An electrochemical reactor with a rotating cylinder electrode is analysed for the production of colloidal sulphur by oxidation of sulphide ions with a concentration of 2 g dm(-3) in alkaline solutions at 80 degrees C. The anode, coated with lead, was either a smooth cylinder or a three-dimensional one. The formation of polysulphides takes place in a wide range of potential of 0 to 1.2 V, against saturated calomel electrode (SCE), at a constant current density, which is independent on the rotation speed for values higher than 100 rpm. For the smooth anode the space time yield was 0.4 kg m(-3) h(-1). However, this parameter was increased 5 times in the potential range of 0.8 V to 1.2 V, vs. SCE, by using a three-dimensional structure with a bed depth of 8 mm. The specific energy consumption was 11.7 kWh kg(-1) with a current efficiency near 100%. When the sulphide ions were replenished by dissolution of hydrogen sulphide from a gas stream a further increase of the space time yield to 3.6 kg m(-3) h(-1) was achieved. At the end of the experiments the solution was acidified forming colloidal sulphur particles of different shapes with an average size of 5 mu m. (C) 2017 Elsevier Ltd. All rights reserved.