Electrolytic cell for metal electrowinning

The invention claimed is: 1. Metal electrowinning cell comprising: an anode with a catalytic surface towards oxygen evolution reaction; a cathode suitable for metal deposition from an electrolytic bath, arranged parallel to said anode; an electrically conductive porous screen interposed between said anode and said cathode, said electrically conductive porous screen is in direct electrical connection with the anode through an anode hanger, said electrically conductive porous screen having an oxygen evolution potential at least 100 mV higher than the oxygen evolution potential of said anode under a current density of 450 A/m 2 , wherein the electrically conductive porous screen does not interfere with ionic conduction between the anode and the cathode. 2. The cell according to claim 1 wherein said anode consists of a metal substrate, optionally made of titanium, coated with a catalyst containing noble metal oxides. 3. The cell according to claim 1 wherein said porous screen consists of a titanium mesh or punched sheet provided with a coating catalytically inert towards oxygen evolution reaction. 4. The cell according to claim 3 wherein said catalytically inert coating comprises tin oxide at a specific loading higher than 5 g/m 2 . 5. The cell according to claim 1 wherein said anode and said porous screen are electrically connected through a resistor having an electrical resistance of 0.01 to 100Ω. 6. The cell according to claim 1 further comprising a non-conductive porous separator interposed between said anode and said porous screen. 7. The cell according to claim 1 wherein said anode is inserted within an envelope consisting of a permeable separator surmounted by a demister. 8. The cell according to claim 1 wherein said anode and said cathode are arranged at a mutual distance of 25-100 mm and said anode and said porous screen are arranged at a mutual distance of 1-20 mm. 9. Electrolyser for primary metal extraction from an electrolytic bath comprising a stack of cells according to claim 1 in mutual electrical connection. 10. Process for copper manufacturing starting from a solution containing cuprous and/or cupric ions comprising electrolysing the solution inside an electrolyser according to claim 9 .