One of the existing tanks in the warehouse will be used to accept water from the City municipal sistem to hold it while the residual chlorine evaporates. The high chlorine levels are harmful to the bacteria, fish, and plants in the aquaponic system. In a meeting with your project team, you suggest to connect the City water service pipe to a jet and pelton wheel to harvest energy from the City water pressure. You measure the City water pressure in the building and find it to be equivalent to 30m of elevation. With that information you propose a 3.0m long 0.085m diameter penstock with a O.015 friction factor, connected to a 0.015m diameter nozzle, which sprays at a 0.35m diameter turbine with an 85% efficiency. Note: input your solutions to 2 decimal places without units. Pay attention to the units required for each solution. Use 1000 kg/m for the density of water. First you want to make sure that the arrangement can supply enough water to service the aquaponic system. You run some calculations and find that the flow is: L/s and the velocity of flow is: m/s. Next you complete some calculations to determine how much power this arrangement can generate. You find that the head loss due to friction (ht) is KW. m, and that the system will generate

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One of the existing tanks in the warehouse will be used to accept water from the City municipal system to hold it while the residual chlorine evaporates. The high chlorine levels are harmful to the bacteria, fish, and plants in the aquaponic system. In a meeting with your project team, you suggest to connect the City water service pipe to a jet and pelton wheel to harvest energy from the City water pressure. You measure the City water pressure in the building and find it to be equivalent to 30m of elevation. With that information you propose a 3.0m long 0.085m diameter penstock with a 0.015 friction factor, connected to a 0.015m diameter nozzle, which sprays at a 0.35m diameter turbine with an 85% efficiency. Note: input your solutions to 2 decimal places without units. Pay attention to the units required for each solution. Use 1000 kg/m for the density of water. First you want to make sure that the arrangement can supply enough water to service the aquaponic system. You run some calculations and find that the flow is: L/s and the velocity of flow is: m/s. Next you complete some calculations to determine how much power this arrangement can generate. You find that the head loss due to friction (ht) is KW. m, and that the system will generate You consider using the pelton to directly power an air pump to help oxygenate the water. To analyze this option you need to find the torque that the system N/m. generates. You run some calculations and find that the system generates