RU2206511C1 - Pond-evaporator for evaporating freshening residuals of high-mineralized brines - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: pond-evaporator has banked ground designed with slope of 0.001 and conforming at a maximum to territory relief in lower part of ravine or land with directed slope. Pond-evaporator is provided with sections hydraulically communicating with one another and equipped with anti-percolation screen. Sections are separated with earth dams provided with water discharges. Evaporative plates of porous, preferably black, material with increased capillary effect are laid in equally spaced relation in each section of pond-evaporator over the entire surface thereof, with spacing being equal to 50-100 mm. Evaporative plates are interconnected through flexible binders. Pond- evaporator of such construction allows residual high-mineralized brines to be evaporated with the use of natural climatic factors, in particular, under the action of solar rays and may be used for utilization of brines in irrigated agriculture and part of water for industrial and agricultural water supply systems. EFFECT: increased efficiency in utilizing high- mineralized brines without contaminating environment. 2 dwg

Description

 The invention relates to agriculture, in particular to technical means for evaporating residual desalination highly mineralized brines using natural climatic factors, in particular under the influence of solar radiation, and is intended for the disposal of brines in irrigated agriculture, and part of the water for industrial and agricultural water supply.

 A known pond-evaporator of industrial wastewater, including an anti-filtration device, drainage, a spillway and a bulk dam (dam) from local clay soils, forming earth tanks with the required area by fencing the territory (see. Hydraulic structures / G.V. Zheleznyakov, Yu. A. Ibad-Zade, P.L. Ivanov, etc. Under the general editorship of V.P. Nedrigi. - M.: Stroyizdat, 1983. - P. 512-513. (Reference designer)).

 The disadvantages of this evaporation pond are the high cost, the complexity of the design and the low efficiency of the evaporation of brines.

The closest analogue to the claimed object is an evaporation pond for receiving and evaporating in the warm season residual brine as part of a desalination plant for saline water, which is a carefully planned and bunded area located in the lower part of the beam (or area with a directed slope) and maximally inscribed in the relief (SU, copyright certificate 1786005 A1, M. class. ⁵ C 02 F 1/22. Installation for desalination of mineralized waters / A.G. Alimov, N.E. Varlamov, A.D. Bryzgalin, V. E Marinenko, I.I. Kontorov h, R. A. Stated Balbec 11.09.1989;. published 01.07.1993, Bul 1)...

 The disadvantages of the described evaporation pond include low efficiency of evaporation of brines and insufficient environmental reliability. In addition, the specified evaporation pond, designed for receiving and evaporation of residual brines, has limited functionality, since it is not divided into separate compartments.

 The essence of the claimed invention is as follows.

 The problem to which the claimed invention is directed is to create conditions for intensive evaporation of residual (from desalination of mineralized water) brines and to prevent losses in their filtration, expanding the functionality of the evaporation pond.

 The technical result that can be obtained by carrying out the invention is to increase the efficiency of operation and environmental reliability of the evaporation pond.

 The specified technical result during the implementation of the invention is achieved by the fact that in a known evaporation pond for evaporation of highly mineralized brines remaining from desalination, containing a planned and bunded area arranged in the lower part of the beam taking into account the topography and the preferred directional slope, according to the invention it is provided with hydraulically connected between compartments separated by earth lintels, water outlets made in them, and in each compartment anti-filter the tap and evaporation plates of a porous, preferably black material with high capillary properties, are laid at a distance of 50-100 mm from each other over the entire surface of the evaporation pond and are interconnected by flexible connections.

 The analysis of the prior art by the applicants, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed us to establish that the applicants did not find an analogue characterized by features identical to all the essential features of the claimed invention.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the compliance of the claimed invention with the requirement of "inventive step", the applicants conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention from the closest analogue, the results of which show that the claimed invention does not explicitly follow from the prior art, since from the prior art determined by the applicants, it is not revealed the influence provided for by the essential features of the claimed invention I am transforming to achieve a technical result.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 The invention is illustrated by drawings.

 Figure 1 shows a pond-evaporator for evaporation of residual from desalination highly saline brines, plan view; figure 2 is a section aa in figure 1.

 Information confirming the possibility of implementing the invention are as follows.

 The evaporation pond for evaporation of highly mineralized brines residual from desalination (see Figs. 1 and 2) contains interconnected compartments 1, 2, 3, separated by earthen bridges 4 and water outlets 5, guard shafts (dams) 6, an anti-filter screen 7 in each compartment 1-3 and evaporation plates 8 of porous, preferably black material with high capillary properties, laid at a distance of 50-100 mm from each other over the entire surface of the evaporation pond and interconnected by flexible connections 9.

 The evaporation pond is equipped with a well-known control and measuring complex (not shown in the drawings) for monitoring the level of mineralization of the brines remaining from desalination in compartments 1, 2.

 The evaporation pond operates as follows.

 Residual brines from desalination of mineralized water through a collector or channel (not shown) enter the receiving compartment 1, from which they are transferred to compartment 2. The residual brines accumulated in compartment 2 are evaporated to saturated brines with a salt content of 100-300 g / l and then are transferred to compartment 3 of the evaporation pond, where they are finally evaporated to brine or solid residue. Rapeseed and salt in compartment 3 of the evaporation pond are either to be disposed of, or buried, or used using special technologies (due to their popularity, they are not the subject of the invention) in various sectors of the national economy.

 The process of evaporation of residual brines in compartments 1, 2, 3 of the evaporation pond proceeds as follows. The mineralized water of the accumulated residual brines moves capillary towards the vertical and horizontal surfaces of the evaporation plates 8 of a porous, preferably black material with high capillary properties located on the water surface of the evaporation pond, and, reaching them, evaporates. The blackened evaporation plates 8 of porous material intensively absorb solar radiation, heat up and transfer the received energy (heat) to the evaporating moisture of the residual brines. Due to the fact that the moisture content of the brines in the evaporation plates 8 of a porous material with high capillary properties does not exceed its lowest moisture capacity (HB), the degree of interaction of air and heat flows on the surfaces of these plates increases and the evaporation process is significantly intensified, i.e. is accompanied by a complete the transfer of the evaporating moisture of the brines into water vapor and the precipitation of salts present in them. As the crystallized salts accumulate on the surface of the evaporation plates 8, the mass of the plates increases and they are temporarily submerged in mineralized water, due to which the accumulated salts are self-removed from the surface of the evaporation plates 8 and they take their initial position. In this case, the salt concentration in the evaporation pond will constantly increase. If necessary, it is possible to carry out additional heating of the evaporation plates 8 forcibly using a special device (not shown).

 Due to the presence of an anti-filtration screen 7 provided in the bed of the evaporation pond, losses from filtering highly mineralized residual brines are excluded from it, which prevents technogenic pollution of surrounding soils and aquifers.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:
- a tool embodying the claimed invention in its implementation, is intended for use in industrial, agricultural water supply and irrigated agriculture;
- for the claimed invention in the form described in the claims, the possibility of its implementation using the methods and methods described above or known prior to the priority date is confirmed;
- a tool embodying the claimed invention in its implementation, is able to ensure the achievement of the perceived by the applicant technical result.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (1)

 Evaporation pond for evaporation of highly mineralized brines remaining from desalination, including a planned and bunded area arranged in the lower part of the beam taking into account the topography and the preferred directional slope, characterized in that it is equipped with hydraulically interconnected compartments separated by earthen bridges made in them water outlets, and in each compartment an anti-filter screen and evaporation plates made of porous, preferably black, high capillary material These properties are laid at a distance of 50-100 mm from each other over the entire surface of the evaporation pond and are interconnected by flexible bonds.

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