Advertisements
Advertisements
Questions
Explain the principle of the method of electrolytic refining of metals. Give one example.
Outline the principles of refining of metals by the following methods: Electrolytic refining
Write the principle of electrolytic refining.
Advertisements
Solution 1
Electrolytic refining:
Principle: In this method, an anode of a block of impure metal and a cathode of a thin sheet of pure metal, are suspended in an electrolyte solution which is the solution of a soluble salt of the metal usually a double salt of the metal. For example, the purest copper is obtained by an electrolytic refining method. A slab of impure copper as the anode and a thin sheet of pure copper as the cathode are dipped in the electrolyte which is an acidic solution of copper sulphate. On passing electricity through the cell, copper is dissolved from the anode and deposited on the cathode.
Anode: Cu(s) → Cu 2+ (aq) + 2e-
Cathode: Cu2+ (aq) +2e- → Cu (s)
The impurities of iron, nickel, zinc and cobalt present in blister copper being more electropositive pass into solution as soluble sulphates. The impurities of antimony, selenium, tellurium, silver, gold and platinum being less electropositive are not affected by CuSO4-H2SO4 solution. Therefore, these impurities get settle down under the anode as anode mud or anode sludge.
Solution 2
Electrolytic refining - Electrolytic refining is the process of refining impure metals by using electricity. In this process, impure metal is made the anode and a strip of pure metal is made the cathode. A solution of a soluble salt of the same metal is taken as the electrolyte. When an electric current is passed, metal ions from the electrolyte are deposited at the cathode as pure metal and the impure metal from the anode dissolves into the electrolyte in the form of ions. The impurities present in the impure metal gets collected below the anode. This is known as anode mud.
Anode : `M -> M^(n+) + "ne"^-`
Cathode:` M^(n+) + "ne"^(-) -> M`
Solution 3
Electrolytic refining:
Electrolytic refining is the process of refining impure metals by using electricity. In this process, impure metal is made the anode and a strip of pure metal is made the cathode. A solution of a soluble salt of the same metal is taken as the electrolyte. When an electric current is passed, metal ions from the electrolyte are deposited at the cathode as pure metal and the impure metal from the anode dissolves into the electrolyte in the form of ions. The impurities present in the impure metal gets collected below the anode. This is known as anode mud.
Anode : `M -> M^(n+) + "ne"^-`
Cathode : `M^(n+) + "ne"^(-) -> M`
APPEARS IN
RELATED QUESTIONS
Name the method used for the refining of Nickel metal.
Name the method used for the refining of zirconium.
What is the principle behind the zone refining of metals?
Describe the roles of the following: NaCN in froth floatation process
Name the common elements present in the anode mud in electrolytic refining of copper. Why are they so present?
What criterion is followed for the selection of the stationary phase in chromatography?
Describe ‘froth floatation process’ for concentration of sulphide ore.
Indicate the principle behind the method used for the refining of Nickel.
Outline the principles behind the refining of metals by the following methods:
Zone refining method
Write the principle behind the following methods of refining:
Vapour-phase refining
Zone refining is based on the principle that ______.
Assertion: Zirconium can be purificed by Van Arkel method.
Reason: ZrI4 is volatile and decomposes at 1800 K.
Assertion: Zone refining method is very useful for producing semiconductors.
Reason: Semiconductors are of high purity.
Electrolytic reduction method is used for the extraction of ______.
Refining using liquation method is the most suitable for metals with ______.
Describe a method for refining nickel.
Describe a method for refining nickel.
Describe a method for refining nickel.
Describe a method for refining nickel.
