Carbon dioxide (English: carbon dioxide) is a common compound in the air. Its molecular formula is CO2. Carbon dioxide is a colorless, odorless, non-combustible and non-combustible gas under normal pressure. Carbon dioxide is a greenhouse gas. The concentration of carbon dioxide increased by approximately one part per million in 2009. The industrial production of all walks of life will bring about the emission of carbon dioxide gas. Recently, the editor of Niu Ruide Special Gas has specially collected some information to introduce the relationship between the adjustment of the energy structure of the textile industry and the reduction of carbon dioxide. Analysis of carbon dioxide reduction potential.

The input-output method and the factor analysis method are used to explore the industrial connection, energy consumption and CO2 emission characteristics of the textile industry. Questionnaire surveys are conducted on factories to explore the potential of energy saving and CO2 emission reduction in the industry. Finally, the fuzzy target planning model is adopted. Mechanisms such as raising energy prices and levying carbon taxes are used as CO2 reduction tools to simulate the impact of the textile industry on the industrial economy, energy use and CO2 emissions under different reduction plans. It is expected to provide the government and the industry with future research Reference for proposed CO2 reduction strategies and related measures.

The results of the study show that the textile industry’s energy consumption and CO2 emissions have accounted for a considerable proportion of the overall industry over the years. The energy use types are mainly fuel oil and electricity, and the CO2 emissions and energy consumption are highly correlated. The input-output analysis shows that the textile industry’s backward correlation degree has been higher than the average over the years, indicating that the effect of driving the development of upstream industries is quite significant, while the backward correlation degree has a downward trend; Both the CO2 multiplier and the CO2 multiplier have a tendency to increase, and the energy consumption and CO2 emission intensity are also deteriorating, which deserves attention. From the result of factor analysis, it can be seen that the main key factor for the increase in CO2 over the years is economic growth. It is energy intensity, and the structural ratio is the only reduction factor.

The simulation results of the reduction plan show that when the energy price is increased to separately increase oil products and electricity, the reduction effect is more effective. The carbon tax plan is based on the European carbon tax proposal which has the best effect, and is additionally levied. The mid-start tax plan also has a good reduction effect, but the CO2 ratio is about 25% higher than the 2000 emission level. It can be seen that a single strategy (economic tool) will not be able to achieve the reduction target, so it needs to be considered to match the industry scale Simulate effective solutions in a reduced way. The results of the study show that considering the minimum impact on the industry and the cost of reduction, the European carbon tax proposal should be adopted to reduce the industrial scale by 2% year by year, or the initial tax plan will be levied. The variable tax rate of USD 3 for metric ton has been increased to USD 27 for 2020, and the scale of the industry has been reduced by 2% year by year, both of which are more effective in reducing volume.