毕业论文

打赏
当前位置: 毕业论文 > 化学论文 >

放射性废水在多孔材料上的吸附研究

时间:2021-03-28 21:05来源:毕业论文
选取有序介孔材料MCM-41、大孔材料MOSF作为吸附剂,进行了模拟含铀废水的吸附实验研究,考察了吸附时间,温度,pH,MCM-41的投加量,初始浓度对铀酰溶液吸附率的影响,考察了初始浓

摘要选取有序介孔材料MCM-41、大孔材料MOSF作为吸附剂,进行了模拟含铀废水的吸附实验研究,考察了吸附时间,温度,pH,MCM-41的投加量,初始浓度对铀酰溶液吸附率的影响,考察了初始浓度,反应时间对MOSF吸附铀酰溶液的影响;并在相同的pH,反应时间,温度,投加量,初始浓度下比较MCM-41,MOSF对铀酰溶液的吸附效果;绘制Langmuir吸附等温线和Freundlish吸附等温线,研究吸附等温规律,并用XRD谱图分析了MCM-41的组成,并用萃取的方法进行了MOSF预处理。实验结果表明:MCM-41对放射行废水的吸附平衡时间是50min,吸附过程符合Langmuir吸附等温规律;MOSF吸附放射性废水的平衡时间是50min,吸附过程符合Freundlish吸附等温规律;在相同条件下MOSF的吸附效率大于MCM-41的吸附效率。64764

毕业论文关键词  MCM-41、 MOSF 、吸附 、放射性废水

毕业设计说明书(论文)外文摘要

Title    The study of radioactive waste water was adsorbed on porous materials                

                                                              

Abstract

Select a mesoporous material MCM-41, macroporous materials MOSF as an adsorbent, studied the adsorption experiment of simulated wastewater containing uranium.  Investigated the effect of adsorption time, temperature, pH, MCM-41 dosage, initial concentration uranyl on adsorption rate. Investigated the initial concentration, the reaction time on the MOSF adsorption of uranyl solution; and at the same pH, reaction time, temperature, dosage, initial concentration. Compared MCM-41 with MOSF on the adsorption of uranyl solution; draw Langmuir adsorption isotherms and Freundlish adsorption isotherms of adsorption isotherm laws, and analyzed consisting of MCM-41 by XRD spectra, used extraction methods for MOSF pretreatment. Experimental results show that: adsorption equilibrium time is 50min for radiation wastewater on MCM-41 , the adsorption process the Langmuir adsorption isotherm law; equilibration time is 50min for MOSF adsorption of radioactive waste , the adsorption process meets Freundlish adsorption isotherm law; under the same conditions , the adsorption efficiency of MOSF is greater than the adsorption efficiency of MCM-41.

Keywords  MCM-41  MOSF  Adsorption  Radioactive Wastewater

目  录

1  引言 1

1.1  放射性废水的来源及危害 1

1.1.1  放射性废水的来源 1

1.1.2  放射性废水的危害 1

1.2  放射性废水中铀的存在形态 2

1.3  吸附法处理含铀废水研究现状 3

2  实验部分 4

2.1  实验材料和试剂 4

2.2  实验仪器 4

2.3  多孔材料的制备及处理 5

2.3.1  MCM-41的制备 5

2.3.2  MOSF的预处理 5

2.4  溶液的配制 6

2.4.1  铀标准储备液的配制 6

2.4.2  偶氮胂Ⅲ显色剂的配制 6

2.5  放射性废水中铀的测量方法 放射性废水在多孔材料上的吸附研究:http://www.youerw.com/huaxue/lunwen_72079.html

------分隔线----------------------------
推荐内容