Herein, we report the creative combination of foaming and back mixing. Back mixing was simulated by the addition of dried foamed sludge (DFS) to raw sludge. Different ratios of (DFS + CaO), DFS shape and dosing sequence were investigated on the influence of sludge foamability and drying efficiency. Experimental results indicate that back mixing has positive effects on sludge foaming and sludge foam stability. Moreover, CaO is still dominant in the sludge foam. The best addition ratio is 10 g DFS + 10 g CaO for 1 kg of fresh sludge with an optimal dosing sequence of first CaO followed by DFS after 5 min. In addition, foam-mat drying for dewatered sludge is not greatly subjected to the DFS shape. During foam-mat drying, a high drying rate appears at a high foam density (>0.70 g cm(-3)). The foamed sludge of 0.80 g cm(-3) has the fastest drying speed at 30 degrees C, whereas the best drying density is 0.90 g cm(-3) at 50 degrees C. Moreover, the drying rates of foamed sludge were higher when the temperature was increased from 30 degrees C to 50 degrees C. In addition, mathematical modelling results demonstrate that the Logistic model is the most adequate model to describe the entire convective drying of thin layer sludge under the best drying density both at 30 degrees C and at 50 degrees C.
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机译:在此,我们报告了发泡和回混的创造性结合。通过将干燥的泡沫污泥(DFS)添加到原始污泥中来模拟回混。研究了不同比例(DFS + CaO),DFS形状和投料顺序对污泥起泡性和干燥效率的影响。实验结果表明,回混对污泥泡沫化和污泥泡沫稳定性具有积极的影响。此外,CaO在污泥泡沫中仍占主导地位。最佳添加比例是:对于1千克新鲜污泥,添加量为10 g DFS + 10 g CaO,最佳添加顺序为先添加CaO,然后在5分钟后添加DFS。另外,用于脱水污泥的泡沫垫干燥不会很大地经受DFS形状的影响。在泡沫垫干燥过程中,在高泡沫密度(> 0.70 g cm(-3))下会出现高干燥速率。 0.80 g cm(-3)的泡沫污泥在30摄氏度下具有最快的干燥速度,而在50摄氏度下的最佳干燥密度为0.90 g cm(-3)。此外,当温度从30摄氏度增加到50摄氏度。此外,数学模型结果表明,逻辑模型是描述在30摄氏度和30摄氏度最佳干燥密度下薄层污泥对流干燥的最合适模型。在50摄氏度
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