TY - JOUR
T1 - Low Impact Methanol Production from Sulfur Rich Coal Gasification
AU - Bassani, Andrea
AU - Bozzano, Giulia
AU - Pirola, Carlo
AU - Ranzi, Eliseo
AU - Pierucci, Sauro
AU - Manenti, Flavio
PY - 2017
Y1 - 2017
N2 - In economy nowadays, methanol is already a key compound widely employed as building block for producing intermediates or synthetic hydrocarbons, solvent, energy storage medium, and fuel. In recent times, methanol has been employed in a number of innovative applications. It is a clean and sustainable energy resource that can be produced starting from different sources traditional or renewable: natural gas, coal, biomass, landfill gas and power plant/industrial emissions. In this work is proposed an innovative low impact process for methanol production starting from coal gasification. The most important features, instead the traditional ones, are the lower emissions of CO2 (about 2.5%) and the surplus production of methanol (about 1.7%) without any addiction of primary sources. Moreover, it is demonstrated that a coal charges with a high sulfur content means a higher reduction of CO2 emissions. The key idea is the application of AG2STM technology that is a completely new effective route of processing acid gases: H2S and CO2 are converted into syngas (CO and H2) by means of a regenerative thermal reactor.
AB - In economy nowadays, methanol is already a key compound widely employed as building block for producing intermediates or synthetic hydrocarbons, solvent, energy storage medium, and fuel. In recent times, methanol has been employed in a number of innovative applications. It is a clean and sustainable energy resource that can be produced starting from different sources traditional or renewable: natural gas, coal, biomass, landfill gas and power plant/industrial emissions. In this work is proposed an innovative low impact process for methanol production starting from coal gasification. The most important features, instead the traditional ones, are the lower emissions of CO2 (about 2.5%) and the surplus production of methanol (about 1.7%) without any addiction of primary sources. Moreover, it is demonstrated that a coal charges with a high sulfur content means a higher reduction of CO2 emissions. The key idea is the application of AG2STM technology that is a completely new effective route of processing acid gases: H2S and CO2 are converted into syngas (CO and H2) by means of a regenerative thermal reactor.
KW - CO2 reuse
KW - Energy (all)
KW - Improved coal gasification
KW - Methanol synthesis
KW - Syngas from emissions
KW - CO2 reuse
KW - Energy (all)
KW - Improved coal gasification
KW - Methanol synthesis
KW - Syngas from emissions
UR - http://hdl.handle.net/10807/134481
UR - http://www.sciencedirect.com/science/journal/18766102
U2 - 10.1016/j.egypro.2017.03.970
DO - 10.1016/j.egypro.2017.03.970
M3 - Article
SN - 1876-6102
VL - 105
SP - 4519
EP - 4524
JO - Energy Procedia
JF - Energy Procedia
ER -