Risk analysis for groundwater in the area of the municipal waste landfill in Sosnowiec, South Poland

Natalia Bareła, D. Dąbrowska
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Abstract

Risk assessment for groundwater allows for preventive activities in the field of environmental monitoring. The risk assessment for groundwater in the area of the municipal waste landfill in Sosnowiec was carried out using the Nemerov Index (NPI) and the Enrichment Index (EF), as well as a SWOT (Strengths, Weaknesses, Opportunities, Threats) analysis and a risk matrix. It was performed on the basis of the database from 2014-2019 for ten piezometers belonging to the landfill’s observation network. In the case of the risk matrix, 20 risks were identified regarding climatic conditions, landfill infrastructure and employees. The SWOT analysis considered the strengths and weaknesses of the facility as well as opportunities related to technological development and threats related primarily to the location of the facility within the landscape. The risk assessment indices were calculated for the following parameters: electrolytic conductivity, Na, Mg, K, Ca, Mn, Fe, TOC, HCO3, Cl, SO4, and NH4. The highest values of the NPI index exceeded 3,500 (in a single measurement), while for the EF index the values reached almost 500. These prove the impact of this facility on the quality of groundwater. However, hydrochemical background value and the value of the immobile parameter are also important. This article uses limit values for the first class of groundwater quality. The results of above mentioned methods indicate a medium risk to groundwater, and the opportunities and strengths of the facility outweigh the negative aspects of the plant’s operation. Further research should include the identification of additional risk factors and the likely response to risk.
波兰南部索斯诺维茨城市垃圾填埋场地区地下水的风险分析
地下水风险评估有助于在环境监测领域开展预防活动。索斯诺维茨城市垃圾填埋场区域的地下水风险评估采用了尼默洛夫指数 (NPI) 和富集指数 (EF),以及 SWOT(优势、劣势、机会、威胁)分析和风险矩阵。该分析以 2014-2019 年数据库为基础,针对属于垃圾填埋场观测网络的 10 个压强计进行。在风险矩阵中,确定了 20 项与气候条件、垃圾填埋场基础设施和员工有关的风险。SWOT 分析考虑了该设施的优势和劣势,以及与技术发展相关的机遇和主要与该设施在景观中的位置相关的威胁。针对以下参数计算了风险评估指数:电解电导率、Na、Mg、K、Ca、Mn、Fe、TOC、HCO3、Cl、SO4 和 NH4。NPI 指数的最高值超过 3500(单次测量),而 EF 指数的最高值接近 500。这证明了该设施对地下水质量的影响。不过,水化学背景值和不动参数值也很重要。本文采用第一类地下水水质的限值。上述方法的结果表明对地下水的风险为中等,该设施的机遇和优势大于工厂运营的负面影响。进一步的研究应包括确定其他风险因素和可能的风险应对措施。
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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