原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2013年
9期
1642-1647
,共6页
张明昕%黄建微%胡涛%张耀锋%江艳%王乃彦
張明昕%黃建微%鬍濤%張耀鋒%江豔%王迺彥
장명흔%황건미%호도%장요봉%강염%왕내언
甲醛%电子束%辐射分解
甲醛%電子束%輻射分解
갑철%전자속%복사분해
formaldehyde%electron beam%radiolysis
介绍了在电子能量3~5 M eV、最大束流功率约0.8 kW电子加速器直接辐照下,3种不同初始浓度(25、500、11000 mg/L)甲醛水溶液的辐射分解过程,并用紫外(UV)吸收谱和液相色谱(LC)法分析了辐解样品。结果显示:溶液中剩余甲醛的质量分数随吸收剂量的增大呈指数衰减,其主要辐解产物至少有4种,其中3种为包括甲酸在内的可确认结构的小分子产物,1种为大分子产物。此外还发现添加辐解助剂N aO H后,甲醛水溶液电子束辐解效率提高近2倍。以上结果表明,电子束辐射有望成为辐解各种浓度甲醛水溶液的高效手段。
介紹瞭在電子能量3~5 M eV、最大束流功率約0.8 kW電子加速器直接輻照下,3種不同初始濃度(25、500、11000 mg/L)甲醛水溶液的輻射分解過程,併用紫外(UV)吸收譜和液相色譜(LC)法分析瞭輻解樣品。結果顯示:溶液中剩餘甲醛的質量分數隨吸收劑量的增大呈指數衰減,其主要輻解產物至少有4種,其中3種為包括甲痠在內的可確認結構的小分子產物,1種為大分子產物。此外還髮現添加輻解助劑N aO H後,甲醛水溶液電子束輻解效率提高近2倍。以上結果錶明,電子束輻射有望成為輻解各種濃度甲醛水溶液的高效手段。
개소료재전자능량3~5 M eV、최대속류공솔약0.8 kW전자가속기직접복조하,3충불동초시농도(25、500、11000 mg/L)갑철수용액적복사분해과정,병용자외(UV)흡수보화액상색보(LC)법분석료복해양품。결과현시:용액중잉여갑철적질량분수수흡수제량적증대정지수쇠감,기주요복해산물지소유4충,기중3충위포괄갑산재내적가학인결구적소분자산물,1충위대분자산물。차외환발현첨가복해조제N aO H후,갑철수용액전자속복해효솔제고근2배。이상결과표명,전자속복사유망성위복해각충농도갑철수용액적고효수단。
Formaldehyde aqueous solutions of three different initial concentrations (25 , 500 , 11 000 mg/L ) were degraded by direct irradiation via electron accelerator (maximum beam power 0.8 kW) .The radiolysis of formaldehyde aqueous solution was analyzed via ultraviolet (UV) absorption spectrum and liquid chromatography (LC) .It is obtained that the residual mass fraction of formaldehyde solution decreases exponentially with the increase of absorbed dose .At least 4 major radiolysis products , w hich include formic acid and one kind of oligomer ,are discovered .And it is also found that the radiolysis efficiency can increase doubly with an addition of NaOH . Accordingly ,electron beam radiation could be an efficient process for degradation of formaldehyde aqueous solution with various concentrations .
