SU1677324A1 - Method for drying of sapropel - Google Patents

Abstract

The invention relates to the development of mineral deposits and is intended for drying sapropel. The goal is to intensify the sapropel dehydration process and the rational use of space. The method consists in layering the sapropel pulp on the technological platform, freezing the sapropel, crushing the frozen layer, dewatering and cleaning. Moreover, the harvesting is carried out in the winter period in a dry state by raking it into a storage unit. The dehydration of the sapropel was carried out in the spring and summer, the movement of the layers of sapropel that had fallen on the surface of the storage unit outside the frozen zone. The folding unit is formed in the form of parallel, adjoining at the base of the collar of the frozen sapropel. 1 hp f-ly. f Ё

Description

The invention relates to methods for the development of mineral deposits, in particular sapropel deposits - bottom sediments of water bodies.

The purpose of the invention is to intensify the process of sapropel dehydration and more rational use of space.

The method of drying sapropel from small ponds includes layer-by-layer injecting sapropel pulp to a dipped technological site, freezing sapropel, dewatering and cleaning it, the frozen sapropel layer is crushed, and the sapropel is removed during the winter period by scrapping it into a folding unit, and discharged into a folding unit, and disassembled in the winter period by discharging it into a folding unit, and dismantled it into a folding unit and disassembled it in the winter period by discharging it into a folding unit, and dismantled it into a folding unit, and disassembled it in the winter period by unloading it into a folding unit, and dismantled it into a folding unit, and disassembled it in the dehydration state by dumping it into a folding unit, and dismantled it into a folding unit, and disassembled it in the winter period by unloading it into a folding unit, and dismantled it into a folding unit, and removed it into a folding unit, and removed it into a folding unit during the winter period by dumping it into a folding unit and dismantled it. In the spring-summer period, sapropel is brought about by shifting the layers of sapropel that have fallen off on the surface of a folding unit outside the frozen zone.

The folding unit is formed from two parallel, adjoining at the base of the bottoms of the frozen sapropel.

In the theoretical justification of the method of extraction of sapropel lies the principles of directional changes in mass transfer properties, the structure of sapropel raw materials by changing the technological conditions of production.

The essence of this effect is. that spontaneous water loss (moisture discharge) of the frozen sapropel at the technological site (characterized with surface runoff) was replaced by a process of organized flow of moisture through the porous material, which is crushed frozen sapropel.

Moisture drain at thawing ice of frozen sapropel in this case means (VI VI

WITH

to

more intense. In addition, the crushing of frozen sapropel allows sapropel to be removed from the surface of the technological platform, and the raw materials can be harvested during the winter period, and in the spring and summer the territory of the technological platform can be used almost completely for agricultural needs. The technological platform in winter can be prepared in the immediate vicinity of the reservoir with the use of snow and ice for its embankment, which very significantly reduces costs, the cost of sapropel does not disturb the natural environment around the reservoir. In order to accelerate freezing and facilitate crushing, the sapropel pulp should be made onto the process area in layers of small thickness (10-20 cm). After cleaning the sapropel layer, the next layer can be poured onto the vacated site, etc. This extraction scheme allows sapropel to operate throughout the year. For areas with an average daily temperature, e.g. -5 ° C, stable freezing is provided after 2-3 days, and with snow cover - after 4-6 days.

PRI me R. On the shore of the reservoir, a flat area of 50 x 100 m is chosen, snow cover rolls on the surface, after which it is wrapped in a snow shaft 0.5-0.6 m high and watered with water to increase strength, then using an 8-ROM dredger or an 8F pump -5 alluvium is applied to the technological site of 500 m3 sapropel pulp. At the same time, the average sapropel layer thickness will be 10 cm on average. After 4-5 days after complete freezing of the sapropel layer, the sapropel layer is destroyed (crushed) with the help of a spor taller in a hitch with a caterpillar track. . After cleaning, the sapropel re-injects the pulp onto the site and repeats all operations. In 90 days (three winter months), it is possible to carry out an average of 14 cycles of alluvium-cleaning on one site, i.e. t4 x 500 m3 7000 m sapropel. Moreover, the sapropel of the first 7 cleaning cycles is stored in one collar, and the sapropel of the 7 subsequent cycles - in the second, forming a storage unit of the same collar parallel and in contact with each other at the base of the collar. In the spring and summer, as the layer of sapropel is 20-30 cm thick, it is thawed on the surface of the shoulders, it can be used with a foaming machine or a tractor.

A stack thrower equipped with a shovel for unloading bulk cargo is moved (shifted) from the side surfaces of the shoulders into the space between the shoulders. The frequency of removal of thawed sapropel from the surface of the shoulders is 8-12 days.

The discharge of melt water from the surface of the collar is carried out both by surface runoff and filtration, which provides

0 a higher intensity of sapropel dehydration compared to the prototype. Moving the sapropel into the space between the shoulders prevents it from being carried away by surface water during the thawing of saprope 5 l. In the space between the two shoulders, the wet sapropel is in a kind of container that prevents it from spreading on the platform. By the beginning of the field work, the territory of the technological site can be used by 80% for agricultural purposes. 20% of the territory is occupied by the storage unit of the sapropel mined and access roads to it, i.e. When implementing the method, the efficiency of use of production areas is higher than in the prototype method.

The theoretical calculation of the time of dehydration of the sapropel layer through the filter layer indicates that an increase in

0, the thickness of the sapropel layer is 2 times, the material is depleted at least 4 times longer. So, if in the prototype method, the duration of the sapropel dewatering period in the sump when the thickness of the sapropel pulp inlet layer is 1 g is 2 g, then for a layer thickness of 1.4 m (10 cm x 14 cycles) the cycle time (dehydration) is

0 approximately 4 g, which is 4 times longer than when using the proposed method.

Thus, the use of the method intensifies the process of sapropel dehydration.

Claims (2)

1. The method of drying sapropel, including layered alluvium sapropel pulp on the technological platform, freezing sapropel, its dehydration and cleaning, 0 characterized in that, in order to intensify the process of dewatering and rational use of space, the frozen sapropel layer is crushed, the sapropel is harvested during the winter period in a dehydrated state by dumping it into a storage unit, and the sapropel is dehydrated in the spring-summer period by moving the layers of sapropel thrown on the surface of the storage unit beyond the frozen zone. 2. A method according to claim 1, characterized by the form of parallel, in contact with the fact that the folding unit is formed in the novation of the beads of the frozen sapropel.