基于自动化发展的化学工程与工艺分析
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摘要
基于自动化发展的化学工程与工艺,正以其技术优势逐渐成为促进化学行业改革的重要推动力。在化工领域应用自动化的技术,化学工程与工艺的水平可以得到显著提升,对环境的破坏以及对能源的消耗也会大大减少,应用自动化技术符合化学工程发展的趋势。本文基于化学工程与工艺发展的现状,以高耐蚀性锌镍合金纳米复合镀工艺的研究为例,着重介绍了其工艺过程,分析了目前化学工程与工艺发展的趋势,并提出了几点自己的建议,以期为化学工程和工艺未来的发展有借鉴意义。
The chemical engineering and process based on the automation development is becoming an important impetus to promote the chemical industry reform with its technical superiority. The application of automation technology in chemical industry can make the level of chemical engineering and technology improved significantly, and the damage to the environment and energy consumption will be greatly reduced, and the application of automation technology is in line with the trend of chemical engineering development. Based on the present situation of chemical engineering and process development, taking the research of high corrosion-resistant Zn-ni alloy Nano-composite plating technology as an example, this paper emphatically introduces its process, analyzes the current trend of chemical engineering and technology development, and puts forward some suggestions for reference for the future development of chemical engineering and technology.
The chemical engineering and process based on the automation development is becoming an important impetus to promote the chemical industry reform with its technical superiority. The application of automation technology in chemical industry can make the level of chemical engineering and technology improved significantly, and the damage to the environment and energy consumption will be greatly reduced, and the application of automation technology is in line with the trend of chemical engineering development. Based on the present situation of chemical engineering and process development, taking the research of high corrosion-resistant Zn-ni alloy Nano-composite plating technology as an example, this paper emphatically introduces its process, analyzes the current trend of chemical engineering and technology development, and puts forward some suggestions for reference for the future development of chemical engineering and technology.
引文
[1]冯林林.基于自动化发展的化学工程与工艺分析[J].化工设计通讯,2018,44(03):230.
[2]杨杰,钟颖.基于自动化发展的化学工程与工艺探讨[J].化工管理,2018(24):208-209.
[3]张文军.化学工程与工艺中的自动化发展趋势[J].化工管理,2018(20):100-101.
[4]Hannsj?rgFreund,KaiSundmacher.Towardsamethodology for the systematic analysis and design of efficient chemical processes[J]. Chemical Engineering&Processing:Process Intensification,2008,47(12).
[5]Jean-Claude Charpentier. In the frame of globalization and sustainability, process intensification, a path to the future of chemical and process engineering(molecules into money)[J]. Chemical Engineering Journal,2007,134(1).
[2]杨杰,钟颖.基于自动化发展的化学工程与工艺探讨[J].化工管理,2018(24):208-209.
[3]张文军.化学工程与工艺中的自动化发展趋势[J].化工管理,2018(20):100-101.
[4]Hannsj?rgFreund,KaiSundmacher.Towardsamethodology for the systematic analysis and design of efficient chemical processes[J]. Chemical Engineering&Processing:Process Intensification,2008,47(12).
[5]Jean-Claude Charpentier. In the frame of globalization and sustainability, process intensification, a path to the future of chemical and process engineering(molecules into money)[J]. Chemical Engineering Journal,2007,134(1).