Heterogeneous evolution and driving forces of multiple hazardous air pollutants and GHGs emissions from China's primary aluminum industry.

The booming of China's primary aluminum industry (PAI) brought substantial emissions of hazardous air pollutants (HAPs) and greenhouse gases (GHGs). By using life cycle assessment and bottom-up method, a comprehensive emission inventory for multiple typical HAPs and GHGs from China's PAI during 1990-2021 was developed and explored for the first time. Our results show that spatial-temporal emissions trends of HAPs and GHGs from PAI in China diverse significantly.

Material flow analysis and statistical entropy evaluation of plastic packaging for express delivery in China.

Encouraging the recycling of plastic packaging materials in express delivery is a necessary step toward environmentally friendly industrial development. In this study, we present a framework for analyzing the flow of materials in express plastic packaging, from production and manufacturing to consumption and recycling. In examining the use of recycled materials in post-consumer express plastic packaging and the destination of consumer packaging waste in 2020 and 2021, we found that 44.

Analysis of the coupled flows of aluminum and copper in household air conditioning system.

The global "copper-poor and aluminum-rich" situation has made the possibility of "copper saving with aluminum" an important topic. This study established a framework for analyzing multiple substances' coupled flows at the product level based on material flow analysis (MFA), and took the household air conditioning system of the Chinese mainland in 2020 as an example to characterize the coupled flows of aluminum and copper. The results showed that the system consumed 0.

Analysis of iron composite flow in China.

Iron is an important metal material that is crucial to social and national economic development. In order to understand iron's material flow, energy flow, and value flow in China, a composite flow framework is here established. Based on this framework, the concept of price is introduced, and China is taken as an example to study the composite flow of iron in 2018.

Comparative analysis of internal and external characteristics of lead-acid battery and lithium-ion battery systems based on composite flow analysis.

Due to human's diversified requirements and the constraints of external environmental factors, lead-acid batteries and lithium-ion batteries coexist and compete with each other now. However, the difference of internal and external characteristics between the two battery systems is unknown. Based on the analysis of the internal flows and its impact on the external environment, this research established a framework for the relationship between the battery system and the external systems.

Historical evolution of lead-acid battery system and its relationship with external environment based on the composite flow.

The quantitative demand for composite flow of lead-acid battery (LAB) system varies with the requirement from human and affects the external environment. A framework with four stages [production of primary lead (PPL), fabrication and manufacturing (F&M), use and waste management and recycling (WMR)] and the external dynamic evaluating system was developed. The historical evolution characteristics of the system in the Chinese mainland from 1990 to 2016 was investigated.

Quantitative analysis of the material, energy and value flows of a lead-acid battery system and its external performance.

The comprehensive optimization of lead-acid battery system (LABS) can promote the relationship between the development of human-socio-economic system and environment. Based on the lead anthropogenic cycle, LABS is divided into four stages: production of primary lead (PPL), fabrication and manufacture (F&M), use and waste management and recycling (WM&R). According to the relationship between LABS and external environment, a framework is developed for the coupling of composite flow (material flow, energy flow and value flow).

Anthropogenic antimony flow analysis and evaluation in China.

China is facing a shortage of antimony (Sb) resources, and Sb emissions are worsening. In exploring solutions to these issues, this paper attempts to apply substance flow analysis (SFA) to track Sb flow among the lithosphere, anthroposphere, and biosphere in China. The results are as follows: (1) China's Sb ore faces the risk of depletion.

Quantitative analysis of the coupling coefficients between energy flow, value flow, and material flow in a Chinese lead-acid battery system.

To reveal the historic characteristics of the material flow, energy flow and value flow in a lead-acid battery (LAB) system, a framework for the coupling relationship among the three flows was established based on material flow analysis and the characteristics of the energy and value flows. The coupling coefficients between energy and material (CCEM) and value and material (CCVM) were also defined. The investigation used by China as a case to study changes in stages and the historic evolution.

Quantitative analysis of the spatio-temporal evolution of the anthropogenic transfer of lead in China.

The redistribution of lead to meet human needs reflects the relationship between humans and land, and the redistribution process will influence the future evolution of the land surface. An analysis of the spatial transfer of lead was undertaken to determine the regional distribution of lead in each phase of its life cycle during 1990-2014 using the administrative unit of each province in Mainland China as the spatial unit. A quantitative analysis of the spatio-temporal evolution of the anthropogenic transfer of lead in China was conducted through a comparison of the differences in the spatio-temporal distribution of lead at different stages of its life cycle.

Source analysis of global anthropogenic lead emissions: their quantities and species.

Lead emissions originate primarily from the anthropogenic lead cycle, and research into their characteristics, such as species type, provides essential information for pollution control. A dynamic model for global lead emissions has been established, and their emissions and temporal accumulations were estimated in this study based on the evolution of the lead cycle over 70 years. An inventory of the emissions species was obtained after identifying their physiochemical transformations.

[Reasons for the changes in anthropogenic lead flows of China].

In recent years, accompanied by a series of comprehensive improvement actions on lead pollution, anthropogenic lead flows of China have somewhat changed; by exploring the reasons, some references can be provided for further improvement in resource utilization and environment quality. In this paper, based on the framework of lead flow analysis, the causes of changes in lead flows were identified and divided into scale factors and technical factors. Based on that and taking indices such as the quantities of lead production and recovered lead scraps, and lead recycling rate and emission rates as the scale and technical indices, respectively, the reasons for the changes of lead flow in our country were analyzed from the aspects of consumption, trade, technology, management and so on.

[Quantitative analysis on the changes in anthropogenic lead flows of China].

In recent years, a series of measures have been taken to improve the lead anthropogenic flow. Knowledge of the changes that happened to anthropogenic lead flows can not only examine the effectiveness of these measures, but also help us to understand the current status of lead flows in China, which can provide us quantitative fundamental reference for further improvement in source utilization and environment quality. In this study, the material flow analysis method based on stock and flow (STAF) was employed to analyze the current anthropogenic lead flows in 2010.

[Speciation analysis of lead losses from anthropogenic flow in China].

Lead pollutants in the environment origin from lead losses in the anthropogenic lead cycle, and the diversity of lead loss species indicates different starting points for transferring and transformation in the environmental medium. The knowledge of lead lose species from anthropogenic flow can help lay a scientific and sound foundation for future environmental risk assessment and source management. The anthropogenic lead flow was tracked down in the research, and with the methodology of physical and chemical analysis, the species of lead losses in all life-cycle stages were recognized.

[Method for grading industrial sectors in energy consumption and its application].

Energy is mainly consumed by the urban industry system, thus grading industrial sectors for their energy consumption may help to identify the concerned industrial sectors and provide necessary information for industrial energy management in China's industrialization and urbanization. In present article, based on a review of the fundamental relationships between energy consumption and industrial sectors, the contribution rates and energy efficiency of industrial sectors are chosen as typical parameters for energy consumption. The concept of distance index of industrial sectors for energy consumption is defined through China's average level as a reference base.

[Eco-efficiency of Jiaozuo industry sectors].

Jiaozuo city was taken as a representative industry city and its industry energy consumption and industry emissions such as wastewater,solid waste, SO2, dust and so on were selected as corresponding environmental loads. The contribution rate to the environmental loads and eco-efficiencies of Jiaozuo industry sectors were analyzed quantitatively. The results show that, the industry sector with the highest energy eco-efficiency is Mining and Processing of Ferrous Metal Ores (FMM), 43.

[Eco-efficiency of industry sectors for China].

Industry is the main source of resource consumption and environmental emissions of China, and the analyzing of eco-efficiencies for industrial sectors may provide essential information for the restructure of industrial system and the improvement of environmental quality of China. The industry composition was analyzed and the relationship between the industry and its environment was established. The energy consumption and the main environmental emissions such as wastewater, solid waste, industry SO2, smog, dust were chosen as the environmental impact categories, the corresponding eco-efficiencies of industry were defined and estimated for China in 2007.