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Q2(a) Express your understanding of Bernoulli Equation and give two engineering application examples on this principle ? (h) A fire rescue team is fight fires at the on-fired vacht as in Figure 02(b) by draining

Q2(a) Express your understanding of Bernoulli Equation and give two engineering application examples on this principle ? (h) A fire rescue team is fight fires at the on-fired vacht as in Figure 02(b) by draining

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Q2(a) Express your understanding of Bernoulli Equation and give two engineering application examples on this principle ? A fire rescue team is fight fires at the on-fired yacht as in Figure Q2(b) by draining seawater with a density of 1030 kg/m³ through a 20-cm-diameter pipe at a rate of 0.1 m³/s and discharging it through a hose nozzle with an exit diameter of 5 cm. The total irreversible head loss of the system is 3 m, and the position of the nozzle is 4 m above sea level. Neglect the head loss for turbine. For a pump efficiency of 70 %, determine : (b) (i) the required shaft power input to the pump. (ii) the water discharge velocity. 4 m RE RESCUE Figure Q2(b)
Transcribed Image Text:Q2(a) Express your understanding of Bernoulli Equation and give two engineering application examples on this principle ? A fire rescue team is fight fires at the on-fired yacht as in Figure Q2(b) by draining seawater with a density of 1030 kg/m³ through a 20-cm-diameter pipe at a rate of 0.1 m³/s and discharging it through a hose nozzle with an exit diameter of 5 cm. The total irreversible head loss of the system is 3 m, and the position of the nozzle is 4 m above sea level. Neglect the head loss for turbine. For a pump efficiency of 70 %, determine : (b) (i) the required shaft power input to the pump. (ii) the water discharge velocity. 4 m RE RESCUE Figure Q2(b)
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