The article is based on the survey of rare earth enterprises in Baotou region, Inner Mongolia, analyzes the sorts of rare earth-containing waste produced in rare earth production and their environmental impact. The main sorts of rare earth-containing waste include: low-grade ore generated in the mining sector, tailings from mineral concentrating; water-soaked residue generated in smelting and separating sectors, and solid waste from functional material producing sectors. The low-grade ore has a certain degree of radioactivity, if the economic and technological conditions allowed it also can be used to produce rare-earth. Tailings from mineral concentrating, in addition to radioactivity, it also produces environment pollution to atmosphere, soil and water. However, these tailings are not waste, but the second rare earth mine. Water-soaked residue is radioactive hazardous waste, now stored in line with disposal regulations. Solid wastes from functional materials producing have been recycled and have less impact on the environment.
The paper explored how to develop schemes to achieve a district’s energy consumption per gross domestic product (ECPGDP) target. It first analysed the available measures regarding the reduction of ECPGDP. These measures include optimising the industrial structure, reducing the energy intensity of different industries, reducing the per capita residential energy consumption, and reducing the energy losses. Next, the procedure and methods of developing schemes to achieve the target ECPGDP were proposed. The procedure contains five steps: determine the target ECPGDP, predicting the initial value of the ECPGDP, analysing the availability of different measures of reducing the ECPGDP, forming the schemes of achieving the target, and summarising the proposed schemes. Finally, the paper considered the 12th Five-Year period ECPGDP target of Daxing District, Beijing as a study case. In the case study, four quantitative schemes to achieve the target ECPGDP were considered.
Per GDP energy consumption is the main indicator of district energy-saving effect. The Article firstly analyzed the influence factors of per GDP energy consumption. Then summarized energy-saving measures as six aspects: optimizing industrial structure; reducing energy intensity of industries; reducing per capita household energy consumption; limiting resident population; improving efficiency of energy conversion; improving energy storage and transportation management level. According to implementing body, energy-saving measures are divided into government measure and enterprise measure. District energy-saving measures mainly refer to the government measures. The selection course of district energy-saving measures is divided into five steps: initial prediction of per GDP energy consumption of term-end; analysis of measures of reducing industry energy intensity, per capita household energy consumption and energy loss; second prediction of per GDP energy consumption of term-end; compare with the target value; determination of district energy-saving measures.
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