A settling tank and related streams are shown in Figure 1, below. Dimensions in meters are given in the figure (neglect the volume of rounded tank corners and equipment inside). The width of the tank (into the page) is 2 m. The height of the solid and liquid within the tank is 5 m. A slurry flows into the settling tank at a rate of 0.1 m³/min with 30% solids (by volume). Due to the placement of the "Clarified Water Out" stream, the overall volume of solids and liquids within the settling tank will remain constant. However, 0.05% percentage of input solids are remaining/accumulating on the bottom of the settling tank. Therefore, the tank requires periodic cleanings to remove accumulated solids. Assume that the "Clarified Water Out" and "Solids Out" are both pure streams. The tank must be cleaned of solids when the height of solids accumulated within the tank reaches a height of 1 m. Calculate the total volume of water that can be clarified in between solids cleanings using the General Balance Equation. Give your answer to 6 significant figures. Slurry In 10 Settling Tank (0) (0) -30- (0) Volume remains at constant height Clarified Water Out Solids Out

A settling tank and related streams are shown in Figure 1, below. Dimensions in meters are given in the figure (neglect the volume of rounded tank corners and equipment inside). The width of the tank (into the page) is 2 m. The height of the solid and liquid within the tank is 5 m. A slurry flows into the settling tank at a rate of 0.1 m3/min with 30% solids (by volume). Due to the placement of the “Clarified Water Out” stream, the overall volume of solids and liquids within the settling tank will remain constant. However, 0.05% percentage of input solids are remaining/accumulating on the bottom of the settling tank. Therefore, the tank requires periodic cleanings to remove accumulated solids. Assume that the “Clarified Water Out” and “Solids Out” are both pure streams. The tank must be cleaned of solids when the height of solids accumulated within the tank reaches a height of 1 m. Calculate the total volume of water that can be clarified in between solids cleanings using the General Balance Equation. Give your answer to 6 significant figures. Figure 1. Slurry settling tank

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A settling tank and related streams are shown in Figure 1, below. Dimensions in meters are given in the figure (neglect the volume of rounded tank corners and equipment inside). The width of the tank (into the page) is 2 m. The height of the solid and liquid within the tank is 5 m. A slurry flows into the settling tank at a rate of 0.1 m³/min with 30% solids (by volume). Due to the placement of the "Clarified Water Out" stream, the overall volume of solids and liquids within the settling tank will remain constant. However, 0.05% percentage of input solids are remaining/accumulating on the bottom of the settling tank. Therefore, the tank requires periodic cleanings to remove accumulated solids. Assume that the "Clarified Water Out" and "Solids Out" are both pure streams. The tank must be cleaned of solids when the height of solids accumulated within the tank reaches a height of 1 m. Calculate the total volume of water that can be clarified in between solids cleanings using the General Balance Equation. Give your answer to 6 significant figures. Slurry In 10 O Settling Tank -30- Volume remains at constant height Clarified Water Out Solids Out