喀麦隆杜阿拉选定医疗机构生物医学固体废物焚烧底灰中的重金属鉴定和检测

Nkwenti Peter, Etame Loe Gisele Marie, J. Djopnang, N. Nga
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引用次数: 0

摘要

目的:在喀麦隆杜阿拉选定的医疗保健设施中识别和检测生物医学固体废物焚烧底灰中的重金属。研究设计:采用横断面实地调查和基于实验室的研究设计方法,包括定量和定性数据收集方法。研究地点和持续时间:本研究于2023年1月至2023年6月在喀麦隆沿海地区杜阿拉进行。方法:从选定的卫生保健设施的焚烧炉中收集5克过滤后的生物垃圾焚烧底灰,使用有标签的塑料聚乙烯容器,并运往实验室进行分析。样品被风干,并在聚丙烯薄膜上引入EDX 7000光谱仪进行敏感分析。结果:EDX 7000谱仪测定了各HCF中从Na到铀的重金属的定量和定性浓度百分比。锌在BDH(7.491±0.009333%)、LH(4.255±0.009%)、GH(7.506±0.013%)、AHD(6903±0.012%)和铁在GOHD(3.669±0.013%)中具有显著的浓度百分比。结论:焚化炉焚烧后的BA处置不当,可能会渗入地下水或通过径流进入水体,被排土场的粉尘吸入,并在散逸到排土场的动植物体内进行生物积累,对环境和水体造成污染,可能会对环境产生负面影响,并造成癌症、呼吸系统疾病等健康风险。在这次调查中燃烧的底部灰烬中发现的一些重元素超过了美国环保局允许的限度。确保在卫生的堆填区妥善弃置化学废物,有助减少环境中的重金属及其他有毒元素,从而保障人体健康。为了防止对环境造成额外的破坏和人类接触到这些元素,必须通过废物回收来改善废物管理措施。此外,建议医疗保健行业的废物管理人员接受安全焚化炉底灰处理和处置技术方面的培训。监管机构还应监督和实施社区医疗机构的底灰管理政策。喀麦隆是一个发展中国家,必须集中精力应对有益于人类健康的环境挑战,因此这项研究具有根本意义。可持续地预防各种氟氯烃中的废物和重金属将源于源头隔离、对问题的认识以及在废物循环的每个阶段采取保障措施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heavy Metals Identification and Detection in Incinerated Bottom Ash from Biomedical Solid Waste in Selected Healthcare Facilities in Douala, Cameroon
Aims: To identify and detect heavy metals in incinerated bottom ash of Biomedical Solid Waste in selected healthcare facilities in Douala, Cameroon. Study Design: Cross-sectional fieldwork and laboratory based study design approach that involved quantitative and qualitative data collection methods Place and Duration of Study: This study was carried out in the Douala, Littoral region of Cameroon from the month of January 2023 to June 2023. Methodology: 5 grams of filtered incinerated bottom ash from BSW were collected from incinerators of the selected healthcare facilities using labeled plastic polyethylene containers and transported to the laboratory for analysis. Samples were air dried and introduced on polypropylene film to the EDX 7000 spectrometer for sensitive analysis. Results: Both the quantitative and qualitative concentration percentage of the heavy metals detected from Na to Uranium in each HCF was determined by the EDX 7000 spectrometer device. Zinc had a significant concentration percentage in BDH (7.491±0.009333%), LH (4.255±0.009%), GH (7.506±0.013%), AHD (6,903±0.012%) and Iron had a significant concentration percentage in GOHD (3.669±0.013%). Conclusion:  It is concluded that improper disposal of incinerated BA from incinerators may pollute the environment and water bodies through leaching into ground water or being carried into water bodies through runoffs, being inhaled in dust from the dump area, and bioaccumulating in plants and animals that stray to the dump site, potentially having a negative impact on the environment and health risks like cancer and respiratory illnesses. Some of the heavy elements found in bottom ash that had been burned during this investigation were above the USEPA-permitted limits.   Assuring proper BA disposal through hygienic landfills may help reduce the amount of heavy metals and other toxic elements in the environment, hence safeguarding human health. To prevent additional environmental damage and human exposure to these elements, waste management practices must be improved through BA recycling. Additionally, it is advised that waste managers in the healthcare industry receive training in safe incinerator bottom ash handling and disposal techniques. Regulatory organizations should also oversee and implement policies for bottom ash management in neighborhood healthcare facilities. In Cameroon, a developing nation that must concentrate on environmental challenges that also benefit human health, this study is fundamentally significant. Sustainable prevention of waste and heavy metals in various HCFs will result from source segregation, knowledge of the problem, and safeguards taken at every stage of the waste cycle.
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