环境污染与防治
環境汙染與防治
배경오염여방치
ENVIRONMENTAL POLLUTION AND CONTROL
2010年
3期
18-22
,共5页
梅凡民%傅成诚%杨青莉%周亮
梅凡民%傅成誠%楊青莉%週亮
매범민%부성성%양청리%주량
活性炭%酸性含氧官能团%甲醛吸附%酚羟基
活性炭%痠性含氧官能糰%甲醛吸附%酚羥基
활성탄%산성함양관능단%갑철흡부%분간기
activated carbon%oxygen-containing acidic functional groups%formaldehyde%absorption%phenolic hydroxyl
利用Bothem滴定法测定了化学浸渍处理的活性炭表面酸件含氧官能团浓度,研究表面酸性含氧官能团对甲醛吸附的效应.结果表明,HNO_3浸渍处理能有效增火活性炭表面的羧基、酚羟基和内酯基浓度;H_2O_2浸渍处理主要增大了活性炭表面的酚羟基浓度;随着NaOH浓度的增大,活性炭表面的酚羟基、内酯基和羰基浓度大致呈增大后减小的趋势,这是由于NaOH的化学清洗作用和酸碱巾和反应所致;HNO_3浸渍处理的活件炭表面的酸性含氧官能团浓度显著超过NaOH、H_2O_2浸溃处理的活性炭,而30%(质量分数)NaOH浸渍处理的活性炭和30%(体积分数)H_2O_2浸渍处理的活性炭吸附甲醛的饱和时间比HNO_3浸渍处理的活性炭吸附甲醛最大饱和时间分别多4.0、1.5 h,说明酚羟基能够显著影响活性炭吸附甲醛的效果.
利用Bothem滴定法測定瞭化學浸漬處理的活性炭錶麵痠件含氧官能糰濃度,研究錶麵痠性含氧官能糰對甲醛吸附的效應.結果錶明,HNO_3浸漬處理能有效增火活性炭錶麵的羧基、酚羥基和內酯基濃度;H_2O_2浸漬處理主要增大瞭活性炭錶麵的酚羥基濃度;隨著NaOH濃度的增大,活性炭錶麵的酚羥基、內酯基和羰基濃度大緻呈增大後減小的趨勢,這是由于NaOH的化學清洗作用和痠堿巾和反應所緻;HNO_3浸漬處理的活件炭錶麵的痠性含氧官能糰濃度顯著超過NaOH、H_2O_2浸潰處理的活性炭,而30%(質量分數)NaOH浸漬處理的活性炭和30%(體積分數)H_2O_2浸漬處理的活性炭吸附甲醛的飽和時間比HNO_3浸漬處理的活性炭吸附甲醛最大飽和時間分彆多4.0、1.5 h,說明酚羥基能夠顯著影響活性炭吸附甲醛的效果.
이용Bothem적정법측정료화학침지처리적활성탄표면산건함양관능단농도,연구표면산성함양관능단대갑철흡부적효응.결과표명,HNO_3침지처리능유효증화활성탄표면적최기、분간기화내지기농도;H_2O_2침지처리주요증대료활성탄표면적분간기농도;수착NaOH농도적증대,활성탄표면적분간기、내지기화탄기농도대치정증대후감소적추세,저시유우NaOH적화학청세작용화산감건화반응소치;HNO_3침지처리적활건탄표면적산성함양관능단농도현저초과NaOH、H_2O_2침궤처리적활성탄,이30%(질량분수)NaOH침지처리적활성탄화30%(체적분수)H_2O_2침지처리적활성탄흡부갑철적포화시간비HNO_3침지처리적활성탄흡부갑철최대포화시간분별다4.0、1.5 h,설명분간기능구현저영향활성탄흡부갑철적효과.
Few groups of activate carbons (AC)were modified by dipping them in different impregnating solutions , and the oxygen-containing acidic functional groups on the surface of modified AC were determined by Bothem titration method so as to give insight into the effect of the oxygen-containing acidic functional groups on formaldehyde absorption. The results showed that more carboxyl, phenolic hydroxyl and lactone groups were found on the surface of HNO_3 modified AC, while only phenolic hydroxyl group on AC was increased after dipping in H_2O_2. The molality of phenolic hydroxyl, lactone and carbonyl groups on surface of NaOH modified AC presented the tendency of increased first and decreased later with increasing the mass fraction of NaOH solution. Both the number of acidic functional groups and surface structure of AC were relevant to formaldehyde adsorptions however, the phenolic hydroxyl group was the key factor that affects formaldehyde adsorption due to its chemical reaction with formaldehyde.
