COMPARISON OF REMAINING COAL-BURNING ASH-BASED ON CD, PB, AND HG CONCENTRATION AT DIFFERENT TEMPERATURES: A CASE STUDY IN ACEH PROVINCE

IF 1 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Journal of Environmental Engineering and Landscape Management Pub Date : 2022-08-05 DOI:10.3846/jeelm.2022.16294
A. Gani, Erdiwansyah Erdiwansyah, R. E. Sardjono, M. Mariana, R. Mamat
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Abstract

This study aims to investigate the efficiency level of absorption of heavy metals Cd, Pb, and Hg. Combustion is carried out using coal with the addition of absorbent ratios of 2%, 4%, 6%, 8%, and 10%. The adsorbent used is natural zeolite which is widely available and inexpensive. This study provides practical implications for the easy and inexpensive removal of heavy metal emissions during combustion. The results show that the maximum efficiency level for Cd metal reached 22.96% which was recorded at a temperature of 600 °C for an adsorbent ratio of 10%. The maximum efficiency level of Pb metal from the experimental results was obtained at a temperature of 600 °C with an adsorbent ratio of 10% to 10.83%. Meanwhile, the efficiency level for Hg metal produced was 0.05% which was recorded at the adsorbent ratio of 10% at 800 °C. The maximum total capacity of Pb metal for each tested combustion temperature was 600 °C 39.85 mg/kg, 700 °C 25.43 mg/kg, and 800 °C 7.21 mg/kg. On the other words, the higher the combustion temperature tested, the lower the absorption efficiency rate obtained.
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不同温度下基于cd、pb和hg浓度的剩余燃煤灰的比较:以亚齐省为例研究
本研究的目的是研究重金属Cd、Pb、Hg的吸收效率水平。燃烧采用煤,吸附剂添加比例分别为2%、4%、6%、8%和10%。所使用的吸附剂是天然沸石,这种吸附剂广泛可用且价格低廉。该研究为在燃烧过程中简单廉价地去除重金属排放提供了实际意义。结果表明,在温度为600℃、吸附剂比例为10%时,对金属镉的吸附效率最高可达22.96%。实验结果表明,在温度为600℃,吸附剂比例为10% ~ 10.83%的条件下,金属铅的吸附效率最高。同时,在800℃条件下,吸附剂比例为10%时,对金属汞的收率为0.05%。各测试燃烧温度下Pb金属的最大总容量分别为600℃39.85 mg/kg、700℃25.43 mg/kg和800℃7.21 mg/kg。换句话说,燃烧温度越高,获得的吸收效率越低。
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来源期刊
CiteScore
1.90
自引率
7.70%
发文量
41
审稿时长
>12 weeks
期刊介绍: The Journal of Environmental Engineering and Landscape Management publishes original research about the environment with emphasis on sustainability.
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