Molten plastics are characterised with high viscosity and low thermal conductivity. Applying falling film pyrolysis reactor to deal with waste plastics can not only improve heat transfer efficiency, but also solve the flow problem. In this work, the pyrolysis process of molten polypropylene (PP) in a vertical falling film reactor is experimentally studied, and the influence of heating temperature on pyrolysis products is discussed. It has been found that with the temperature increases from 550 degrees C to 625 degrees C, the yield of pyrolysis oil decreases from 74.4 wt% (+/- 2.2 wt%) to 53.5 wt% (+/- 1.3 wt%). The major compositions of the pyrolysis oil are C-9, C-12 and C-18, and beta-scission reactions are predominant. The content of the light fraction C-6-C-12 of pyrolysis oil is 69.7 wt%. Compared with other pyrolysis reactors, the yield of oil from vertical falling film pyrolysis reactor is slightly higher than that from tubular reactor, equal to that from rotary kiln reactor, and slightly lower than that in medium fluidised-bed reactor. (C) 2017 The Chemical Industry and Engineering Society of China, and Chemical Industry Press. All rights reserved.