Feasibility study on using excavated soil and rock to sintering utilization

Jing Bai , Peng Kang , Wenbo Zhang , Kunyang Chen , Yu Zhang , Ding Zhou , Huabo Duan
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引用次数: 4

Abstract

Urban construction, especially the ongoing large-scale expansion and utilization of underground space, has resulted in massive excavated soil and rock (ESR) from buildings and subways. Therefore, this study aims to explore the technical ways of ESR sintering utilization from the perspective of technology, environment, and policy through qualitative and quantitative methods. The study analyzes the soil properties and distribution of different depths, and the annual production of clay-rich ESR accounts for about 30 million m³ in Shenzhen. More importantly, the comparison between various pollutant concentrations of ESR in Shenzhen and local soil background values showed that the ESR in Shenzhen had no environmental risks. This study can not only provide a scientific basis for ESR as the raw material of sintering but also provide a theoretical basis for the promotion of the pilot of “Zero waste city”.

挖掘出的土石进行烧结利用的可行性研究
城市建设,特别是地下空间的大规模扩张和利用,造成了大量建筑物和地铁的开挖土岩(ESR)。因此,本研究旨在通过定性和定量相结合的方法,从技术、环境和政策的角度探索电渣烧结利用的技术途径。研究分析了不同深度的土壤性质和分布,深圳富粘土ESR年产量约为3000万m³。更重要的是,深圳ESR中各种污染物浓度与当地土壤背景值的比较表明,深圳ESR不存在环境风险。本研究不仅可以为电渣作为烧结原料提供科学依据,也可以为推进“零废城市”试点提供理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
3.60
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