to the top of the reservoir with conventional drilling equipment using conventional drilling mud and cemented. A drill pipe string with a smaller diameter bit is lowered into the cased wellbore. At least two containers with autonomous manometers, for example, type MTA-06, are introduced into the string of drill pipes before being lowered into the well. The wellhead is sealed, and its annulus is connected by a flow line to the separator. A supply line to the drill pipe string through an ejector of flushing fluid from the reservoir at the wellhead and a feed line to the drill pipe string through the ejector of the gaseous agent from its source are equipped. As the latter, for example, a portable nitrogen compressor station of the SDA-5 / 101M brand is used. Flush the wellbore. Then, through the cable entry into the well on the cable, the depth gauge is lowered to a depth comparable to the installation depth of the autonomous pressure gauges of the drill pipe string. At the same time, flushing fluid and a gaseous agent are fed into the drill string through an ejector, creating a circular circulation of the gas-liquid mixture in the wellbore, after which studies are conducted in the wellbore to establish depressed drilling modes. For this, after the beginning of the circular circulation of the flushing fluid with a gaseous agent in the wellbore, at least three modes of supply of the aerated flushing fluid are alternately created: below the design pressure equal to the design pressure and above the design pressure, creating depression on the reservoir. In all modes, pressure values are measured on autonomous and cable depth gauges, time is fixed and pressure losses are established in the interval from the installation site of the manometer to the wellhead. According to the data obtained, the bottomhole pressure changes are analyzed depending on the flow rate of the flushing fluid and the gaseous agent, and a graph of this dependence is built. According to the schedule, the required mode of supply of the washing liquid and gaseous agent is established. When drilling a productive formation, the supply of washing fluid and a gaseous agent to the bit is carried out in the selected mode of maintaining a given value of depression on the productive layer when opening it over the entire thickness.

 The proposed method was tested under field conditions when drilling nine oil producing wells, productive formations of which from 4 to 20 m thick had heterogeneous rock properties in thickness and different characteristics of the discovered rocks. Downhole pressure during the opening of reservoirs was lower than or equal to reservoir pressure. In no case when drilling productive formations of the proposed method did not arise any complications or emergency situations. In all cases, an oil production rate of 2-4 times the design oil was obtained. The drilling time of productive formations was 1.5-2 times lower than when performing such works on the prototype. Immediately after drilling, the wells were put into operation for oil production, since not a single well required development time.

Claims (1)

 A method of opening a productive formation in a depression, including lowering drill pipe with a bit into the well, tying the wellhead, flushing the wellbore and supplying the bit when drilling an aerated flushing fluid with a gaseous, for example, nitrogen, agent, characterized in that before being lowered into the well at least two containers with autonomous manometers are introduced into the drill string, after washing the wellbore through the cable entry into the well, the cable depth gauge is lowered to the depth of the vehicle nominal pressure gauges of the drill pipe string, then studies are conducted in the wellbore to establish depressed drilling modes, for which, after the start of circular circulation of flushing fluid with a gaseous agent in the wellbore, at least three alternating modes of supplying depression of aerated flushing fluid are created alternately: below design pressure equal to the calculated and higher than the calculated, while in all modes, the pressure values are measured on autonomous and cable depth gauges, time is fixed for pressure losses are measured in the interval from the installation site of the pressure gauge to the wellhead; according to the data obtained, an analysis of the bottomhole pressure changes depending on the flow rate of the washing liquid and gaseous agent is made and a graph of this dependence is constructed, according to which the required flow rate of the washing liquid and gaseous agent is established, after which the supply of washing liquid and gaseous agent to the bit is carried out in the selected mode of maintaining a given value of depression on the reservoir when opening it over the entire thickness.