吉林大学学报(理学版)
吉林大學學報(理學版)
길림대학학보(이학판)
JOURNAL OF JILIN UNIVERSITY(SCIENCE EDITION)
2014年
1期
144-150
,共7页
王洪良%钟宇博%石磊%康春莉%刘汉飞%陈柏言%刘婷婷%武家玉
王洪良%鐘宇博%石磊%康春莉%劉漢飛%陳柏言%劉婷婷%武傢玉
왕홍량%종우박%석뢰%강춘리%류한비%진백언%류정정%무가옥
苯酚%光解%羟基自由基%冰%过氧化氢
苯酚%光解%羥基自由基%冰%過氧化氫
분분%광해%간기자유기%빙%과양화경
phenol%photolysis%hydroxyl radical%ice%hydrogen peroxide
在UV和 H2 O2作用下考察pH 值、光强、H2 O2初始浓度和无机离子等对冰中苯酚光解的影响,并利用二甲基亚砜(DMSO)捕获体系中生成的羟基自由基(·OH)研究·OH 对冰中苯酚光解的影响。实验结果表明:H2 O2可显著促进冰中产生·OH 及苯酚光解;改变光强、pH 值和 H2 O2的初始浓度,苯酚的光解率随体系中· OH 浓度的增加而增大;加入NO-2和NO-3可抑制体系中产生·OH 及苯酚光解;加入 SO2-4不影响体系中·OH 的产生及苯酚光解;加入CO2-3和 HCO-3可抑制体系中产生·OH,但对苯酚光解影响较小,这是由于体系中产生了其他自由基所致。
在UV和 H2 O2作用下攷察pH 值、光彊、H2 O2初始濃度和無機離子等對冰中苯酚光解的影響,併利用二甲基亞砜(DMSO)捕穫體繫中生成的羥基自由基(·OH)研究·OH 對冰中苯酚光解的影響。實驗結果錶明:H2 O2可顯著促進冰中產生·OH 及苯酚光解;改變光彊、pH 值和 H2 O2的初始濃度,苯酚的光解率隨體繫中· OH 濃度的增加而增大;加入NO-2和NO-3可抑製體繫中產生·OH 及苯酚光解;加入 SO2-4不影響體繫中·OH 的產生及苯酚光解;加入CO2-3和 HCO-3可抑製體繫中產生·OH,但對苯酚光解影響較小,這是由于體繫中產生瞭其他自由基所緻。
재UV화 H2 O2작용하고찰pH 치、광강、H2 O2초시농도화무궤리자등대빙중분분광해적영향,병이용이갑기아풍(DMSO)포획체계중생성적간기자유기(·OH)연구·OH 대빙중분분광해적영향。실험결과표명:H2 O2가현저촉진빙중산생·OH 급분분광해;개변광강、pH 치화 H2 O2적초시농도,분분적광해솔수체계중· OH 농도적증가이증대;가입NO-2화NO-3가억제체계중산생·OH 급분분광해;가입 SO2-4불영향체계중·OH 적산생급분분광해;가입CO2-3화 HCO-3가억제체계중산생·OH,단대분분광해영향교소,저시유우체계중산생료기타자유기소치。
The photolysis of phenol in a UV/H2 O2 system in ice was investigated and the effects of pH value,light intensity and the initial concentration of H2 O2 on the photolysis of phenol were discussed. In addition,Hydroxyl radicals (· OH)generated during the photolysis of phenol were trapped by dimethylsulfoxide (DMSO),thus the effect of·OH radicals on the photolysis of phenol was studied. The results show that H2 O2 significantly increased ·OH generation and enhanced the photolysis of phenol in ice.Changing light intensity,pH value and the initial concentration of H2 O2 ,the photolysis rate of phenol would increased with the increase of·OH generation.The addition of NO-2 and NO-3 inhibited the generation of·OH and the photolysis of phenol.But SO2-4 had no impact on·OH generation and the photolysis of phenol.Though CO2-3 and HCO-3 decreased ·OH generation,they also had no impact on the photolysis,which might be due to the other radicals generated in the system.
