给排水工程中高级氧化技术的应用研究
摘要
本研究针对给排水工程中高级氧化技术的应用进行了深入探讨。随着环境污染和水资源短缺问题的日益严峻,高级氧化技术作为一种高效、环保的水处理技术,受到了广泛关注。本研究首先介绍了高级氧化技术的定义、分类、技术原理与特点,为后续研究提供了理论基础。本文详细分析了高级氧化技术在给排水工程中的具体应用,包括湿式氧化技术、光催化氧化技术、电化学氧化技术以及其他高级氧化技术如化学氧化法和超临界水氧化法等。特别地,对光催化氧化技术的光催化原理、半导体光催化剂的固定化和改性技术进行了详细阐述,这些技术对于提高水处理效率、降低能耗具有重要意义。在探讨高级氧化技术应用现状的基础上,本文还展望了未来发展趋势与前景。随着技术创新与优化的不断推进,高级氧化技术将在给排水工程中发挥更大的作用。同时,市场需求和政策支持也将为高级氧化技术的发展提供有力保障。从可持续发展的角度看,高级氧化技术对于环保事业具有重要意义,有助于实现水资源的循环利用和环境保护。本研究为给排水工程中高级氧化技术的应用提供了有益的探索和参考,对于推动水处理技术的进步和发展具有重要意义。
关键词:给排水工程;高级氧化技术;光催化氧化
Abstract
In this study, the application of advanced oxidation technology in water supply and drainage engineering is deeply discussed. With the increasingly severe problems of environmental pollution and water resources shortage, advanced oxidation technology, as an efficient and environmentally friendly water treatment technology, has been widely concerned. This study first introduces the definition, classification, technical principle and characteristics of advanced oxidation technology, which provides a theoretical basis for subsequent research. In this paper, the application of advanced oxidation technology in water supply and drainage engineering is analyzed in detail, including wet oxidation technology, photocatalytic oxidation technology, electrochemical oxidation technology and other advanced oxidation technology such as chemical oxidation method and supercritical water oxidation method. In particular, the photocatalytic principle of photocatalytic oxidation technology, immobilization and modification of semiconductor photocatalyst technology are described in detail. These technologies are of great significance to improve the efficiency of water treatment and reduce energy consumption. On the basis of discussing the application status of advanced oxidation technology, this paper also looks forward to the future development trend and prospect. With the continuous advancement of technological innovation and optimization, advanced oxidation technology will play a greater role in water supply and drainage engineering. At the same time, market demand and policy support will also provide a strong guarantee for the development of advanced oxidation technology. From the perspective of sustainable development, advanced oxidation technology is of great significance to the cause of environmental protection, contributing to the recycling of water resources and environmental protection. This study provides useful exploration and reference for the application of advanced oxidation technology in water supply and drainage engineering, and has important significance for promoting the progress and development of water treatment technology.
Key words: water supply and drainage engineering; Advanced oxidation technology; Photocatalytic oxidation
目录
一、绪论 4
1.1 研究背景与意义 4
1.2 国内外研究现状 4
1.3 研究目的与内容 5
二、高级氧化技术概述 5
2.1 高级氧化技术定义 5
2.2 高级氧化技术分类 6
2.3 技术原理与特点 6
三、高级氧化技术在给排水工程中的应用 7
3.1 湿式氧化技术 7
3.2 光催化氧化技术 7
3.2.1 光催化氧化技术的光催化原理 7
3.2.2 半导体光催化剂的固定化和改性技术 8
3.3 电化学氧化技术 8
3.4 其他高级氧化技术 9
3.4.1 介绍化学氧化法 9
3.4.2 超临界水氧化法等技术在给排水工程中的应用 9
四、未来发展趋势与前景展望 9
4.1 技术创新与优化方向 9
4.2 市场需求与政策支持 10
4.3 可持续发展与环保意义 10
五、结论 11
参考文献 12
致谢 12
摘要
本研究针对给排水工程中高级氧化技术的应用进行了深入探讨。随着环境污染和水资源短缺问题的日益严峻,高级氧化技术作为一种高效、环保的水处理技术,受到了广泛关注。本研究首先介绍了高级氧化技术的定义、分类、技术原理与特点,为后续研究提供了理论基础。本文详细分析了高级氧化技术在给排水工程中的具体应用,包括湿式氧化技术、光催化氧化技术、电化学氧化技术以及其他高级氧化技术如化学氧化法和超临界水氧化法等。特别地,对光催化氧化技术的光催化原理、半导体光催化剂的固定化和改性技术进行了详细阐述,这些技术对于提高水处理效率、降低能耗具有重要意义。在探讨高级氧化技术应用现状的基础上,本文还展望了未来发展趋势与前景。随着技术创新与优化的不断推进,高级氧化技术将在给排水工程中发挥更大的作用。同时,市场需求和政策支持也将为高级氧化技术的发展提供有力保障。从可持续发展的角度看,高级氧化技术对于环保事业具有重要意义,有助于实现水资源的循环利用和环境保护。本研究为给排水工程中高级氧化技术的应用提供了有益的探索和参考,对于推动水处理技术的进步和发展具有重要意义。
关键词:给排水工程;高级氧化技术;光催化氧化
Abstract
In this study, the application of advanced oxidation technology in water supply and drainage engineering is deeply discussed. With the increasingly severe problems of environmental pollution and water resources shortage, advanced oxidation technology, as an efficient and environmentally friendly water treatment technology, has been widely concerned. This study first introduces the definition, classification, technical principle and characteristics of advanced oxidation technology, which provides a theoretical basis for subsequent research. In this paper, the application of advanced oxidation technology in water supply and drainage engineering is analyzed in detail, including wet oxidation technology, photocatalytic oxidation technology, electrochemical oxidation technology and other advanced oxidation technology such as chemical oxidation method and supercritical water oxidation method. In particular, the photocatalytic principle of photocatalytic oxidation technology, immobilization and modification of semiconductor photocatalyst technology are described in detail. These technologies are of great significance to improve the efficiency of water treatment and reduce energy consumption. On the basis of discussing the application status of advanced oxidation technology, this paper also looks forward to the future development trend and prospect. With the continuous advancement of technological innovation and optimization, advanced oxidation technology will play a greater role in water supply and drainage engineering. At the same time, market demand and policy support will also provide a strong guarantee for the development of advanced oxidation technology. From the perspective of sustainable development, advanced oxidation technology is of great significance to the cause of environmental protection, contributing to the recycling of water resources and environmental protection. This study provides useful exploration and reference for the application of advanced oxidation technology in water supply and drainage engineering, and has important significance for promoting the progress and development of water treatment technology.
Key words: water supply and drainage engineering; Advanced oxidation technology; Photocatalytic oxidation
目录
一、绪论 4
1.1 研究背景与意义 4
1.2 国内外研究现状 4
1.3 研究目的与内容 5
二、高级氧化技术概述 5
2.1 高级氧化技术定义 5
2.2 高级氧化技术分类 6
2.3 技术原理与特点 6
三、高级氧化技术在给排水工程中的应用 7
3.1 湿式氧化技术 7
3.2 光催化氧化技术 7
3.2.1 光催化氧化技术的光催化原理 7
3.2.2 半导体光催化剂的固定化和改性技术 8
3.3 电化学氧化技术 8
3.4 其他高级氧化技术 9
3.4.1 介绍化学氧化法 9
3.4.2 超临界水氧化法等技术在给排水工程中的应用 9
四、未来发展趋势与前景展望 9
4.1 技术创新与优化方向 9
4.2 市场需求与政策支持 10
4.3 可持续发展与环保意义 10
五、结论 11
参考文献 12
致谢 12
