A finite-element model of the electrodeposition of aluminium from chloroaluminate ionic liquids is introduced. The purpose of this model is to give an explanation for the reasonable current densities that can be achieved in chloroaluminate ionic liquids despite the fact that the electrochemically active Al(2)Cl(7)(-) complexes are transformed into inactive AlCl(4)(-) complexes during the electrodeposition of aluminium. The obtainable current density in the electrodeposition from chloroaluminate ionic liquids strongly depends on the chemical rate constants for establishing the equilibrium Al(2)Cl(7)(-) + Cl(-) reversible arrow 2AlCl(4)(-). A high current (up to 3000 A m(-2)) was found for both high and low rate constants whereas a minimum current (200 A m(-2)) was found for intermediate rate constants due to kinetics and thermodynamics. The model is compared to experiments conducted in the ionic liquid AlCl(3) - [C(2)mim]Cl (60/40 mol%) where [C(2)mim] Cl is 1-ethyl-3-methylimidazolium chloride. (C) 2011 The Electrochemical Society. [DOI: 10.1149/1.3623781] All rights reserved.