Project (semester I 2023-2024) For the given pipe distribution system, find the water flow in all the pipe branches, and the pressure at all the joints of pipes after suggesting water tank elevation. Select three different paths along the network with the same starting and ending points to show that your solution will give the same total losses (e= 0.15 mm). 3.6 m/s Pipe 1 2 3 4 2+4 5 6 7 8 9 10 11 7:51 1 12 13 14 15 16 0.9 m/s 2 1.8 m/s Diameter (mm) Area 3.6 m/s 12 1 1 0.9 m/s Length (m) 5 1550 1.88767857 350 9.6774E-05 1650 2.13910714 280 9.0909E-05 1650 2.13910714 340 9.0909E-05 1650 2.13910714 100 9.0909E-05 1650 2.13910714 380 9.0909E-05 1.59549107 340 0.00010526 1425 1425 1.59549107 345 0.00010526 1425 1.59549107 280 0.00010526 1425 1.59549107 330 0.00010526 1425 1.59549107 695 0.00010526 1425 1.59549107 650 0.00010526 1425 1.59549107 730 0.00010526 1425 1.59549107 260 0.00010526 1425 1.59549107 385 0.00010526 1.59549107 260 0.00010526 1425 1425 1.59549107 770 0.00010526 1425 1.59549107 610 0.00010526 Pressure Drop= e/D project 25 10 15 f The suggested distribution: 3 1.8 m/s 9 m/s K 9 m/s ..), ( 6 8 13 0.9 m/s Suggested Q (m/s) 1.8 m/s 0.9 m/s 11 Direction (Right, Left, Up, Down) 16 Project (semester I 2023-2024) V (m/s) Re Pascal 14 1.8 m/s 1.8 m/s final Q h, (m) Power (watt)