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Simulation and performance analysis of municipal solid waste gasification in a novel hybrid fixed bed gasifier

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dc.creator Moshi, Robert
dc.date 2022-09-22T06:31:04Z
dc.date 2022-09-22T06:31:04Z
dc.date 2022-06
dc.date.accessioned 2022-10-25T09:23:50Z
dc.date.available 2022-10-25T09:23:50Z
dc.identifier https://dspace.nm-aist.ac.tz/handle/20.500.12479/1654
dc.identifier.uri http://hdl.handle.net/123456789/95534
dc.description A Dissertation Submitted in Partial Fulfillment of the Requirements for the Degree of PhD in Sustainable Energy Science and Engineering of the Nelson Mandela African Institution of Science and Technology
dc.description Municipal Solid Waste (MSW) is a main challenge to municipalities in developing countries due to the increase in its production caused by technology development, community culture, population growth, and urbanization. The challenge is heightened by the scarcity of dumping sites within municipalities and the environmental impact associated with improper disposal management. Thermo-chemical conversion technologies (gasification, pyrolysis and incineration) have become to be known as practicable technologies for municipal solid waste management (MSWM). In this study, the Hybrid Fixed Bed Gasifier (HFBG) model was developed using Aspen Plus in order to merge the advantages of both downdraft and cross draft gasifiers and suppress their disadvantages. Furthermore, experimental analysis of the flue gas was carried out on the HFBG. The TESTO 327- 1 flue gas analyzer was used to analyze the concentration of CO, CO2 and O2. The simulated results showed that the feedstock MC of about 59.8 wt% was lowered to 6.8 wt%. The developed hybrid fixed bed gasifier demonstrated an increase in 2 H and CO of about 29.29 % and 37.05 % mole fraction in the producer gas respectively. The syngas output was highly affected by the changes in the ER as well as change in temperature. The composition for 2 H and CO increases with increase in temperature while the composition decreases with ER between 0.1 to 0.4. However, at this ER CO2 and H O2 tend to increases but above 0.4 CO2 and H O2 decrease gradually. Experimental results show that after the elapse of 30 minutes CO and CO2 concentration was 9.69% and 5.85% respectively. Furthermore, after 150 minutes of the gasification process, the output concentration for O2 was 17.2 % while the concentration for CO and CO2 was 0.0 % and 3.77 % respectively. The experimental results revealed that, during the entire gasification process the concentration for CO and CO2 were decreasing with time while O2 concentration was increasing. This result shows diversion from the simulated results due to gasifier leakages. With high MC of MSW, the study has shown that, HFBG can handle up 60 wt% as compared to downdraft which is limited to 20 wt%.
dc.format application/pdf
dc.language en
dc.publisher NM-AIST
dc.subject Research Subject Categories::TECHNOLOGY
dc.title Simulation and performance analysis of municipal solid waste gasification in a novel hybrid fixed bed gasifier
dc.type Thesis


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