期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

废弃混凝土中钙离子的提取实验研究

Experimental Study of Ca^(2+) Extraction from Waste Concrete
原文传递
导出
摘要 废弃混凝土间接碳酸化封存CO2的重要一步是将Ca2+从混凝土中提取出来。论文对废弃混凝土中Ca2+的提取进行了研究,主要考察了提取溶剂、混凝土粒径、温度和固液比等对Ca2+提取过程的影响。对不同的提取溶剂进行了比较,发现HNO3作为溶剂时Ca2+提取率最高,其次为CH3COOH、HCOOH和H2SO4。减小混凝土粒径可有效提高Ca2+提取率。对粒径小于0.15 mm的混凝土,Ca2+提取率随温度升高而增大,其最佳固液比为40 g/L。粒径大于0.25 mm时,最佳固液比为20 g/L,温度的影响明显减弱。将Ca2+提取实验结果与XRD、SEM表征结合,发现废弃混凝土提取过程中SiO2惰性层的出现是限制Ca2+提取率进一步提高的重要原因。 Ca2+ extraction is an important step for sequestration of CO2 by indirect carbonation of waste concrete.Studies on the extraction of Ca2+ from waste concrete were done,and effects of extraction solvent,particle size of waste concrete,temperature and solid-liquid ratio upon Ca2+ extraction were investigated.Different extraction solvents were compared,and the extraction rate was highest with HNO3 as solvent,followed by CH2COOH,HCOOH and H2SO4.Ca2+ extraction rate was effectively improved by reducing the particle size.For concrete with particle size less than 0.15mm,Ca2+ extraction rate increased with the increasing temperature,and the optimum solid-liquid ratio was 40 g/L.The optimum solid-liquid ratio was 20 g/L when the particle size was greater than 0.25 mm,while the effect of temperature was significantly weakened.Combining the experimental result and XRD,SEM characterization,it was found that a SiO2 inert layer formed during the extraction process would hinder the further extraction of Ca2+.
作者 伍艳辉 金源 周颖 马超
机构地区 同济大学化学系 同济大学土木工程学院
出处 《环境科学与技术》 CAS CSCD 北大核心 2013年第5期95-99,187,共6页 Environmental Science & Technology
基金 光华同济土木学院基金资助
关键词 废弃混凝土 Ca2+提取 CO2封存 waste concrete Ca2+ extraction CO2 sequestration
分类号 X799.1 [环境科学与工程—环境工程]
  • 相关文献

参考文献20

  • 1Intergovernmental Panel on Climate Change(IPCC). Climate Change 2007 Synthesis Report[R]. Switzerland: IPCC, 2007.
  • 2International Energy Agency. World Energy Outlook 2011 [R]. France : Soregraph, 2011.
  • 3Goldberg P, Romanosky R, Chen Z-Y. CO2 Mineral Seques- tration Studies in US [A]. Fifth International Conference on Greenhouse Gas Control Technologies[C]. Cairns, 2000.
  • 4Lackner K S, Wendt C H, Butt D P. Carbon dioxide disposal in carbonate minerals[J]. Energy, 1995, 20( 11 ) : 1153-1170.
  • 5Koljonen T, Siikavirta H, Zevenhoven R, et al. CO2 capture, storage and reuse potential in Finland [J]. Energy, 2004, 29 (9-10) : 1521-1527.
  • 6Iizuka A, Fujii M, Yamasaki A, et al. Development of a new CO2 sequestration process utilizing the carbonation of waste cement[J]. Industrial & Engineering Chemistry Research, 2004, 43( 24 ) : 7880-7887.
  • 7Xiao Jian-zhuang. Recycled Concrete[M]. Beijing:Chinese Building Construction Publishing Press, 2008.
  • 8Gerdemann S J, O' Connor W K, Dahlin D C, et al. Ex situ aqueous mineral carbonation [J]. Environmental Science and Technology, 2007, 41 ( 7 ) : 2587-2593.
  • 9Huijgen W J J, Comans R N J, Witkamp G-J. Cost evalua- tion of CO2 sequestration by aqueous mineral carbonation[J]. Energy Conversion and Management, 2007, 48 (7) : 1923- 1935.
  • 10Lackner K S, Butt D P, Wendt C H. Progress on binding CO2 in mineral substrates[J]. Energy Conversion and Manage- ment, 1997,38( 8 ) : S259-S264.

共引文献16

环境科学与技术
2013年 第5期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部