OPTIMIZING CEMENT KILN DUST DENSITY TO IMPROVE LANDFILL AIR SPACE UTILIZATION

IF 1.2 Q3 GEOSCIENCES, MULTIDISCIPLINARY Rudarsko-Geolosko-Naftni Zbornik Pub Date : 2023-01-01 DOI:10.17794/rgn.2023.2.13
Mohamed Y. Abd El-Latif, A. Fayed, Mahmoud E. Hassan
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Abstract

Optimizing the density of waste materials in landfills by proper compaction prolongs the facility life due to the efficient use of landfill airspace. Cement kiln dust (CKD) is a waste by-product produced in huge amounts which exceeds the used quantities in the cement recycling industry and beneficial CKD applications. The vast amount of CKD is almost landfilled in its loose state in Egypt which causes a big loss in landfill airspace due to the low density of CKD. The hydraulic binder effect and dusty behavior of reactive CKD complicates its compaction process. Accordingly, this research was performed to investigate CKD compaction properties with three types of lubricants, which are potable water, salt water and waste oil. Maximum dry density (MDD) and optimum moisture content (OMC) for these lubricant types and different wetting methods were investigated in order to improve the landfill air space utilization and to reduce the dusty effect of CKD during compaction. The effect of immediate compaction after wetting and the effect of compaction delay by allowing CKD to hydrate initially for a certain period were studied. Compaction energy and methods of the wetting of CKD either by full submergence in water or prewetting were tested. The maximum weights of a disposed CKD and durations required to fill an intended landfill air space for different CKD conditions, lubricant types and compaction methods were presented for a case study in Ain Sokhna, Egypt.
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优化水泥窑粉尘密度,提高填埋场空气空间利用率
通过适当的压实来优化垃圾填埋场的废物密度,由于有效地利用垃圾填埋场的空间,延长了设施的寿命。水泥窑灰是水泥回收工业中产生的大量超过使用量的废副产物,也是水泥窑灰的有益应用。在埃及,大量的CKD几乎是以松散状态填埋的,由于CKD密度低,造成了很大的填埋空域损失。反应性CKD的水力粘结剂效应和粉尘特性使其压实过程复杂化。因此,本研究考察了三种润滑剂(饮用水、盐水和废油)对CKD压实性能的影响。研究了不同润湿方式下不同类型润滑剂的最大干密度(MDD)和最佳含水率(OMC),以提高填埋场空气空间利用率,降低CKD在压实过程中的粉尘影响。研究了湿化后立即压实的效果和允许CKD初始水化一定时间延迟压实的效果。试验了CKD的压实能和全浸湿和预湿两种润湿方法。在埃及Ain Sokhna的一个案例研究中,针对不同的CKD条件、润滑剂类型和压实方法,给出了处置的CKD的最大重量和填充填埋场空气空间所需的时间。
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来源期刊
CiteScore
2.50
自引率
15.40%
发文量
50
审稿时长
12 weeks
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