SU808086A1 - Electrode evaporator - Google Patents

Description

(54) STEAM ELECTRODE APPARATUS

The invention relates to evaporation electrode apparatuses designed to concentrate electrically conductive solutions and suspensions in a thermal way by separating the Joule propeller by passing an alternating electric current of industrial frequency through them, and can be used in the chemical, microbiological, food, pharmaceutical and other industries. A evaporation electrode apparatus is known, comprising a housing with inlet and outlet nozzles and a vapor phase outlet, a heat generation unit with electrodes 1. The solution in the evaporation electrode apparatus moves due to the forces of natural circulation and the residence time in the apparatus of individual masses of the solution can be several hours, . that when concentrating thermolabile solutions is undesirable. In addition, at the electrodes of the evaporation electrode apparatus, under certain operating conditions, film boiling of the solution occurs, which lowers the efficiency of its operation. The purpose of the invention is to increase the efficiency of the evaporation electrode apparatus. This goal is achieved by the fact that the heat release unit is made in the form of shelves spaced apart by height, each shelf provided with flat electrodes mounted along the ends of the shelf, with overflow tubes adjustable in height, and in the middle part an insert of parallelly installed protrusions. electrode apparatus. The evaporating electrode apparatus comprises a housing 1, a heat generation unit 2, horizontal flat rectangular shelves 3 spaced apart by the body 1, plane-parallel electrodes 4, overflow tubes 5 adjustable in height, inserts of parallel-installed projections 6, solution inlet 7, outlet solution 8 , a pipe 9 for removal of the vapor phase and drain holes 10, parallel channels 11 for flow of the solution. To ensure reliable electrical conductivity of the circuit in the zones of solution flow with

one shelf to another, these portions are short-circuited with a metallic conductor. Based on safety requirements, it is necessary that the solution at the entrance and exit of the apparatus had the potential of a grounded neutral. Therefore, the electrical connection circuit of the shelves is designed with the necessary use of a grounded neutral in the areas of entry and exit from the apparatus.

The drawing shows the connection using 3 phases according to the “star” scheme, two shelves connected in parallel for each phase.

Evaporating electrode apparatus operates as follows.

The solution is fed through the nozzle 7 of the solution inlet into the end zone of the first shelf 3, flows through parallel, ducts 11 to the opposite side and through the drain holes 10, and, if necessary, through the height-adjustable overflow tube 5, flows to the underlying shelf 3. Passing through the solution the electric current heats it. The solution boils. The vapor phase generated in this way is discharged through the pipe 9 to discharge the vapor phase. One stripped off solution is withdrawn from the upper electrode apparatus through the outlet 8 of the solution.

In the proposed evaporation electrode apparatus, the residence time of the solution in the apparatus is equal to the flow time of the solution through the apparatus and is much shorter than in the apparatus with a circulation loop. In addition, there is practically no possibility of delaying any masses of the solution in the apparatus. These advantages allow minimizing the loss of valuable qualities of the solution during the heat treatment of thermolabile solutions, and by reducing the residence time, the process is conducted at higher temperatures, which increases the efficiency of the evaporation electrode apparatus.

Claims (1)

Invention Formula The evaporative electrode apparatus, comprising a housing with inlet and outlet nozzles and a vapor phase outlet, a heat generation unit with electrodes, characterized in that, in order to increase work efficiency, the heat generation unit is made in the form of shelves spaced in height, and each shelf is provided with flat electrodes installed at the ends of the shelf, overflow tubes, adjustable at height, and in the middle part of the insert of parallel-installed tabs. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 445441, cl. B 01 D 1/06, 1971. .2 f nivvtfxtrmnrirfTaKKxxxxxxxxxKKfj jau ten  Pvggg ob fxA fxxx obvs gsaoooooooq