Planning of Granular Activated Carbon Unit to Remove Ammonia and TSS at IPLT X, Kota Jakarta

S. Handayani, Yesaya Emeraldy Priutama, Intan Rahmalia, Farhan Muhammad Hilmi, R. Aryanto, E. Sofiyah, Ariyanti Sarwono, I. W. Suryawan
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Abstract

Abstract: Fecal sludge can be treated by conventional treatment such as pond stabilization which is commonly used to reduce organic concentrations. However, nutrients such as NH3 are still widely measured in the effluent. One of the sewerage treatments in the city of Jakarta, for example, experienced this condition. This study aims to design an appropriate technology to increase the efficiency of nutrient ammonia and total suspended solid (TSS) removal at Duri X IPLT. The unit added in the selected effluent treatment is Granular Activated Carbon (GAC). Design considerations are the characteristics of activated carbon, operating conditions (discharge and contact time), and operating mode (fixed-, expanded-, or fluidized-bed, pumped, or gravity flow). The Carbon Usage Rate for removing ammonia and TSS is 1.384 g/L and 0.378 g/L, respectively. Maintenance is required so that the granular activated carbon (GAC) unit can continue operating and functioning properly. Blockages in carbon transport pipes can occur in many pipes. This can occur due to a too-small pipe, a short bend radius of the pipe, a lack of speed, and a lack of cleaning of the pipe. The eroded pipe is also a common problem that often occurs in unlined mild steel and fiberglass reinforced plastic (FRP), usually in sharp bends.
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哥打雅加达IPLT X颗粒活性炭装置去除氨和TSS的规划
摘要:粪便污泥可采用常规处理方法,如池塘稳定化处理,通常用于降低有机浓度。然而,诸如NH3之类的营养物质仍在污水中广泛测量。例如,雅加达市的一个污水处理系统就遇到了这种情况。本研究旨在设计一种合适的工艺来提高Duri X IPLT对营养氨和总悬浮固体(TSS)的去除效率。在选定的污水处理中添加的单元是颗粒活性炭(GAC)。设计考虑的因素是活性炭的特性、操作条件(放电和接触时间)和操作模式(固定、膨胀或流化床、泵送或重力流)。去除率为1.384 g/L,去除率为0.378 g/L。需要进行维护,以便颗粒活性炭(GAC)单元能够继续正常运行和功能。许多管道都可能发生碳输送管道堵塞。这可能是由于管道太小,管道弯曲半径短,速度不足以及管道清洁不足造成的。腐蚀管也是一个常见的问题,经常发生在没有衬里的低碳钢和玻璃钢(FRP)中,通常是在急弯处。
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