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[Chemical Knowledge]：Manufacturing method and process of clean gas

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Manufacturing method of clean gas: exploration
in the field of raw materials for chemical production
abstract

this paper introduces in detail the manufacturing method of clean gas in the field of raw materials for chemical production. We explored various production processes and compared their advantages and disadvantages in order to find the most economical and environmentally friendly solution. Through this study, we aim to provide a sustainable and green production method for the chemical production industry to promote environmental protection and economic development.

Introduction

As society pays more and more attention to environmental protection and sustainable development, the chemical production industry is facing more and more stringent environmental protection requirements. As an important raw material for chemical production, the manufacturing method of clean gas has become a hot research topic. The purpose of this paper is to explore an economical and environmentally friendly clean gas manufacturing method to support the green development of the chemical production industry.

research methods

This study uses the methods of literature review and experimental research. Firstly, the research status and various production processes of clean gas manufacturing are understood through literature review. Then, through experimental research, the advantages and disadvantages of various production processes are compared and analyzed to determine the best solution.

results and discussion

1. Production process comparison

This study discusses three clean gas manufacturing processes: absorption method, adsorption method and membrane separation method. Absorption method has the advantages of low equipment investment and simple operation, but high energy consumption; adsorption method has the advantages of low energy consumption and high product purity, but high equipment investment; membrane separation method has the advantages of compact equipment and simple operation, but The membrane life is short and needs to be replaced regularly.

2. Economic Analysis

By comparing and analyzing the investment cost, operating cost and product income of various production processes, this study finds that the comprehensive economic benefits of adsorption method are better, especially in large-scale production. Although the equipment investment is high, but because of its low energy consumption and high product purity, the adsorption method has high economic benefits in long-term operation.

3. Environmental protection analysis

This study evaluates the environmental protection of various production processes from the aspects of exhaust gas discharge, wastewater discharge and solid waste generation. The results show that the membrane separation method has the best performance in terms of environmental protection, and its exhaust gas and wastewater emissions are low, and no solid waste is produced.

Conclusion

This study compares and analyzes the advantages and disadvantages, economy and environmental protection of various clean gas manufacturing processes, and draws the following conclusions: In the field of chemical production raw materials, adsorption is an economical and environmentally friendly clean gas manufacturing method. This method has the advantages of low energy consumption and high product purity, and has high economic benefits in large-scale production. At the same time, membrane separation method has good performance in environmental protection and has great development potential.

This study provides a sustainable and green production method for the chemical production industry, which helps to promote environmental protection and economic development. However, due to the limitation of research time and experimental conditions, this study still has some limitations. In the future, further research work can be carried out to optimize the production process, improve the yield and purity of clean gas, so as to reduce production costs and make greater contributions to the green development of the chemical production industry.

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