详情
Name: Chemical Industry Titanium Sodium Chlorate Electrolytic
Cell
Item No.: EL***1
Specifications:
Technical parameters:
Anode coating for chlorates:
Electrolyte: NaCl ******0g/L+HCL+NaCLO3
Current density: ********0A/M2
Temperature: ****0°C
Service life: >6years
Ph value: 5.**6.5
Main components: RuO2+IrO2+TiO2+SnO2+X
Features:
1. Electrolyzers for producing sodium chlorate and potassium
chlorate.
2. Low consumption power.
3. High working efficiency.
Application:
Electrochemistry.
1. Effluent treatment
2. Organic electrosynthesis
3. Oxidant production and regeneration such as perchloride, iodate,
chromic anhydride and persulphate etc.
4. Industrial electroplating such as Zn and Cr plating etc.
Introduction:
An electrolytic cell decomposes chemical compounds by means of
electrical energy, in a process called electrolysis; the Greek word
lysis means to break up. The result is that the chemical energy is
increased. Important examples of electrolysis are the decomposition
of water into hydrogen and oxygen, and bauxite into aluminium and
other chemicals.
An electrolytic cell has three component parts: an electrolyte and
two electrodes (a cathode and an anode). The electrolyte is usually
a solution of water or other solvents in which ions are dissolved.
Molten salts such as sodium chloride are also electrolytes. When
driven by an external voltage applied to the electrodes, the
electrolyte provides ions that flow to and from the electrodes,
where charge-transferring, or faradaic, or redox, reactions can
take place. Only for an external electrical potential (i.e.
voltage) of the correct polarity and large enough magnitude can an
electrolytic cell decompose a normally stable or inert chemical
compound in the solution. The electrical energy provided undoes the
effect of spontaneous chemical reactions.