SU1322044A2 - Device for feeding liquid materials to vacuum chamber of sublimation unit - Google Patents

Abstract

The invention relates to a drying technique and m. used in chemical and microbiological fields. It allows you to reduce the size, reduce the loss of the dried material and energy consumption. The thick-walled heated focusing nozzle of the SFN) 2 is installed coaxially to the nozzle outlet 1. The nozzle G is made in the form of a capillary (K). The FN 2 has an internal diameter that is 10–15 times greater than the diameter of K. The electrically heated plate 3 has a variable width, the smallest in the zone of contact with the FN 2, and is placed around the FN 2 in contact with it in the same plane with the output slice K. the liquid material is supplied to chamber 7 through the nozzle 1 and the FN 2. At the same time, the freezing of the liquid at the outlet of K is eliminated by creating a triple point in this area of pressure. This is achieved in FN 2 due to the intense evaporation of the liquid coming from K. 1 3.p. f-ly, 2 ill. / (L with оо to 1C о 4ia 4 гг гь. /

Description

The invention relates to drying technology, in particular, devices for continuously introducing liquid materials into the vacuum chamber of sublimation drying plants, and can be used in chemical, microbiological and other industries, and is a further improvement of the main author. St.-№ 347538.

The purpose of the invention is to reduce the size, reduce the loss of the dried material and energy consumption.

FIG. shows the proposed device, common to: id; Fig. 2 is a view A in Fig. 1 (on an electrically heated plate).

The device contains, at least, one nozzle 1, made in the form of a capillary with a ratio between the internal diameter and the wall thickness of the capillary, ranging from 1 to 10 and the size of the internal diameter of 0.2-0.4 mm, thick - a heating focusing nozzle 2, mounted coaxially with the outlet of the capillary and having an internal diameter 10-15 times the diameter of the capillary; ale: a heat-heating plate 3 having a variable width placed around the focusing nozzle 2 in the plane of the outlet section of the nozzle I and under Connected via copper tokovodov 4 with a source of 5 voltage.

The nozzle 1 is mounted on a removable flange 6 of the vacuum chamber 7.

The device works as follows.

The source liquid material is supplied to the vacuum chamber 7 of the sublimation unit through the nozzle 1 and nozzles 2. Because at the point of outflow of the liquid material from the nozzle 1 (in the plane of the exit section of the capillary), the heat supplied through the plate 3 creates conditions that prevent the liquid from freezing capillary due to cos

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The tribute in this pressure area is above the triple point (the necessary pressure is created in the nozzle 2 due to the intense evaporation of the liquid coming from the capillary when it interacts with the heated nozzle).

The nozzle 2 is heated by the electric current supplied from the source 5 of the voltage by the copper current leads A to the sheet 3 made of refractory heat-resistant steel with high electrical resistance. Heat from the plate 3 is transferred by heat conduction to the thick-walled copper ry nozzle 2.

The diameter and length of the nozzle is selected based on the need to maintain a pressure greater than triple point in the nozzle and to provide a focusing effect for the flow of droplets of the material being dried.

To reduce energy consumption, an electrically heated plate must have the least Eshrinu in the contact zone with the focusing nozzle 2.

Claims (2)

Invention Formula 1, A device for introducing liquid materials into the vacuum chamber of a sublimation unit according to the author. No. 347538, characterized in that, in order to reduce overall dimensions and reduce material loss, it additionally contains a focusing nozzle mounted coaxially with the outlet of the capillary and having an internal diameter, 10–15 times the diameter of the capillary, and an electrically heated plate placed around the focusing nozzle in contact with it in the same plane with the output section of the capillary. 0 0 45 2. The device according to claim 1, characterized in that, in order to reduce power consumption, the plate has a variable width, the smallest in the zone of contact with the focus: 1) with a nozzle. Hid / Editor G. Gerber Compiled by V. Burov Tehred M.Morgental Proofreader L. Beskid Order 2747/33 Circulation 636 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4