SU589559A1 - Oil stratum model - Google Patents

Description

(54)

OIL LAYER MODEL

one

The invention relates to the development of oil deposits, in particular, to devices in which the processes occurring in the development of oil deposits and others are studied under laboratory conditions.

A known model for studying radial fluid flow through a horizontal fracture into a well, containing a concrete block, lowered into a basin, and the distance between the bottom of the basin and the block simulates a fracture 1

However, in this case only one crack is simulated, the opening of which is quite significant, and due to the considerable size of the model and the technical conditions for creating pressure only due to the liquid column in the basin, the modeling of reservoir conditions is almost impossible.

A known model of a fractured reservoir, each section of which is made of duralumin blocks or individual cores, cut in parallel forming three parts assembled into a pipe and fixed with epoxy putty poured between the blocks and the pipe wall 2.

The disadvantage of the model is the impossibility of studying the processes on

different types of reservoir in conditions as close as possible to the reservoir.

Closest to the invention, the oil reservoir model contains a cylindrical body with cylindrical sections filled with a porous medium, with their separation nodes and end couplings with channels for supplying and discharging the liquid | 3.

However, in this model, permeability is many times greater than in real conditions and, moreover, the model is applicable for studying processes only in pore collectors, i.e. not close to the reservoir.

The purpose of the invention is to create conditions in the oil reservoir model that are closest to the reservoir.

This is achieved by the fact that the proposed model of the oil reservoir is equipped with a sleeve with a power cylinder and gaskets located between the sections of the model

The drawing shows a general view of the proposed model, the section.

The oil reservoir model contains a cylindrical body 1, in which the cylindrical sections 2 are placed coaxially with the body 1. The cylindrical sections 2 are made with cracks

and caverns. Between sections 2, elastic spacers 3 are provided. At the ends of the housing 1, end sleeves 4 are fixed with channels 5 made therein for supplying and discharging liquid.

Inside the housing 1 on the end sleeves there is a power cylinder b with the rod 7 and the plunger 8, which has the possibility of axial movement in the cylindrical housing 1.

The device of the model provides for the interchangeability of cylindrical sections 2.

The device works as follows.

In one of the channels 5 in the end sleeve 4, oil is pumped into the model, creating axial load on the model sections 2. By crushing the pads 3, the inner space of the model sections 2 is sealed. Fluid, for example oil, is supplied and withdrawn through channels 5. Conditions are created that are closest to the reservoir. The fluid is drawn to t with water by pumping it into one of the channels 5. Fluid is sampled through the opposite channel 5.

The proposed model makes it possible to simulate the characteristics of the structure of the oil reservoir, various modes of displacement, and to create, in the course of research, conditions that are closest to the reservoir.

Claims (3)

1. Drilling and oil production and gas. IV International Petroleum Congress, vol. 3. 2. Oil. Proceedings of the Institute, Vol. 40, 42, 44. 3. USSR author's certificate 259457, cl. A 01 N 1/00, 1968.