@article{Hossain_Kamal_Chowdhury_Islam_Kirtania_2021, title={Parametric Study on Co-Feeding of Municipal Solid Waste and Coal in an IGCC Power Plant with Pre-Combustion Carbon Capture}, volume={22}, url={https://banglajol.info/index.php/CERB/article/view/54297}, DOI={10.3329/cerb.v22i1.54297}, abstractNote={<p>Municipal solid waste (MSW) is one of the top contributors in greenhouse gas (i.e. methane) emissions - particularly from landfill disposals. However, it could be a remarkable source of renewable energy. In Bangladesh, generation of municipal solid waste is at least 2.7 million tonne per year in the major cities, implying a heavy environmental burden. On the other hand, there are several coal-based power plants are in the pipeline to meet the increasing energy demand in Bangladesh with the potential of significant CO<sub>2</sub> emission. To find a remedy to the above situation, a power plant using Integrated Gasification and Combustion Cycle (IGCC) technology with pre-combustion carbon capture is considered in this study. IGCC has the advantage of producing high quality syngas from a wide variety of feed and assists in the capture of CO<sub>2</sub> at a lower cost while providing high electric efficiency. The power plant was simulated by commercial simulation packages (Aspen PLUS™ and Aspen HYSYS™) using MSW and bituminous coal (Indonesian) as a combined feed. With a feed rate of 1800 tonne per day, Syngas produced from an entrained flow type gasifier was then treated for CO<sub>2</sub> removal using mono-ethanol amine (MEA) solvent after necessary shift in a high temperature shift reactor. About 91% efficiency was achieved in the shift reactor while the CO<sub>2</sub> capture efficiency was varied for this study from 30% to 85%. Further parametric variation was studied by varying the moisture content of MSW and MSW to coal feed ratio. Through combustion of the H2 rich syngas in a gas turbine and subsequent steam cycle with reheat resulted in 125 MW of electricity at an efficiency of 28.95% while capturing 50% of the CO<sub>2</sub> generated in the process for an MSW to Coal feed ratio of 1:1. With variation in moisture content especially during monsoon season, the plant efficiency could be affected remarkably. On the other hand, it was observed that the energy requirement varied from 6 to 8 MW for every 10% increase in CO<sub>2</sub> capture quantity. Overall, by capturing 50% of the generated CO<sub>2</sub>, it is possible to reduce the emission of a same size ultra-supercritical coal-based power plant from about 700 kg CO<sub>2</sub>/MWh to about 360 kg of net CO<sub>2</sub>/MWh incorporating co-feeding and pre-combustion capture in an IGCC power plant.</p> <p>Chemical Engineering Research Bulletin 21(2020) 37-42</p>}, number={1}, journal={Chemical Engineering Research Bulletin}, author={Hossain, Md Shahriar and Kamal, Suprio and Chowdhury, Mahbub and Islam, Md Tariful and Kirtania, Kawnish}, year={2021}, month={Jun.}, pages={37–42} }