基于实验设计建模优化纳米复合光催化剂ZnO/SnO_2的制备条件  

作　　者：罗显昭[1] 张运陶[1] 

机构地区：[1]西华师范大学应用化学研究所,四川南充637002

出　　处：《计算机与应用化学》2010年第9期1225-1229,共5页Computers and Applied Chemistry

基　　金：四川省科技厅资助项目(2008JY0155)

摘　　要：采用序贯实验思路,首先基于Plackett-Burman(PB)设计实验数据,经主效应分析和逐步回归筛选出影响制备ZnO/SnO_2粉体性能的主要因素;再以筛选出的Zn/Sn摩尔比及反应时间2个因素设计U_(12)(4×3)均匀设计实验,用PSO-2次回归方法基于该实验数据建立制备ZnO/SnO_2粉体光催化降解甲基橙脱色率DC的预测模型,通过非线性规划求模型最优解获得优化的ZnO/SnO_2制备条件。将在优化条件下制备获得的ZnO/SnO_2粉体用于光催化降解甲基橙,降解30min的DC实验平均值为96.17,模型预测值则为DC=95.66,DC实验值与预测值相对误差仅为0.53%,表明模型可靠。对该粉体采用XRD和SEM进行形貌、粒径及组成分析,表征结果显示该粉体大致呈球形、粒径主要分布在(20～30)rm,粉体中有少量Zn_2SnO_4产生。Using the train of thought of sequential trial design, the two main effect production factors for preparing nanocrystalline ZnO/SnO2 powders, the molar ratio of Zrl/Sn and reaction time, were chosen to U12（4×3） uniform design experiments based on the data of Plackett-Burman（PB） design experiments by stepwise regression method and main effect analysis. The optimal prediction model for decoloration rate（DC） where the methyl orange（MO） solution was degradated using the prepared nanoparticle photocatalyst ZnO/SnO2, was established by using Quadratic Regression based on the Particle Swarm Optimization（PSO） algorithm and then the process recipes were optimized via nonlinear programming. Under optimised conditions, the prepared ZnO/SnO2 were also used in the photodegradation of methy orange solution, meanvalue 96.17% was achieved in 30 rain, and the predictive value is 95.6622%, so the relative error is just 0.525% which illustrates the best reliability of the optimal model. The coupled oxide prepared under optimised conditions was characterized by X-ray diffraction （XRD） and （SEM）. The resultes show that the nanoparticle is almost presented as sphericity whose grain diameter is distributed between （20-30） nm and that a small amount of nanometer Zn2SnO4 is formed in the mixture of coupled oxides.

关 键 词：ZnO/SnO2 Plackett—Burman(PB)设计 U12(4×3)均匀设计 PSO-2次回归 建模优化 

分 类 号：TQ015.9[化学工程] TP391.9[自动化与计算机技术—计算机应用技术]