Geospatial investigation of physico-chemical properties and thermodynamic parameters of biomass residue for energy generation

Title: Geospatial investigation of physico-chemical properties and thermodynamic parameters of biomass residue for energy generation
Creator: Olatunji, Obafemi O., Akinlabi, Stephen, Madushele, Nkosinathi, Adedeji, Paul A., Ndolomingo, Matumuene J.
Subject: Corn cob, Geospatial investigation, Physicochemical properties
Date: 2020
Type: Article
Identifier: http://hdl.handle.net/10210/436538
Identifier: uj:37870
Description: Abstract:, Biomass represents vast under-explored feedstock for energy generation across the globe. Among other factors, the location from where the feedstock is harvested may affect the overall properties and the efficiency of bioreactors used in the conversion process. Herein is reported some physicochemical properties, the kinetic study and thermodynamic analysis of corn cob sourced from two major economies in sub-Sahara African region. Brunauer Emmett and Teller (BET) analysis was performed to investigate the surface characteristics of corn cob while Fourier Transform Infrared Spectroscopy (FTIR) revealed the corresponding functional group present in the selected biomass residue. The proximate and CHNSO analyses were performed using the standard equipment and following the standard procedures, then the result is reported and compared based on the geographical locations under consideration. Also, the thermal decomposition study was carried out at different heating rate (10, 15, 30 Cmin-1) in inert atmosphere while the kinetic parameters were evaluated based on Flynn–Wall–Ozawa (FWO), and Kissinger–Akahira–Sunose (KAS) methods The Analysis of variance (ANOVA) showed that there is a statistically significant difference between ultimate constituents, the fixed carbon, and volatile matter obtained from the two countries at 95% confidence level. FTIR showed different spectra peak in both samples which means there are varying quantity of structural elements in each feedstock. The pore surface area (1.375 m²/g ) obtained for corncob from South Africa (SC25) was greater than the value (1.074 m²/g ) obtained for Nigeria (NC25). From the result, the highest value of activation energy, (Ea =190.1 kJmol-1 and 189.9 kJmol-1) was estimated for SC25 based on KAS and FWO methods respectively. The result showed that geographical location may somewhat affect some energetic properties of biomass and further provides useful information about thermodynamic and kinetic parameters which could be deployed in the simulation, optimization and scale-up of the bioreactors for pyrolysis process.
Language: English
Rights: @2020, authors
Full Text

Hits: 106
Visitors: 101
Downloads: 15

Collections

Journal articles

		Thumbnail	File	Description	Size	Format
View Details Download			SOURCE1	16358_Manuscript ARTT 2020.pdf	1 MB	Adobe Acrobat PDF	View Details Download