Control of heat balance of aluminum cell

Описание

Тип публикации: статья из журнала

Год издания: 2019

Идентификатор DOI: 10.17580/tsm.2019.09.08

Ключевые слова: A given voltage, AlF3 additives, Methods of controlling the aluminum cell, The heat balance of the aluminum cell, Volt-additives

Аннотация: The productivity and current efficiency of aluminum cell depend on several factors, such as current strength and current distribution over the anode and cathode, electrolyte temperature, alumina content in the electrolyte, and the cryolite ratio (CR) and other parameters interacting with each other. The power consumption in operatiПоказать полностьюonal controlling depends mainly on the anode-cathode distance between the anode base and the metal surface (ID), which is desirable to have as low as possible, but it is important not to cross the border, after which the above process variables will fall into the area of reduced productivity disorders. The important thing in controlling the aluminum cell is to maintain the parameters of the aluminum cell within the target limits established in the technical regulations, and reducing the variations of these parameters allows the process to operate in a stable mode. Modern heat balance controlling of aluminum electrolysis cells should include both algorithms for selecting a given voltage on aluminum cells (this is the control lever for controlling the ID) and algorithms for maintaining technological parameters within specified limits. The article presents a review of methods for studying the thermal balance of aluminum cells, and describes known algorithms and methods for controlling them. An algorithm for the interconnected control of a given voltage and electrolyte composition developed by the authors is given. © 2019, "Ore and Metals" Publishing house. All rights reserved.

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Издание

Журнал: Tsvetnye Metally

Выпуск журнала: Vol. 2019, Is. 9

Номера страниц: 50-55

ISSN журнала: 03722929

Издатель: "Ore and Metals" Publishing house

Персоны

  • Piskazhova T.V. (Department for the Automation of Production Processes in Metallurgy, School of Nonferrous Metals and Materials Science, Siberian Federal University, Krasnoyarsk, Russian Federation)
  • Shaydulin Y.R. (Energy-Saving Cell’s Designs RUSAL Engineering & Technology Centre, Ltd., Krasnoyarsk, Russian Federation)
  • Dontsova T.V. (Department for the Automation of Production Processes in Metallurgy, School of Nonferrous Metals and Materials Science, Siberian Federal University, Krasnoyarsk, Russian Federation)
  • Avdeev Y.O. (Energy-Saving Cell’s Designs RUSAL Engineering & Technology Centre, Ltd., Krasnoyarsk, Russian Federation)

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