Carbon dioxide gas at 50oC and 7 atm gauge pressure enters a 100-m horizontal 5-in Schedule 40 pipe. The flow rate of t

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Carbon dioxide gas at 50oC and 7 atm gauge pressureenters a 100-m horizontal 5-in Schedule 40 pipe. The flowrate of the entering gas is 1000 m3/hr.
(a) Assuming isothermal flow, calculate the
(i) pressure (Pa) at thedischarge end of the pipe
(ii) velocity (m/s) at the pipeexit
(iii) heat transfer rate (W) for a pipelength of 100 m.
(b) If the flow is adiabatic, calculate
(iv) acoustic velocity in m/s
(v) Mach number at the entrance
(vi) the maximum possible length (m)of the pipe
(vii) pressure (Pa) at the maximumlength
(viii) Reynolds number at the exit
(ix) stagnation temperature(oC) and pressure (Pa) of the gas at the end of the pipeat maximum length.