1. Synthesis of Plant-Derived Khat Waste for Environmental Application
- Author
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Geleta Afessa, Abel Saka, Jule Leta Tesfaye, N. Nagaprasad, R. Shanmugam, L. Priyanka Dwarampudi, Seenivasan Venkatesh, Bayissa Badassa, and Ramaswamy Krishnaraj
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Article Subject ,General Materials Science - Abstract
This research is based on the characterization of khat waste (Catha edulis) through the use of some experimental approaches required to produce a clean, renewable energy source that could enhance our environmental economy as well as our energy security. The objective of this article is to characterize the pyrolysis khat waste in both proximate and ultimate analysis, thermal decomposition (weight loss of khat), and functional categories of khat waste, by using a Fourier transform infrared spectroscopy to determine the functional group of a sample. We also used an elemental analyzer device (model: Thermo Scientific–EA1112 FLASH CHNS/O analyzer) to measure elemental composition, characterize the proximate analysis of khat, and measure weight loss or thermal behavior of raw khat sample by using a device called thermogravimetric analyzer (TA instrument model: SDT Q600). The determined characterization of the khat sample was 48.25 percent carbon, 6.16 percent hydrogen, 45.13 percent oxygen, and 0.46 percent nitrogen. When compared to coal, khat contains extremely little nitrogen, resulting in less environmental contamination to the air than fossil fuel combustion. The proximate analysis results of the khat sample also showed 5 percent and 5.26 percent moisture content for both wet and dry bases, respectively, as well as 76.3 percent volatile matter, 4.8 percent ash content, and 13.83 percent fixed carbon. The findings are discussed in this research by comparing the final value results with other biomass and coil. The functional group of khat waste was studied using a spectrum of (65 Perkin Elmer) at wavelength ranges of 4000 to 400 cm-1. The weight loss of the khat sample at 700°C and a heating rate of 20°C/min, as well as the proximate analysis of this raw khat, were 4.5 percent, 75.84 percent, 5.38 percent, and 14.28 percent for moisture, unstable substance, ash content, and static carbon, respectively. The differences between TGA values and the projected proximal value were 10%, 0.6 percent, 9.47 percent, and 3.15 percent for moisture, volatile matter, as content, and fixed carbon, respectively. Overall, the benefit we get from pyrolysis of khat waste is that khat waste has very low nitrogen content and empty sulfur, which is very important for reducing air pollution and environmental sanitation when used as fuel. So from pyrolysis, khat waste types of fuel such as biochar, liquid fuel, and gas fuel can be obtained.
- Published
- 2022
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