Release behavior of soluble salts in MSWI bottom ash used as road basement materials under continuous rainfall conditions

Lingqin Zhao, Dongming Zhang, Yanjun Hu, Qianqian Guo, Long Jiao, Nan Zhou, Francesco Di Maio
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Abstract

The bottom ash is increasingly used as a substitute aggregate material in road construction in China, and road salting is the major salt source in groundwater. Continuous rainfall releases soluble salts from the bottom ash subgrade into the surrounding soil and groundwater, resulting in potential hazards. Different methods were employed to simulate and collect runoff water during rainfall events, including batch leaching test, dynamic leaching test and constant head test, to assess environmental impact of bottom ash as road basement materials under continuous rainfall conditions. This study simulated the seepage of bottom ash backfill roads under different rainfall intensities, rainfall times, and rainfall pH values. A comprehensive sampling and laboratory testing program was undertaken to characterize the environmental impact of soluble salts from bottom ash. The obtained results reveal that the leaching concentrations of Cl and SO42− exceed the limit specified in the class V standard of surface water, which are 2.06–2.17 times and 1.08–1.25 times, respectively. By examining the long-term environmental influence under the condition of continuous rainfall, the leaching of Cl mainly occurs in the early leaching stage, and the maximum leaching concentration reaches 19,700 mg/L. The release concentration of Cl begins to be lower than the class V standard of surface water when continuous rainfall approaches the total rainfall for 13 months. The cumulative release of Cl in the bottom ash is 2.8–5.4 mg/g. Both rainfall intensity and rain pH affect the release of Cl. The obtained results derived from the constant head tests indicate that stagnant water caused by rainfall deteriorates the release of soluble salt into the groundwater in only 1 day, especially at the early stage of 12 h. This work provides some basic information about how to minimize damage to the surrounding environment caused by the leaching of salt in bottom ash.

Abstract Image

连续降雨条件下用作路基材料的 MSWI 底灰中可溶性盐的释放行为
在中国,底灰越来越多地被用作道路建设中的替代骨料材料,而道路撒盐是地下水中的主要盐源。连续降雨会将底灰基层中的可溶性盐分释放到周围土壤和地下水中,造成潜在危害。研究采用了不同的方法来模拟和收集降雨时的径流水,包括批量浸出试验、动态浸出试验和恒定水头试验,以评估底灰作为路基材料在连续降雨条件下对环境的影响。该研究模拟了底灰回填道路在不同降雨强度、降雨时间和降雨 pH 值下的渗流情况。为了确定底灰中可溶性盐对环境的影响,研究人员开展了一项全面的取样和实验室测试计划。结果显示,Cl- 和 SO42- 的浸出浓度超过了地表水 V 类标准规定的限值,分别为 2.06-2.17 倍和 1.08-1.25 倍。通过考察连续降雨条件下的长期环境影响,Cl-的浸出主要发生在浸出初期,最大浸出浓度达到 19 700 mg/L。当连续降雨量接近 13 个月的总降雨量时,Cl- 的释放浓度开始低于地表水 V 类标准。底灰中 Cl- 的累积释放量为 2.8-5.4 mg/g。降雨强度和雨水 pH 值都会影响 Cl- 的释放。恒定水头试验得出的结果表明,降雨造成的积水在短短 1 天内就会使可溶性盐释放到地下水中的情况恶化,尤其是在 12 小时的早期阶段。这项工作为如何最大限度地减少底灰中的盐分沥滤对周围环境造成的破坏提供了一些基本信息。
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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