RU2401294C2 - Decontamination of sludge of petrochemical processes - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: proposed method comprises mixing, for example by excavation of oil-contaminated soil at refinery sewage disposal plant with petrochemical process sludge in the ratio of 9:8:1 (wt parts), agrotechnical and agrochemical treatment of obtained mix consisting in application of mineral and organic fertilisers and phytorecultivation.

EFFECT: reduced content of oil products and concentration of heavy metals in sludge not exceeding MPC.

2 cl, 3 tbl

Description

The invention relates to methods for the treatment of sludge from a petrochemical plant. The invention makes it possible to clean sludge collectors for their further technological use and to reduce the toxicity of sludge from the third to fourth hazard class. A known method of neutralizing toxic petrochemical waste by heat treatment [1].

The disadvantage of this method is the high energy consumption, incomplete combustion of organic waste, and as a result the appearance of more toxic compounds, as well as the further disposal of the solid phase obtained after heat treatment.

A common way to utilize the contents of sludge pits is to cure them by adding an adsorbent, mineral coagulant and hardener [2]. Its main disadvantage is the narrow scope of use of the obtained substance.

The closest method to the disposal of the contents of the sludge collector of the petrochemical industry is the method of detoxification of oil-contaminated soil, which is the contents of the sludge barn in a specially formed “operational” field [3]. The disadvantages of the prototype are the lack of recycling efficiency and the duration of the process.

The objective of the invention is to reduce the content of petroleum products and reduce the concentration of heavy metals in the sludge sludge not exceeding the MPC.

The task is achieved according to claim 1 of the invention by the method of detoxification of sludge from petrochemical plants, including mixing, for example, excavation, at a landfill of oil-contaminated soil, activated sludge from treatment facilities of a refinery and sludge from petrochemical plants in the ratio, wt.h., 9: 8 : 1 followed by agrotechnical, agrochemical treatment of the mixture, the application of mineral and organic fertilizers and phytorecultation.

According to claim 2 of the claims, activated sludge from a refinery contains, wt.%:

Solids fraction 20.6-21.2 Including organic nitrogen 7.5-7.6 Ammonia nitrogen 0.1-0.2 Residual oil 0.05-0.15 Heavy metals 0.02-2.0 Water rest

Thanks to the combined processing, the content of heavy metals in the resulting mixture does not exceed the maximum permissible concentration.

The above set of features allows you to get the following technical result - a decrease in the content of petroleum products and a decrease in the concentration of heavy metals in the sludge sediment, not exceeding the MPC.

The technical result is achieved by reducing the concentration of organic compounds, which are the waste of petrochemical production and the concentration of residual oil contained in oil-contaminated soil. A decrease in the concentration of heavy metals in the sludge is due to its dilution by mixing with activated sludge and oil-contaminated soil.

Changes in the ratio of activated sludge and oil-contaminated soil to sludge sludge is possible only in the direction of their increase, otherwise detoxification will be ineffective.

The following are examples of the invention.

Example 1. The neutralization of sludge from petrochemical production was carried out at the technological site in the field, for example, by excavation, at a landfill of oil-contaminated soil, activated sludge from oil treatment plant treatment facilities and sludge from petrochemical plants in the ratio, parts by weight, 9: 8: 1. The process of processing sludge sludge was as follows: excavation, agrotechnical and agrochemical treatment, the introduction of mineral and organic additives and phytomelioration. The processing results are presented in table 1. The composition of the used sludge from wastewater treatment plants of petrochemical plants, wt.%: The proportion of solids is 20.6-21.2, incl. organic nitrogen 7.5-7.6; ammonium nitrogen 0.12-0.23; residual oil 0.05-0.15; heavy metals 0.02-2.00; water the rest.

Example 2. Reclamation of oil-contaminated soil was carried out at the technological site. Its processing corresponded to the procedure described in example 1. The results obtained are shown in table 2.

Example 3. Joint reclamation of sludge sludge from petrochemical production, oil-contaminated soil and activated sludge from sewage treatment plants was also carried out at the technological site while maintaining the procedure described in the previous two examples. Table 3 shows the results of the work.

Thus, in the proposed method, the neutralization of sludge from petrochemical production containing toxic organic waste and heavy metals, as well as the reduction of residual oil in oil-contaminated soil, occurs due to a synergistic effect when they are mixed with activated sludge from treatment facilities.

From the description and practical application of the present invention, specialists will be obvious and other private forms of its implementation. This description and examples are considered as material illustrating the invention, the essence of which and the scope of patent claims are defined in the following claims, a combination of essential features and their equivalents.

Literature.

1. Karegin A.G. et al. Calculation and optimization of the plasma-catalytic utilization of oil and drill cuttings. New technologies for the treatment of oil-contaminated water, soil, processing and disposal of oil sludge. Thes. doc. Int. conf. Moscow. 2001.S. 230.

2. 3osin A.P. et al. St. Verad is an adsorbent for the collection of petroleum products of organic and toxic liquids. New technologies for the treatment of oil-contaminated water, soil, processing and disposal of oil sludge. Thes. doc. Int. conf. Moscow. 2001.p. 58-60.

3. Ilarionov S.A. Ecological aspects of the restoration of oil-contaminated soils. Yekaterinburg. 2004.194 s. (prototype).

Table 1 The results of the combined treatment of sludge sludge oil contaminated soil and activated sludge (example 1) Metals, mg / kg With org% Ost. oil,% NH ₄ ⁺ ,% N org,% Ost. oil,% NH ₄ ⁺ ,% N org,% Hazard Class Platform 1 (Pl 1) Area 2 (Pl 2) Pl 1 Pl 2 Pl 1 Pl 1 Pl 1 Pl 2 Pl 2 Pl 2 Pl 1
Pl 2 Before processing With 376.18 359.45 4.38 3.98 8.13 0.18 5.78 9.16 0.23 6.47 3 Cu 2645.17 3154.25 Hg 0.08 0.12 Pb 25.57 0.24 Cr 351.68 321.46 Zn 818.97 672.37 After processing With 21.16 20.75 1.87 2.15 0.48 0.09 2,37 0.51 0.08 2.15 four Cu 151.53 159.47 Hg traces traces Pb 1.05 1.39 Cr 18.65 17.36 Zn 47.74 38.24

table 2 The results of the combined treatment of sludge sludge oil contaminated soil and activated sludge (example 2) Metals, mg / kg With org% Ost. oil,% NH ₄ ⁺ ,% N org,% Ost. oil,% NH ₄ ⁺ ,% N org,% Hazard Class Platform 1 (Pl 1) Area 2 (Pl 2) Pl1 Pl2 Pl1 Pl1 Pl1 Pl2 Pl2 Pl2 Before processing With 399.28 399.61 5.34 6.71 10.25 0.19 6.24 11.71 0.27 7.62 3 Cu 2980.00 3334.76 Hg 0.12 0.16 Pb 29.67 31.53 Cr 27.62 27.01 Zn 834.80 669.18 After processing With 24.71 23.56 2.03 2.41 0.55 0.12 2.61 0.43 0.11 2,34 four Cu 178.18 196.29 Hg traces traces Pb 1,57 1,66 Cr 22.47 20.34 Zn 50.03 41.21

Table 3 The results of the combined treatment of sludge sludge oil contaminated soil and activated sludge (example 3) Metals, mg / kg With org% Ost. oil,% NH ₄ ⁺ ,% N org,% Ost. oil,% NH ₄ ⁺ ,% N org,% Hazard Class Platform 1 (Pl 1) Site 2 (Pl2) Pl 1 Pl 2 Pl 1 Pl 1 Pl 1 Pl 2 Pl 2 Pl 2 Pl 1
Pl 2 Before processing With 412.43 422.17 6.87 8.06 12.87 0.21 7.54 13.6 0.31 8.51 3 Cu 3212.61 3618.32 Hg 0.14 0.19 Pb 29.67 31.53 Cr 391.56 386.63 Zn 854.43 725.27 After processing With 26.75 27.48 2,32 2.67 0.47 0.16 3.45 0.52 0.14 2.62 four Cu 196.82 214.69 Hg traces traces Pb 1.86 1.84 Cr 24.63 23.53 Zn 52.26 44.35

Claims (2)

1. The method of detoxification of sludge from petrochemical plants, including mixing, for example, by excavation at a landfill of oil-contaminated soil, activated sludge from treatment facilities of an oil refinery and sludge from petrochemical plants in the ratio of parts by weight 9: 8: 1 followed by agrotechnical, agrochemical treatment of the mixture, the application of mineral and organic fertilizers and phytorecultation. 2. The method according to claim 1, characterized in that the activated sludge treatment facilities of the oil refinery contains, wt.%:
Solids fraction 20.6-21.2 Including organic nitrogen 7.5-7.6 Ammonia nitrogen 0.1-0.2 Residual oil 0.05-0.15 Heavy metals 0.02-2.0 Water rest