SU69722A1 - A method of processing hard formation waters of oil fields - Google Patents

Description

The essence of the present invention consists in extracting oil fields of magnesium hydroxide, sodium chloride and calcium chloride from hard formation waters.

Among the stratal waters of oil fields, the type of hard waters, usually highly mineralized and enriched in sodium, potassium, calcium, and magnesium chloride salts, is widespread.

The same formation waters have low alkalinity and contain iodine and methyl salts.

Hard highly mineralized reservoir waters from oil fields usually, unlike other natural waters, do not contain sulphates or contain them in insignificant amounts. The low alkalinity of these waters and the high content of iodine and bromine in them allowed them to be used as a raw material for the iodine-bromine industry.

During the years of the Great Patriotic War in many regions of the USSR, these waters were used to obtain table salt by evaporation. Table salt precipitated at the brine concentration separated from the mother liquor, and the latter, containing up to 30% calcium and magnesium chloride salts, was discarded. It also did not use iodine and methyl salts.

Hard mineralized formation waters are widely distributed and mainly have the following salt composition: sodium chloride from 50 to 40 g / l; calcium chloride from b to 25 ZJA; magnesium chloride from 4 to 18 g 1l.

The content of calcium and magnesium chloride salts is the greater, the greater the mineralization of water.

More saline, hard waters are used to obtain the salt from the evaporation method.

Consequently, in the mother liquor, which is released by the salt plants, more than 20% of the total mass of salts in the form of calcium and magnesium chlorides is lost.

The described method makes it possible to obtain calcium chloride and magnesium hydroxide from hard brine waters along with sodium chloride. At the same time, it significantly improved.

The quality of table salt is reduced and the corrosion of iron equipment is reduced in the process of evaporation of table salt.

Raw materials - hard reservoir waters with a content of sodium chloride from 90 to 240 g 1 l, calcium chloride - from 10 to 25 g / l and magnesium chloride - from 4 to 18 g / l with admixture of small amounts of iron bicarbonate, calcium and magnesium are collected in pools where they are suspended from suspended particles.

Keeping in pools leads to a decrease in the alkalinity of water and the precipitation of carbonates of iron and alkali-earth metals.

In addition, in spring and summer, the concentration of salts in water is significantly increased due to the natural evaporation of water.

The distilled water is fed to the agitators, where lime milk is also supplied. The reaction takes place: MgCl + Ca (OH) 2 CaCla + Mg (OH) 2

Calcium hydroxide berzt in excess of 5-10% against theoretical.

After half an hour of stirring at a temperature of from 20 to 30 ° C, the solution containing sodium chloride and calcium chloride is drained from the mixer into a settling basin, where a precipitate of Mg (OH) 2 and small amounts of Fe (OH), CaCO, precipitates

and MgCOg.

The clarified brine, having an alkaline reaction, is transferred from the upper part of the settling basin to the nutrient pool, from where it is pumped to the cooking vessels for stripping and obtaining salt.

The evaporation of salt to 25% calcium chloride is carried out in

what the mother liquor is bypassed in the iron baths.

After separation of the bulk of the salt, the mother liquor is again heated and concentrated to a CaClg content of about 50%, and the precipitated salts of NaCl and KCl are removed as they accumulate.

After the termination of the release of salts by heating, the calcium chloride concentration is increased to 55-60% and the hot calcium chloride is poured into the drums for crystallization during cooling, after which it is released as a commercial product.

Subject invention

After processing the hard formation waters of oil fields to produce magnesium hydroxide, sodium chloride and calcium chloride by evaporation and using milk of lime to precipitate magnesium hydroxide, characterized in that brines containing 90-240 g / l sodium chloride, 10-25 g / g calcium chloride and 4-18 g / l magnesium chloride mixed with small amounts of iron bicarbonate, calcium, magnesium and other salts, are first treated with lime milk with a 5% 10% excess against what is theoretically necessary for sedimentation magnesium hydroxide, then after separating the latter, the uterine brine is evaporated to achieve a calcium chloride concentration of about 50% and the precipitate of common salt and other salts are separated in the usual way, and the remainder of the mother liquor is concentrated to a calcium chloride content of 55-60% and in soszdy for crystallization.