聚丙烯酸的制备及性能毕业论文

2022-03-22 20:35:06

论文总字数：22483字

摘要

这些年来，水资源的匮乏、水污染治理成了全球性的难题，如何合理有效的利用水资源以及水资源的循环已经成为社会发展至关重要的问题。聚丙烯酸（PAA）作为一种优秀的水溶性阻垢分散剂，广泛的应用于水处理领域中。本课题主要研究合成不同PH下的PAA，用静态阻垢法测其效果。结果表明对于阻不同的物质的垢应选取适合的PH值。

关键词：聚丙烯酸阻垢分散

ABSTRACT

Over the years, water scarcity and water pollution control has become a global problem, how rational and efficient use of water resources and water cycle of social development has become a critical issue. Polyacrylic acid (PAA) as an excellent water-soluble scale inhibitor and dispersant, widely used in water treatment field. The main research topics PAA synthesis under different PH, measuring the effect of static scale method. The results showed that the resistance of different scale materials should be selected for the PH value.

Keywords Polyacrylic acid ，Scale Inhibition， Dispersion

摘要······························································Ⅰ

ABSTRACT·······················································Ⅱ

第一章引言·······················································1

1.1聚丙烯酸(PAA)的概述··········································1

1.2 聚丙烯酸(PAA)的阻垢机理·····································1

1.2.1晶格歪曲···············································1

1.2.2分散、絮凝的作用········································1

1.2.3 聚丙烯酸的共沉积膜消解作用·····························2

1.3聚丙烯酸(PAA)的合成方法·····································2

1.3.1 聚合机理···············································2

1.3.2 聚合方法···············································2

1.4小结·····················································6

第二章聚丙烯酸(PAA)的合成·····································7

2.1 试剂与仪器··················································7

2.1.1 药剂···················································7

2.1.2 仪器···················································7

2.2 实验合成····················································7

2.3 结果与讨论··················································8

第三章不同PH值的聚丙烯酸（PAA）的阻垢分散性能研究···········9

3.1 前言························································9

3.2 对碳酸钙的阻垢性能评定······································9

3.2.1 主要试剂···············································9

3.2.2 主要仪器···············································9

3.2.3 实验方法··············································10

3.2.4 实验结果··············································10

3.3 对磷酸钙的阻垢性能评定·····································11

3.3.1 主要试剂··············································11

3.3.2 主要仪器··············································11

3.3.3 实验方法··············································12

3.3.4 实验结果··············································12

3.4 对硫酸钙的阻垢性能评定·····································13

3.4.1 主要试剂··············································13

3.4.2 主要仪器··············································13

3.4.3 实验方法··············································14

3.2.4 实验结果··············································14

3.5 对锌盐的分散性能的评定·····································15

3.5.1 主要试剂··············································15

3.5.2 主要仪器··············································16

3.5.3 实验方法··············································16

3.5.4 实验结果··············································17

3.6 对氧化铁分散性能的评定·····································18

3.6.1 主要试剂··············································18

3.6.2 主要仪器··············································18

3.6.3 实验方法··············································18

3.6.4 实验结果··············································19

3.7 小结·······················································20

第四章结论与展望···············································21

4.1 结论·······················································21

4.2展望························································21

参考文献·························································22

第一章引言

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