SU1559116A1 - Method of isolating absorption zone in producing formation - Google Patents

Abstract

The invention relates to the oil and gas industry. The goal is to increase the efficiency of isolating the absorption zones by increasing the degree of swelling of the plugging material. Pre-prepare dispersions of partially structured regenerate based on general purpose rubbers in a hydrocarbon-based carrier fluid and deliver it to the absorption zone. A partially structured regenerate is used with a crosslinking density characterized by M _C values of 20.10 ⁴ -50.10 ⁴ m ³ / kmol. The method allows to significantly increase the reliability of the isolation of the absorbing channels and can be used in the drilling of deep wells under conditions with abnormally high reservoir pressures. 1 hp f-ly, 1 tab.

Description

The invention relates to the oil and gas industry and can be used in the opening of productive oil deposits, in particular, with abnormally high formation pressures.

The aim of the invention is to increase the efficiency of isolating absorption zones by increasing the degree of swelling of the sealing material.

The method includes preliminary preparation of a dispersion of a partially structured regenerate (CSR) based on general purpose rubbers in a hydrocarbon-based carrier fluid and delivering it to the absorption zone.

Moreover, it is recommended to use a regenerate with a crosslinking density characterized by Gs values equal to 20-lO -SO-lO m3 / kmol. 1 CHSR is prepared by interrupting the standard rubber recovery process at the stage when the vulcanization network is not completely destructured and the crosslink density is within the specified limits. For example, the CRP can be made of auto-chamber rubbers on standard extrusion equipment at a temperature of 30 ° C for 3-7 minutes in the presence of phenyl, hydrazine and diphenylguanidine, which are regeneration agents. As a carrier fluid can be IC01 SP

0

about

used, for example, diesel fuel, oil, lime-bitumen drilling mud, etc.

The table presents comparative data on the swelling in oil and diesel fuel of crumbs of varying degrees of crosslinking of materials, “about an equal degree of dispersion with a particle size of 0.5–1.2 mm, as well as data on the total swelling of the samples of the materials studied simulate the process of preparation and delivery of an insulating tampon into the reservoir)

The experimental results presented in the table allow us to conclude that the CSR swells significantly upon contact with oil. The degree of swelling at temperatures close to the wellbore is five times higher than the degree of swelling of the crumb rubber, which ensures reliable isolation of the absorption channels in the productive formations with the help of TSRS. In addition, the ability of ChSR to increase the particle size by more than 200% makes it possible to isolate the gaps with a wide opening range. The relatively low rate and slow swelling rate in diesel fuel at moderate temperatures allow the material to be in a hydrocarbon carrier without significantly increasing the particle size over time sufficient to deliver it to the formation. At elevated temperatures, the degree of swelling increases, but in the diesel fuel the particles of the SNR do not stick together, which allows the composition to be injected into wells at great depths to saturate its voids in the reservoir.

Subsequent exposure to oil at 70 ° C

temperature over

leads to

Claims (2)

1. A method for isolating an absorption zone in a reservoir, which includes pretreating a dispersing closure agent in a carrier fluid and delivering it to a zone the coalescence of particles into a single gel 45 absorption, characterized by a mass capable of sealing the channels and voids of the productive oil reservoir. The gelatinous mass of the CHSR, which is swollen in oil, does not dissolve during a long period of time at elevated temperatures. The most expedient is the use of TSR with grid density characterized by values of MS 20-50-104. A thicker mesh does not allow for a high degree of swelling, and a whiter grid is less likely to lead to a solubility of the material. 50 55 In order to increase the efficiency of the insulation by increasing the degree of swelling of the sealing material, a hydrocarbon-based liquid is used as the carrier fluid, and the sealing agent is a partially structured regenerate based on general-purpose rubbers. 2. The method according to p. 1, characterized in that the partially structured rubber regenerate has em density of crosslinking 50-10 m / kmol. Is equal to 20-104 5 Q 5 g. five 0 The method is carried out as follows. ChSR chips are introduced into a liquid having a hydrocarbon base (diesel fuel, oil or lime-bitumen drilling mud). The volume of the plugging mixture and the concentration of PCR in it depend on the specific well conditions, in particular, the intensity of absorption. Injection of the prepared tampon into the absorption zone is carried out by any known methods. The time from the preparation of the tampon to its injection into the reservoir should be reduced as much as possible. The swab is left under pressure for the time required to tightly block the absorbent channels (at least 3 hours). Thus, the proposed method for isolating the reservoir using a partially structured rubber regenerate, which significantly increases the volume when interacting with the reservoir oil, is of great practical importance, since it allows to significantly increase the reliability of the insulation of the absorbing channels. The method can be used in the drilling of deep wells under conditions with abnormally high reservoir pressures and cavernous fractured reservoirs, where the fight against the absorption of drilling mud in the reservoir is a very serious problem. Invention Formula 1. A method for isolating an absorption zone in a reservoir, comprising pretreating a dispersing closure agent in a carrier fluid and delivering it to a zone 5 absorption, different In order to increase the efficiency of insulation by increasing the degree of swelling of the sealing material, a hydrocarbon-based liquid is used as the carrier fluid, and the sealing agent is a partially structured regenerate based on general-purpose rubbers. 2. The method according to p. 1, characterized in that the partially structured rubber regenerate has a crosslinking density of 50-10 mb / kmol. Is equal to 20-104 Rubber crumb0.8 -1, 2-Ю313,8 CHSR10-U412 20-10 20 32-Sh422 50-10 28 100-10 30 212428/28 243141/44 324455/58 436272/83 527238/93 23/3530/3932/4034/4034/40 52/5861/7271/11078 / P680 / 120 63/7182/80110/212116/228120/230 83/91105/112152/218154/244155/246 102/112120/130158/224160/248180/255 58 95 120 / h. 150 / hGy 180 / hr. 200 / p hp / p hp / rT 23/3530/3932/4034/4034/40 52/5861/7271/11078 / P680 / 120 63/7182/80110/212116/228120/230 83/91105/112152/218154/244155/246 102/112120/130158/224160/248180/255  150 / hGy 180 / hr. 200 / p hp / p hp / p Note. ch.r. - partial dissolution of CHSR; R. - the dissolution of CHSR.