SU1180037A1 - Crystallizer - Google Patents

Description

The invention relates to the field of chemical engineering, in particular to water-cooled drum crystallizers, intended for crystallization from saturated organic and inorganic solutions. substances.

The purpose of the invention is to increase productivity by improving the heat transfer ^^ at the refrigerant ¹⁰

and the creation of a drum in a drum, as well as 1 | £ R ^ ^ the refrigerant level in a rub ^ e. · "· '

FIG. 1 shows the crystallization ϊίΡζ general view; in fig. 2 shows section A-A in FIG. one.

The mold contains a drum 1, equipped with a jacket 2 with a compensator 3 for cooling the heat exchange surface, a scraper 4 to prevent rotation of the incrustation on the heat transfer surface of the drum, a device for removing coolant from the cavity of the jacket, made in the form of an annular open pipeline 5 connected to drain hole 6, with which it is achieved guaranteed incomplete filling of the internal cavity of the shirt with a coolant, and this in turn 30

does not allow the coolant in the jacket to rotate with the drum, which contributes to good mixing of the coolant and increase the heat transfer coefficient.35 In addition, the annular open pipe at its free end is equipped with additional drain plugs 7 designed to regulate the level of the coolant 40 in the jacket. The design of the mold also includes a chamber 8 for removal of the suspension, equipped with fittings 9, chamber 10 for draining the coolant, equipped with fitting 11, supporting 45 station 12 and supporting station 13, equipped with rollers 14 and 15, which are installed using bandages 16 and 17 drum 1.

The drive of the drum 1 is 50 from the electric motor 18 through the gear 19 and the gear pair of gears 20 and 21. The gear 21 is rigidly connected to the jacket 2 of the drum 1.

On the side of unloading the suspension into the end ring wall of the jacket 2, a manifold 22 is welded, which is movably connected by means of a seal 23 to a fixed pipe 24 fitted with a fitting 25. The pipe 24 is attached to the rack 26. Supply of the initial solution is carried out through pipe 27. Between the drum 1 and the jacket 2 Anchoring struts 28 are installed along the entire length of the drum. Anchoring struts 28 center the drum 1 relative to the jacket 2. The anchors are movably connected to the drum and rigidly to the jacket.

The mold works as follows.

The original solution is supplied to the inside of the rotating drum 1, cooled from the outside, through the nozzle 27, and the cooled water is fed into the drum’s jacket in countercurrent through the nozzle 25 and is discharged continuously through the open loop conduit 5 and the nozzle 11.

As the solution cools as the drum 1 rotates, crystals fall out of the solution and continuously grow, which, together with the liquid phase, slowly move along the drum towards the discharge side as a suspension.

When the drum rotates, the scraper 4 slides freely on the internal heat transfer surface, preventing the deposition of solid sediment.

The unloading of the mold is carried out continuously, in the process of the mold through the discharge opening in the end wall of the drum 1, and then through the discharge nozzle 9 beyond the limits of the mold.

Before stopping the mold, the supply of quenched water to the jacket 2 of drum 1 stops, and instead of the initial solution, the mother solution is fed into the mold until the internal cavity of the rotating drum is completely washed, after which the mold is stopped, and the remaining mother solution is drained through discharge openings located in the end wall of the drum hand discharge of the mold.

1180037

Claims (3)

1. A CRYSTALLIZER containing a horizontal rotating drum, a shirt coaxially fixed on it, a coolant inlet collector connected by the entrance of a shirt, a fixed box mounted on the input of the product and covering the output of the shirt, the refrigerant output device connected to the output of the shirt, the output device of the products. 3 28 17 2. The mold under item 1, about t and. This is because the annular open pipeline is located along the outer perimeter of the jacket. 2 (17 '( one made in the form of a duct refrigerant duct located outside the collector, a scraper placed inside the drum, and a drive, characterized in that, in order to improve performance by improving heat transfer between the refrigerant and the solution in the drum, the refrigerant output device is designed as an annular open pipeline . 3. The mold on the PC. 1 and 2, characterized in that, in order to regulate the level of the refrigerant in the jacket, the refrigerant output device is equipped with drainage devices mounted on an open-loop annular pipeline. 1180037 Ί8 Fig1 > nineteen one .1180037 2