Synergistic disparities of pollution reduction and carbon mitigation in the industrial chain: Evidence from China's industrial sector.

The synergistic enhancement of pollution reduction and carbon mitigation (PRCM) is an inevitable requirement for China's ecological civilization construction. Existing studies primarily focus on macro-level research, and there is a relative lack of research specifically addressing the micro-level of industrial chains. Based on non-competitive IO tables, this study employed the structural path decomposition analysis method to analyze the synergistic disparities of the PRCM industry chain and its driving factors. The findings reveal: (1) The crucial emission industrial chains for CO2, SO2, and PM show a high overlap degree, accounting for 46.67 %, 46.67 %, 60.00 %, 50.00 %, and 56.67 % during 2002-2020. The PRCM industrial chains are operating at a low synergistic level, with proportions of only 13.33 %, 23.33 %, 20.00 %, and 16.67 %. PRCM exhibits a "similar origin with different paths" phenomenon. (2) China's carbon mitigation policies can reduce pollution, whereas pollution reduction policies have limited carbon mitigation effects. (3) The emission control effect is the primary disparate factor in PRCM synergy, while other factors exhibit consistent impact direction to three emissions. The study's conclusions and corresponding policy suggestions hold significant theoretical and practical implications for relevant authorities to systematically plan synergistic emission reduction pathways and establish targeted synergistic policies.

Economic transition and industrial sulfur dioxide emissions in the Chinese economy.

China transitioned into "new normal phase" during 2007 to 2017, shifting from pursuing rapid GDP growth to a win-win state of economic development and environmental improvement. Using the input-output (IO) table for 2007-2012 and the latest IO table for 2012-2017, an IO model of China's industrial SO2 emissions is established and structural decomposition analysis (SDA) is applied to examine the changes in industrial SO2 emissions resulting from this economic transition. Five influencing factors (emission intensity, production technology, final demand expenditure, final demand structure and economic scale) are taken into consideration. The analysis shows that emission intensity and economic scale are the most influential factors on SO2 emissions. Emission intensity reduced SO2 emissions by 16,560,886 t in 2012-2017 whilst economic scale increased SO2 emissions by 473,490 t. Compared with the period 2007-2012, the contribution rate of emission intensity increased from -82.3% to -189.2%, while that of economic scale decreased from 131.8% to 54.1%. The total contributions of 5 factors to SO2 reduction increased from -5,249,417 t to -12,783,248 t, and the contribution rate increased from -24.8% to -146%. China's energy conservation and emission reduction has achieved remarkable results between 2007 and 2017. In "new normal phase", the slowing of China economic growth, the transition of economic development, industrial structural adjustment and rational consumption habits have had significant effects in reducing environmental pollution.

Public Perception towards Waste-to-Energy as a Waste Management Strategy: A Case from Shandong, China.

Municipal solid waste (MSW) is posing great challenge for most countries in the world, which can cause severe negative impacts to the environment and human health. Waste-to-energy has great potential in China because of its technological maturity and policy support at the national level. However, there are significant conflicts between the huge market demand and strong public opposition. It is imperative to examine the public perception of waste-to-energy, especially for developing countries where a large number of projects are under construction or have been approved. The public perception of waste-to-energy was carried out by a questionnaire survey in this research. A total of 650 questionnaires were distributed and 629 questionnaires were returned, with a response rate of 96.8%. The results show that the public showed general concern in regard to environmental issues. Respondents had an overall positive attitude towards waste-to-energy, but it varied according to the demographic details of residents, such as age, education, and income. Recognition level of the benefits was higher than the concern of associated risks. Multiple linear regression shows that awareness of environmental issues had no impact on public attitude towards waste-to-energy, while public awareness and perceived benefits had notable positive impacts. Perceived risks had a positive correlation with public attitude. In order to promote the development of MSW incinerators, the government should make more publicity efforts. Rural residents, people over 50 years old, and people with low education and low income are the major groups which should be focused on to enhance the public perception. The findings provide a theoretical and practical reference for enhancing the social acceptance of waste-to-energy development.