Journal
FUEL PROCESSING TECHNOLOGY
Volume 176, Issue -, Pages 76-84Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.fuproc.2018.03.014
Keywords
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Funding
- Steel Foundation for Environmental Protection Technology (SEPT)
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The optimum conditions for the production of high-surface-area activated carbon from peat were examined in a fixed-bed quartz reactor by using natural soda ash (> 99 mass% Na2CO3) as the activation agent and urea (CH4N2O) as the nitrogen source. In the heating of the peat/urea/Na2CO3 mixture, the surface area of activated carbon significantly increased when the temperature was higher than 700 degrees C, and it reached 940 and 1100 m(2)/g at 800 and 900 degrees C, respectively. When the mixture was also held at 700 and 800 degrees C for 1 h, the surface area drastically increased from 100 m(2)/g without holding treatment to 730 m(2)/g at 700 degrees C, and it became 1050 m(2)/g at 800 degrees C. The effect of the peat/urea/Na2CO3 mixing ratio on the increase in surface area was investigated. The ratio of urea to Na2CO3 was fixed at 1/2 and the proportion of peat was varied in the range of 0.5-2; the surface area was maximum when peat = 1. In another case, the ratio of peat to urea was fixed at 1/1 and the proportion of Na2CO3 was varied in the range of 1-4. In this case, the surface area was maximum (940 m(2)/g) when Na2CO3 = 2 but decreased when Na2CO3 = 4. On the other hand, when the ratio of peat to Na2CO3 was fixed at 1/2 and the proportion of urea was varied in the range of 0.5-3, the surface area markedly increased up to urea = 1; however, a significant increase did not take place thereafter, even when the proportion of urea was increased. According to these results, the optimum mixing ratio of peat/urea/Na2CO3 and heat treatment conditions to produce high-surface-area activated carbon from peat may be 1/1-3/2 and holding at 800-900 degrees C for 0-1 h, respectively.
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