The disposal of sludge from wastewater treatment presents highly complex problems to any municipality. Most of the sludge disposal methods have varying degrees of environmental impact. Hence, it is necessary to explore potential areas of reuse in order to alleviate sludge disposal problems and to conserve natural resources. Industrial sludge and marine clay are two forms of high-volume wastes. Using these wastes as a resource of raw materials to produce construction aggregates would enable large-scale sludge reuse. The aggregates were produced at various sludge-clay combinations containing 0, 20, 50, 80 and 100% clay contents, respectively. The pelletized aggregates displayed lower particle densities ranged between 1.48 and 2.25 g/cm(3), compared to the density of granite at 2.56 g/cm(3). Good 28-day concrete compressive strength of 38.5 N/mm(2) achieved by the 100% sludge aggregate was comparable to the value of 38.0 N/mm(2) achieved of the granite control specimens. The leachate contamination levels from the aggregates after 150 days were found acceptable when used in concrete, indicating insignificant environmental contamination. The heat flow study showed increases in heat flow at the temperatures of 480degreesC and between 660degreesC and 900degreesC, indicating a need for the extension of heating time around these temperatures.
展开▼
机译:污水处理产生的污泥处置给任何市政当局都带来了非常复杂的问题。大多数污泥处理方法对环境都有不同程度的影响。因此,有必要探索潜在的再利用领域,以减轻污泥处置问题并节约自然资源。工业污泥和海洋粘土是大量废物的两种形式。使用这些废物作为原材料来生产建筑集料,将能够大规模重复利用污泥。在分别包含0、20、50、80和100%粘土含量的各种污泥-粘土组合下生产集料。与2.56 g / cm(3)的花岗岩密度相比,粒状聚集体显示出较低的颗粒密度,范围在1.48和2.25 g / cm(3)之间。 100%的污泥骨料达到的28天混凝土抗压强度为38.5 N / mm(2),可与花岗岩对照样品的38.0 N / mm(2)相媲美。在混凝土中使用150天后,发现骨料中的渗滤液污染水平可以接受,表明对环境的污染很小。热流研究表明,在480°C以及660°C和900°C之间的温度下,热流会增加,这表明需要在这些温度附近延长加热时间。
展开▼
