Anđelina Bubalo, D. Vouk, Danica Maljković, T. Bolanča
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引用次数: 1
摘要
在由回转窑反应器组成的半工业中试装置上对污水污泥的气化进行了研究。气化过程之前,在带有内置蜗杆输送机的集成管状旋转结构中对SS进行干燥,以增加SS中的干物质(DM)含量(> 90wt .%)。由于可燃气体h2 (41.5 vol.%)和ch4 (3.2 vol.%)含量高,SS气化过程释放的富氢合成气的热值(LHV)较低,约为8.83 MJ N -1 m -3(等于2.45 kWh N -1 m -3)。还研究了在煤气化过程中产生的污水污泥灰(SSA)作为粘土砖生产中粘土的部分替代品的掺入。用SSA代替5 wt.%、10 wt.%、20 wt.%的粘土。与对照砖相比,新砖产品的抗压强度提高了4.5%。
Gasification of Sewage Sludge in a Rotary Kiln Reactor – A Case Study with Incorporation of Sewage Sludge Ash in Brick Production
The gasification of sewage sludge (SS) was studied in a semi-industrial pilot plant consisting of a rotary kiln reactor. The gasification process was preceded by drying the SS in an integrated tubular rotating structure with built-in worm conveyors, to increase the dry matter (DM) content in the SS (> 90 wt.%). The released hydrogen-rich syngas from the gasification process of SS had low heating value (LHV) of approximately 8.83 MJ N –1 m –3 (equal to 2.45 kWh N –1 m –3 ) due to the high content of combustible gases H 2 (41.5 vol.%) and CH 4 (3.2 vol.%). Also investigated was the incorporation of sewage sludge ash (SSA) generated in the process of gasification as a partial substitute for clay in the production of clay bricks. Amounts of 5 wt.%, 10 wt.%, 20 wt.% of clay were replaced by SSA. By incorporating SSA at 5 wt.%, the new brick product achieved 4.5 % higher compressive strength compared to the control brick.
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