SU994683A1 - Method of preventing absorption of recirculation fluid while drilling water wells - Google Patents

Description

(54) METHOD OF PREVENTING THE ABSORPTION OF WASHING LIQUID WHEN DRILLING WELLS WATER

one

The invention relates to the drilling of wells in a rotational manner, in particular, to methods for combating the absorption of drilling fluid during the drilling of water wells.

The absorption of the flushing fluid is caused by an excess of the pressure of the flushing fluid in the well under the pressure of groundwater. In this case, fluid from the wellbore enters the aquifer, which is accompanied by penetration of drill cuttings into the pores and cracks and clogging as a result of this bottomhole zone. In addition, the absorption of pro. washing fluid causes complications and accidents during drilling.

Methods are known for preventing the absorption of washing liquid, in particular the use of special washing clay solutions of minimal specific gravity, low water loss, high viscosity 1.

However, these methods are very complex and do not exclude clogging of aquifers with mud.

The closest to the technical essence and the achieved result to the proposed method is to prevent the absorption of flushing fluid when drilling wells for water, including changing the ratio of reservoir pressure and pressure of flushing fluid by

5 decreasing the pressure of the washing liquid by using an aerated liquid 2.

The disadvantages of this method are the difficulty of preparing an aerated bone, as well as the impossibility of its repeated use, the high cost of special frother reagents and foam absorbers.

The purpose of the invention is to increase the efficiency of the method by simplifying and reducing the material costs.

The goal is achieved in that, according to a method for preventing the absorption of flushing fluid when drilling wells for water, including changing

2, the ratio of formation pressure to the pressure of the washing fluid, this change is made by increasing the formation pressure at the drilling site.

The increase in reservoir pressure in the drilling area is carried out by injecting water into one or several previously drilled wells, but an artificial increase in groundwater is produced in the drilling area.

The drawing shows the essence and a specific example of using the method of preventing the absorption of drilling fluid during the drilling of wells.

The geological section of the site is represented by a clayey impermeable layer 1, under which cavernous limestones 2, underlain by gypsum 3, are deposited. A well system designed for the extraction of sulfur by underground smelting is being drilled on the site. Limes are characterized by an average water conductivity of 5 2 / day. the natural groundwater level 4 is at a depth of 70 m from the surface.

The first well 5 is drilled in a known manner using an aerated fluid. Then water is injected into this well with a flow rate Q, as a result of which the pressure of groundwater rises. For these specific conditions, Q 500. In this case, the water pressure in the area of the drilling of the second well 6. located at a distance of r 40 m from the first rises

  fn2-25 at 45fT -P2

where T is water conductivity, 5 m / day; a - piezoconductivity, 4-10 m2 / day; t is the time from the start of injection, days. The increase in the pressure of groundwater in a day after the start of injection is

with 500 ... 2-25-40 ° 00,.

about - In; oo M

42-5402

Thus, if earlier the water level was set at a depth of 70m from the surface, then a day after the injection, it rises 88-70-18m above the ground.

As a result, when drilling the next well, water is poured onto the surface, which eliminates the possibility of formation of mudding. In the same way are drilling the following wells.

Depending on the specific hydrogeological conditions, the number and location

injection wells, as well as the flow rate of injected water may vary. Injection parameters are calculated using the formulas known in hydrogeology.

The proposed method of prevention

absorption of drilling fluid when drilling wells has the following advantages compared with the well-known ones: wells are drilled with conventional fluid, there is no need to prepare special solutions, i.e.

simplicity is provided; due to an increase in reservoir pressure, the very reason for absorption is eliminated, thus ensuring high efficiency; material costs are reduced as water injection is carried out using simple and cheap equipment, eliminating the need for expensive reagents.

Claims (2)

1. A method for preventing the absorption of washing liquid when drilling water wells, including changing the ratio of formation pressure and pressure of washing liquid, characterized in that, in order to increase the efficiency of the method by simplifying and reducing material costs, changing the ratio of formation formation pressure and pressure produced by increasing formation pressure at the drilling site. 2. A method according to claim 1, characterized in that the increase in reservoir pressure at the drilling site is carried out by injecting water into one or more previously drilled wells. Sources of information taken into account in the examination 1.Dubrovsky V.V. Reference book on bu, rhenium and water well equipment. BUT., “Nedra, 1972, p. 265-266. 2. Dr Gamen E. N. et al. Dissection, testing and development of aquifers in hydrogeological wells. M., "Nedra, 1975, p. 27-31 (prototype). l ul z l // fl / C777ff a ffy / 7ff / l ffJf t I h gi / 7Sb /