The Figure shown below is a parallel pipeline system with two branches used to supply lubricating water to the bearings. The main line and two branches use the same size of pipes. The pressures at section 1 and section 2 are p₁=398.1kPa and , respectively. The resistance coefficients for two bearings are K₁=5 and K₂=12. The 1 cross section areas of two branch pipes are A = A=1.5x10-4m². The energy loss a 3 caused by friction can be ignored. The energy loss caused by one bend is h = 0.2 m. (6) Calculate the energy loss h for bearing 2 in branch b K₁ Qb P₁ = 300kPa 2 K₂ P₂

The Figure shown below is a parallel pipeline system with two branches used to supply lubricating water to the bearings. The main line and two branches use the same size of pipes. The pressures at section 1 and section 2 are   and  ,  respectively. The resistance coefficients for two bearings are   and  .  The cross section areas of two branch pipes are   .  The energy loss caused by friction can be ignored. The energy loss caused by one bend is  .

(6)   Calculate the energy loss    for bearing 2 in branch b_________

 

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The Figure shown below is a parallel pipeline system with two branches used to supply lubricating water to the bearings. The main line and two branches use the same size of pipes. The pressures at section 1 and section 2 are p₁=398.1kPa and = 300kPa P₂= , respectively. The resistance coefficients for two bearings are K₁=5 and K₂= 12. The 2 cross section areas of two branch pipes are A = A=1.5x10-4m². The energy loss a b caused by friction can be ignored. The energy loss caused by one bend is h₂=0.2 m. 3 (6) Calculate the energy loss h for bearing 2 in branch b 2 Qa K₁ K₂ P₂ Q₂