环境工程学报
環境工程學報
배경공정학보
CHINESE JOURNAL OF ENVIRONMENTAL ENGINEERING
2010年
2期
315-318
,共4页
褚效中%赵宜江%徐继明%徐芳%胡玉霞%苏伟
褚效中%趙宜江%徐繼明%徐芳%鬍玉霞%囌偉
저효중%조의강%서계명%서방%호옥하%소위
高比表面积%活性炭%吸附%Cr(Ⅵ)
高比錶麵積%活性炭%吸附%Cr(Ⅵ)
고비표면적%활성탄%흡부%Cr(Ⅵ)
high specific surface area%activated carbon%adsorption%Cr(Ⅵ)
以椰树壳为原料,运用水蒸汽和二氧化碳复合物理活化法在4 h内制备了2 162.84 m~2/g的高比表面积活性炭,其孔径分布范围为1.1~2.5 nm.应用此吸附剂考察了溶液pH、吸附剂用量、接触时间和初始浓度对Cr(Ⅵ)离子吸附效果的影响,并讨论了固定吸附床中不同溶液流量对Cr(Ⅵ)去除效果的影响.结果表明:在温度为298 K、溶液pH为1.96、吸附剂用量为0.10 g、铬离子初始浓度为100 mg/L与接触时间为70 min的条件下,活性炭对铬离子具有较高的吸附容量,去除率高达99.32%;铬离子在吸附床中的穿透曲线具有陡峭的传质锋面,但随着铬离子溶液流量的增大脱除果率降低.
以椰樹殼為原料,運用水蒸汽和二氧化碳複閤物理活化法在4 h內製備瞭2 162.84 m~2/g的高比錶麵積活性炭,其孔徑分佈範圍為1.1~2.5 nm.應用此吸附劑攷察瞭溶液pH、吸附劑用量、接觸時間和初始濃度對Cr(Ⅵ)離子吸附效果的影響,併討論瞭固定吸附床中不同溶液流量對Cr(Ⅵ)去除效果的影響.結果錶明:在溫度為298 K、溶液pH為1.96、吸附劑用量為0.10 g、鉻離子初始濃度為100 mg/L與接觸時間為70 min的條件下,活性炭對鉻離子具有較高的吸附容量,去除率高達99.32%;鉻離子在吸附床中的穿透麯線具有陡峭的傳質鋒麵,但隨著鉻離子溶液流量的增大脫除果率降低.
이야수각위원료,운용수증기화이양화탄복합물리활화법재4 h내제비료2 162.84 m~2/g적고비표면적활성탄,기공경분포범위위1.1~2.5 nm.응용차흡부제고찰료용액pH、흡부제용량、접촉시간화초시농도대Cr(Ⅵ)리자흡부효과적영향,병토론료고정흡부상중불동용액류량대Cr(Ⅵ)거제효과적영향.결과표명:재온도위298 K、용액pH위1.96、흡부제용량위0.10 g、락리자초시농도위100 mg/L여접촉시간위70 min적조건하,활성탄대락리자구유교고적흡부용량,거제솔고체99.32%;락리자재흡부상중적천투곡선구유두초적전질봉면,단수착락리자용액류량적증대탈제과솔강저.
Activated carbon was prepared from coconut shell in four hours with the coupling physical activa-tion process of steam and carbon dioxide, which has a high specific surface area of 2 162. 84 m~2/g and a pore size distribution range of 1. 1~2. 5 nm. Effects of pH, adsorbent amount, contact time and initial concentration on the Cr(Ⅵ) adsorption were investigated with this adsorbent. Moreover, the influence of different solution flow rates was discussed on Cr(Ⅵ) removal efficiecy in the packed bed. The results show that activated carbon is of better adsorption capacity and the removal rate is up to 99. 32% at temperature 298 K,pH of solution 4. 4, ad-sorbent amount 0. 10 g, the initial concentration of Cr( Ⅵ ) 100 mg/L and contact time 70 min. Breakthrough curves of Cr( Ⅵ ) in the adsorption bed have steep mass transfer frontal, however, the removal efficiency becomes lower with the increase of flow rate.
