TY - JOUR
T1 - Flowsheet development for the steam gasification of animal manure with subsequent CO2capturing using CaO
T2 - An Aspen Plus® modelling study
AU - Shahbaz, Muhammad
AU - Al-Ansari, Tareq
AU - Al-Nouss, Ahmed
AU - McKay, Gordon
N1 - Publisher Copyright:
Copyright © 2021 Inderscience Enterprises Ltd.
PY - 2021/11/17
Y1 - 2021/11/17
N2 - Animal manure is one of the important wastes present in the state of Qatar and worldwide. The aim of the current investigation is to develop a flowsheet model for the steam gasification of animal manure with CaO for CO2 capturing using Aspen Plus through the Gibbs-free energy minimisation model. The effect of the three key variables, namely, the temperature (600°C-800°C), the steam/manure ratio of (0.5-2), and the CaO/manure ratio of (0-2) on syngas production was analysed. The CO2 content reduced from 19 to less than 1 vol% and the H2 increased from 66 vol% to 98 vol% by varying the CaO/manure ratio from 0-2 at a high temperature of 700°C and steam/manure ratio of 1.5. Whereas the CO2 reduced from 15 vol% to 11 vol% at an elevated temperature of 850°C. The cost of H2/kg is $40.44/kg with CaO and $43.17/kg without CaO showing the benefits of its usage. The calculated rate of return and payback period for the manure gasification without CaO utilisation demonstrate higher values than the case with CaO utilisation at approximately 56.60% and 1.77 years compared to 49.02% and 2.04 years, respectively.
AB - Animal manure is one of the important wastes present in the state of Qatar and worldwide. The aim of the current investigation is to develop a flowsheet model for the steam gasification of animal manure with CaO for CO2 capturing using Aspen Plus through the Gibbs-free energy minimisation model. The effect of the three key variables, namely, the temperature (600°C-800°C), the steam/manure ratio of (0.5-2), and the CaO/manure ratio of (0-2) on syngas production was analysed. The CO2 content reduced from 19 to less than 1 vol% and the H2 increased from 66 vol% to 98 vol% by varying the CaO/manure ratio from 0-2 at a high temperature of 700°C and steam/manure ratio of 1.5. Whereas the CO2 reduced from 15 vol% to 11 vol% at an elevated temperature of 850°C. The cost of H2/kg is $40.44/kg with CaO and $43.17/kg without CaO showing the benefits of its usage. The calculated rate of return and payback period for the manure gasification without CaO utilisation demonstrate higher values than the case with CaO utilisation at approximately 56.60% and 1.77 years compared to 49.02% and 2.04 years, respectively.
UR - http://www.scopus.com/inward/record.url?scp=85120181459&partnerID=8YFLogxK
U2 - 10.1504/IJGW.2021.118999
DO - 10.1504/IJGW.2021.118999
M3 - Article
AN - SCOPUS:85120181459
SN - 1758-2083
VL - 25
SP - 259
EP - 270
JO - International Journal of Global Warming
JF - International Journal of Global Warming
IS - 3-4
ER -