%0 Journal Article
%@ 00084034
%A Hussain, Z.
%A Sulaiman, S.A.
%A Gul, H.
%A Farooq, S.
%A Khan, K.M.
%A Gulab, H.
%A Naz, M.Y.
%D 2016
%F scholars:7988
%I Wiley-Liss Inc.
%J Canadian Journal of Chemical Engineering
%K Batch data processing; Catalysts; Chemical analysis; Food processing; Hydrocarbon refining; Hydrocarbons; Kerosene; Ketones; Oils and fats; Pyrolysis, Boiling-point temperature; Catalytic pyrolysis; Optimum conditions; Oxygenated compounds; Reaction temperature; Reactor temperatures; Resource recovery; Static conditions, Gasoline
%N 1
%P 94-100
%R 10.1002/cjce.22368
%T Conversion of waste-soap and soap-like materials into diesel and gasoline by catalytic pyrolysis using virgin soap as model
%U https://khub.utp.edu.my/scholars/7988/
%V 94
%X In this work, soap was converted into a hydrocarbon-rich product through catalytic pyrolysis using cement as a catalyst. The intention was to develop a new economical and effective method for preparing diesel and gasoline from soap waste in food processing. The optimum conditions for pyrolysis were investigated in a batch process under static conditions at different reactor temperatures, catalyst amounts, and reaction durations. The resulting oil product was analyzed using GC-FID, GC-MS, and FTIR. The best yield occurred at a reaction temperature of 400°C for 60min with 0.3 g/g (30 mass) catalyst in soap waste, which resulted in 0.71 g/g (71 mass) hydrocarbons with small fractions of pyran, ketone, and oxygenated compounds of mixed functional groups. The resulting liquid pyrolysate mainly consisted of diesel-like oil with a small fraction of gasoline and some oils that had boiling-point temperature ranges similar to kerosene. © 2016 Canadian Society for Chemical Engineering.
%Z cited By 8