Consider the following 3-reservoir problem. All pipes are ductile iron (k₁-2.60 x 10). The water is at 20°C (v=1.00x106 m²/s). This figure is not to scale. Ignoring minor losses, determine the Total Energy at P (junction). Provide answers to 1 decimal place... Total Energy at P: E₁=100m QAP=2.8 m³/s DAP 850 mm LAP=900m P (junction) E₁=80m Qep=0.3 m³/s Dap= 850 mm Lep=800m Ec=60m Qpc=3.2 m³/s Dpc=850 mm Lic=700m
Consider the following 3-reservoir problem. All pipes are ductile iron (k₁-2.60 x 10). The water is at 20°C (v=1.00x106 m²/s). This figure is not to scale. Ignoring minor losses, determine the Total Energy at P (junction). Provide answers to 1 decimal place... Total Energy at P: E₁=100m QAP=2.8 m³/s DAP 850 mm LAP=900m P (junction) E₁=80m Qep=0.3 m³/s Dap= 850 mm Lep=800m Ec=60m Qpc=3.2 m³/s Dpc=850 mm Lic=700m
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Transcribed Image Text:Consider the following 3-reservoir problem. All pipes are ductile iron (k;=2.60 x 10*). The water is at 20°C (v=1.00x10€ m²/s).
This figure is not to scale. Ignoring minor losses, determine the Total Energy at P (junction). Provide answers to 1 decimal place.
Total Energy at P:
Eg=80m
Qe=0.3 m/s
Dap= 850 mm
Lap=800m
E=100m
Qap=2.8 m/s
В
Dap= 850 mm
Lap=900m
E=60m
Qec=3.2 m/s
Dec= 850 mm
Lec=700m
P (junction)
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