SU1714097A1 - Method of preventing hydrogen sulfide formation on prolonged storage of crude oil in underground tanks - Google Patents

Abstract

The invention relates to the exploitation of underground reservoirs used for long-term storage of dehydrated and desalted oil fields containing bacterial microflora, mainly sulphate reducing bacteria, which form hydrogen sulfide in stored oil, and can be used in the petroleum and petrochemical industries . The purpose of the invention is to prevent the formation of hydrogen sulfide in desalted and dehydrated oils in an underground reservoir. For this, a buffer layer of water with a concentration of sodium chloride of more than 1.195 g / cm is created in the underground tank in front of the oil. At. By forming an underground storage in rock salt, a buffer layer with saturated sodium chloride is created by spontaneous saturation of water emitted from oil with sodium chloride. 1 hp, f-ly, 1 il., 1 tab. micro-flora, contributing to the formation of hydrogen serog), and can be used in the petroleum and petrochemical industry. The closest in technical essence and the achieved result to the invention is the method for combating hydrogen sulfide in oil reservoirs when they are flooded, which means that sodium chloride is injected into the water injected into the oil reservoir to maintain reservoir pressure. This suppresses the growth of sulfate-reducing bacteria (SRB) producing hydrogen sulfide. Sodium chloride, falling into sulphate-containing formation water, eliminates sulphates and inhibits the development of microflora, as the addition of sodium chloride reduces the calcium sulphate concentration by a factor of almost two. As a result, saturated sodium chloride solutions that are unfavorable for the development of SIS are created in the reservoir waters underlying the oil in the reservoir. The disadvantages of this method follow from the conditions of this method for water flooding of oil reservoirs and displacing oil from the porous medium by a moving water propellant. 4 ^ O Yu ^

Description

The displacement of oil is carried out by injected water into the reservoir in the form of a rim, only in the front part of which a saturated solution of sodium chloride is formed at the water-oil interface, while the rest of the reservoir water together with the oil is displaced relatively slowly, without having saturated sodium chloride .. Due to this, effective suppression of the viability of the BV occurs only in the bottomhole and in the bottomhole zone of injection wells, and the remaining water-displaced production of wells inevitably contains viable cells. SRB heel, which rise along with oil in the well fall into the READY (dewatered) on PNP oil installations, it obessolivaets to salinity in oil standards 50-1000 mg / l and then a commercial oil is sent for reprocessing.

It is important to note that dehydrated and (salt-free to 1% water and salt content 50-1000 mg / l salt emulsified in oil, water in the form of droplets is liquid One strongly desalinated (1.015 g / cm and therefore favorable environment for the development of SSC cells.

If such oil is not sent for processing, but for long-term storage in underground tanks, it will spontaneously dehydrate, i.e. From it, water droplets from the SCB are gradually released onto the bottom of the storage. Having formed a separate phase over time, the low-mineralized water in the underground tank is the ideal medium for creating a biocenosis for the BV B and for their release of hydrogen sulfide. The stored oil is gradually saturated with hydrogen sulphide, with all negative consequences for its transportation through the main oil pipelines and the corrosive effect on the apparatus and installations of the refinery.

Thus, the known method of combating the formation of hydrogen sulfide from the flooding of oil reservoirs contributes to the survival of viable forms of SSC in the mined and prepared in the fields, they are practically unsuitable for application in the conditions of long-term storage of oil, because a technical solution is required to prevent this growth of SVB.

The purpose of the invention is to prevent the formation of hydrogen sulphide in oils that are in long-term storage in underground tanks.

The goal is achieved by the fact that chloride salts inhibit growth and viability. SCBs are introduced or formed in underground storages during the storage of oil or in advance with a concentration of 1.195 g / cm to saturation, which suppresses the growth of bacteria.

The drawing shows a curve19) e, ps) detour method.

There are two possible cases of oil storage in underground storage facilities.

If the cavity of the underground storage was formed as a result of the production of minerals insoluble to the input, then before entering the oil in the lower part of the storage, a buffer layer of water with sodium chloride with a concentration from 1.195 g / cm to saturation is pre-pumped.

If the bulkiness of the underground storage was formed as a result of the production of water-soluble rock salts (consisting of sodium chloride and magnesium), then oil can be sent to storage without first creating a buffered mineralized water in the underground tank.

This is due to the fact that as the oil from the oil coalesces from the oil and accumulates in the lower part of the storage, this mineral water with the viable forms of the bacteria SVB will quickly dissolve sodium salts in contact with the salt walls. This creates a saturated salt solution and the bacteria in it will not develop.

This is confirmed by bacterial and physicochemical studies.

By the method of luminescent microscopy using membrane filters, the total number of bacteria in the associated water (droplets) of dehydrated and desalted oils with an admixture of oils, directed partly to underground storage, is determined. It has been established that their total amount reaches 7.3310 cells / ml, which characterizes the high contamination of water droplets in oil by various bacteria. In their composition of 10 cells / ml, the most dangerous bacteria are sab.

Further, determining the growth dynamics. when it comes into contact with rock salt, it was found that HTO at a concentration of sodium chloride in water of 140 g / l or a density of 1.195 g / cm, biomass growth is insignificant (curve 3). This indicates inhibition of bacterial growth.

SCB, and therefore, the prevention of the formation of hydrogen sulfide in water and oil, which are in saturated solutions of sodium chloride.

During long-term storage of oil contaminated with bacterial microflora in underground storage facilities of rock salt, the creation of a water buffer layer is not produced: it spontaneously forms from water droplets falling out of oil from the SCB and is quickly saturated with chloride salts with KOHTaKte with rock salt.

The table shows the dynamics of changes in the salt content of the associated water of oils in contact with rock salt and a viable amount of SAL (cell / ml).

It can be seen from the above data that when the salinity of the aquatic medium reaches a density of 1.195 g / cm, the viability of the sulfate reducing bacteria in it is practically suppressed.

Therefore, water droplets released (exfoliated) from oil containing viable forms of sulfate reducing bacteria that fall into the buffer H1 | 1st (lower) layer of water saturated with sodium chloride will remain in the blocked (non-viable) state, which prevents the hydrogen sulphide from entering the oil stored in underground storage facilities .

Pho. rmula of invention

Claims (2)

1. A method for preventing the formation of hydrogen sulfide during long-term storage of oil in an underground tank, including the introduction of sodium chloride and water to a saturated concentration, characterized in that, in order to prevent the formation of hydrogen sulfide in desalted and dehydrated oils in an underground tank, sodium chloride is introduced into the buffer a layer of water, the density of sodium chloride is constantly maintained in the buffer layer at least 1.195 g / cm 2. A method according to claim 1, characterized in that, when creating an underground storage in rock salt, a buffer layer with saturated sodium chloride is created by spontaneous saturation of water emitted from oil with sodium chloride. -X 3 cy / rt