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Liming Characteristics of a High-Calcium Dry Flue Gas Desulfurization By-Product and a Class-C Fly Ash
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作者 Jason R. Burgess-Conforti David M. Miller +2 位作者 Kristofor R. Brye Lisa S. Wood Erik D. Pollock 《Journal of Environmental Protection》 2016年第11期1592-1604,共13页
Due to coal’s availability and low cost, coal combustion continues to be the United States’ primary energy source. However, coal combustion produces large quantities of waste material. Some coal combustion by-produc... Due to coal’s availability and low cost, coal combustion continues to be the United States’ primary energy source. However, coal combustion produces large quantities of waste material. Some coal combustion by-products (CCBs) have chemical and physical characteristics that make them potentially useful as soil amendments. The objectives of this study were to characterize a relatively new, high-calcium dry flue gas desulfurization (DFGD) by-product and compare its agronomic liming potential to a Class-C fly ash (FA) and reagent-grade calcium carbonate (CaCO3). Calcium car-bonate equivalence (CCE), degree of fineness (DOF), and effective neutralizing value (ENV) for each CCB were determined using standard methods. The CCBs and CaCO3 were also incubated with an acidic (~4.5) clay sub-soil at application rates equiva-lent to 0, 0.5, 1, and 2 times the soil’s lime requirement and compared to an una-mended control. Soil pH was then measured periodically during a 40-day incubation. The ENV of 79.4% for the DFGD by-product and 57.3% for the FA were comparable to those of commercially available liming materials, but were significantly lower (P < 0.05) than that of reagent-grade CaCO3. After 40 days of incubation at the 0.5× ap-plication rate, both CCBs raised the pH of the clay soil to only 5.0, while the CaCO3 raised the pH to 6.5. After 40 days at the 1× rate, all three materials had raised the soil pH to between 6.5 and 7.0, although the FA increased the soil pH more slowly than did the other two materials. At the 2× rate, both CCBs increased the soil pH to between 7.5 and 8.0, while the CaCO3 increased the soil pH to only 7.0. Both CCBs appear to be useful as soil liming materials, although care should be taken to avoid over-application, as this may make the soil too alkaline for optimum plant growth. 展开更多
关键词 coal Combustion By-Products Agricultural Lime Fly ash flue gas Desulfurization
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新型Ni-Cr-Co基高温合金在模拟煤燃烧环境中的高温腐蚀 被引量:15
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作者 赵双群 谢锡善 G.D.Smith 《中国有色金属学报》 EI CAS CSCD 北大核心 2004年第3期340-345,共6页
利用XRD,SEM和EDS等实验技术研究了一种新的超级超临界锅炉过热器管材Ni Cr Co基高温合金在模拟煤燃烧环境中的高温腐蚀行为。合金在700℃遭受的腐蚀过程分为2个阶段。在初始阶段,合金发生了氧化和硫化腐蚀,表面形成了保护性的Cr2O3膜,... 利用XRD,SEM和EDS等实验技术研究了一种新的超级超临界锅炉过热器管材Ni Cr Co基高温合金在模拟煤燃烧环境中的高温腐蚀行为。合金在700℃遭受的腐蚀过程分为2个阶段。在初始阶段,合金发生了氧化和硫化腐蚀,表面形成了保护性的Cr2O3膜,同时出现了内硫化现象。在加速腐蚀阶段,因CoSO4熔盐在合金表面的稳定存在使合金遭受严重的低温热腐蚀。当处于较高的SO3分压时,钴或氧化钴在合金表面熔盐中的溶解是造成合金抗腐蚀性能退化的原因。 展开更多
关键词 NI-CR-CO 高温合金 高温腐蚀 低温热腐蚀 合成煤灰/烟气 超级超临界锅炉 过热器
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