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Effect of Torrefaction Process Temperature on the Energy Yield and Chemical Composition of Kenaf
Kyoln Kwon(권교인),KyunHa Jin(진균하),YoungRak Bae(배영락),TaeJin Kang(강태진),ByungHwan Um(엄병환) 한국신재생에너지학회 2021 한국신재생에너지학회 학술대회논문집 Vol.2021 No.7
To improve the physical and chemical properties of biomass as a fuel, a pretreatment process of biomass is required. One of the various pre-treatment technologies, torrefacion, makes biomass similar to coal through low-temperature pyrolysis. In this study, the treatment was torrefied in the N<sub>2</sub> environment at 220 and 340℃ with residence time (10 min) for Kenaf (herbaceous biomass), The torrefied products were characterized in terms of their elemental composition, mass yield, heating value, energy yield, ash content and volatile fraction. Results showed the higher temperature (340℃) was the best treatment with a relatively higher heating value of 23.19 MJ/kg, but lower energy yields of 70.76%. Also, the lower temperature (220℃) was the best treatment with a with a relatively Energy yield of 98.77%, but lower Heating value of 16.75 MJ/kg. With an increase in temperature and although the resultant solid had the highest Heating value of those studied, it nevertheless had the lowest energy yield. Temperature plays a major role during torrefaction and choosing an optimum condition is fundamental to attaining a satisfactory higher heating value, energy yield. The temperatures were fuel dependent and therefore the results indicate that careful optimization is required for all fuel types to maximise the benefits of torrefaction whilst maintaining a good energy yield and higher heating value.
Seongrae Lim(임성래),Heesun Yoon(윤희선),Gahee Kim(김가희),Byunghwan Um(엄병환) 한국신재생에너지학회 2021 한국신재생에너지학회 학술대회논문집 Vol.2021 No.7
Nowadays, the need for alternative energy source has grown due to global climate issues. Among various renewable energy sources, biomass-especially herbaceous biomass is considered to be a reasonable solution for domestic situation. In this work, Korean native kenaf was treated with hydrothermal carbonization (HTC) to produce solid biofuel called hydrochar. To acquire enhanced property of hydrochar, HTC was performed under different solid-liquid ratio, temperature and time. Elemental, physical and chemical properties of hydrochar samples were analyzed for in-depth comparison of its fuel characteristics. By searching optimal of key parameter of producing kenaf hydrochar through current study, further utilization of domestic biomass fuel might be available.