SU1698430A1 - Method and apparatus for determining filtration of seam fluid - Google Patents

Abstract

The invention relates to mining. The purpose of the invention is to increase the information content due to the simultaneous examination of the tested samples. Each of the series-connected chambers (K) 1-4 for placement of samples 5, b, 7, 8 is made in the form of a perforated cup 9 with an inner elastic sheath 10. The diagonal pockets of the latter contain 13 EO 00 00 CJ O

Description

perforated segments 11, and perforated discs 12 at the ends. In front of the inputs K 1-4, control valves 13–16 are installed, connected by lines 17–24, respectively, to valves 25–28, located on line 29. In lines 18, 20, 22 m 24 installed decolmators 30-33, respectively. Fluid from line 29 is supplied to K 1-4 with loaded samples 5-8 representing

open section model. In the event that filtration stops in one or several samples, the direction of fluid flow in the latter is changed and each of them is dekolmatized. According to the decolmation results, it is concluded that the fluid-conducting paths are open in the conditions of rock deformation. 2 sec. f-ly, 2 silt,

The invention relates to mining and is intended to study clogging of fractured reservoirs.

The purpose of the invention is to increase the information content due to the simultaneous examination of the tested samples.

FIG. 1 is a schematic diagram of an apparatus for implementing a method for monitoring fluid filtration; in fig. 2 is a schematics schematics.

A device for controlling the filtration of fluid contains a bead of serially connected chambers 1-4 for placing samples 5–8 of rock with cracks, of different (hp 0 to 90 °) orientations, representing the model of the open section. Each of the chambers 1-4 is made in the form of a perforated cup 9 with an inner elastic shell 10, in the diagonal pockets of which perforated segments 11 are placed, and at the ends - perforated discs 12 for placement between the last rock specimen. In front of the inputs of chambers 1-4, control valves 13-16 are installed. Each of the latter is connected by two lines 17–20, 21–24, respectively, to valves 25–28 located on line 29.

In lines 18, 20, 22 and 24, decolators 30-33 are installed, respectively, to determine the decolating ability of samples 5-8. Each of the decolators 30-33 is made in the form of a measuring tank 34 with a reflector 35. Inlet 34 is mounted in the upper part of the reservoir 34, and inlet 37 is provided in the lower part, and outlet 37 is used to drain the liquid. Inside the tank 34 is a set of sieves 38 with sensors 39 connected to the control device 40.

The method of controlling the filtration of formation fluids is carried out as follows.

Fluid from line 29 through line 7 is fed to the gearbox of series-connected chambers 1-4 with samples 5-8, representing the model of the open section, and

through line 41 to line 29. To create rock loads in samples 5-8, they are hydraulically crimped by supplying fluid through perforated cups 9 to elastic shells

10 cameras 1-4,

Depending on the orientation of the filtration paths in samples 5-8, they are first deformed (narrowed) and samples with cracks of the least orientation collate. For example, if sample 6 is blocked, the pressure at the inlet of chamber 2 will increase and decrease at its outlet. The flow rate of colmatant through sample 6 also changes. Sensors (not shown) will react and issue a signal to control valves 26, 14 and 27, 15. Valves 26 and 14 will ensure that the fluid from chamber 1 continues to be filtered into the common line 29 and valve 14 simultaneously provides fluid from chamber 2 through line 20 31 Each of decolmators 30-33 operates as follows.

The fluid from the rock sample through the inlet 36 falls into the measuring tank 34 and,

hitting the reflector 35, flows down onto the set of sieves 38. Depending on the size (granulometric composition), the solid phase of clogging material is delayed in one of the sieves, to which the sensors react

39 and provide a signal to the registering device 40. As a result, the granulometric composition is determined by the amount of incoming solid phase of clogging material captured on the sieve set

amount of solids. By varying the number of cyclic effects in various depressions, the intensity and time of decomposition are changed.

According to the granulometric analysis of the outgoing plugging agent, a conclusion is made about the openness of fluid conduction paths under conditions of rock deformation. In this way, a decal is carried out on all samples in the event of their blockage during testing.

Using the control valve 27, the fluid is supplied through line 21 to the control valve 15 and then to chamber 3, through valve 16 to chamber 4, from where via line 41 to line 29.

Claims (2)

Claims 1. A method for determining the filtration of formation fluids, which consists in passing fluid through loaded rock samples, characterized in that, in order to increase informativity, by simultaneously examining the test samples, the fluid is simultaneously passed through a series of rock samples with cracks of various orientations, representing the model of the open section, and at the same time monitoring the filtration of the fluid in / B g Zhiznos / gt J / / 37 of all samples, when the filtering phase is terminated in one or several samples, the flow direction of the fluid in the latter is changed and decolmate each of them, by which the filtration capacity of the cracks is determined. 2. A device for determining the filtration of formation fluids, containing a line for supplying fluid and a chamber for placing a rock sample, made in the form of a perforated cup with an inner elastic sheath, in the diagonal pockets of which are perforated segments, and in the ends of the shell are perforated discs characterized in that it is equipped with additional sample chambers, control valves, fluid supply lines and decolmators, the chambers are connected in series, and A unit at the entrance of each chamber has a control valve connected by two fluid supply lines with a corresponding control valve located on the line, while a resololatator is installed in one of the two lines. 35 IB t Nalm0ta # g77 one g g N 39 ABOUT 40 LbirlJ