None 2 mSteamT=80 Cm=0.3 kg/sX=0.9P1= -0.1barP2=0.8 barD=20mm (thin)1 mWaterm=0.5kg'sCpu=42 kJkg.CWaterT-60 CWaterT=20 CPatm=1 barWhat is the condenser pressure in (bar]þetermine the air pressure inside the condenser (bar)Determine the steam pressure inside the candenser (bar]Determine the heat ejected from the steam in [ku/s]Determine the outlet temperature of the coolant water in (C)If the correction factor of the condenser is 0.85, determine the averall heat transfer coefficients[W/m2.K)Determine the vacuum efficiency [5)Determine the condenser efficiency (%)Determine the air density inside the condenser (kg/m3]

Given data To determine What is the condenser pressure in [bar]Determine the air pressure inside…

2 m Steam T-80 C m-0.3 kg/s X-0.9 P1-0.1bar P2-0.8 bar D-20mm (hin) Water Water T-20 C Water m=0.5kgis Cp42 kJkg.C T«60 C Pa=1 bar What is the condenser pressure in (bar) þetermine the air pressure inside the condenser (bar) Determine the steam pressure inside the condenser (bar) Determine the heat ejected from the steam in (ka/s) Determine the outiet temperature of the coolant water in (C) If the correction factor of the condenser is a.a5, determine the overall heat transfer coeficients W/m2.K) Determine the vacuum efficiency ) Determine the condemer efficiency (5) Determine the air density inside the candenser (ag/ma)

2 m Steam T-80 C m-0.3 kg/s X-0.9 P1-0.1bar P2-0.8 bar D-20mm (hin) Water Water T-20 C Water m=0.5kgis Cp42 kJkg.C T«60 C Pa=1 bar What is the condenser pressure in (bar) þetermine the air pressure inside the condenser (bar) Determine the steam pressure inside the condenser (bar) Determine the heat ejected from the steam in (ka/s) Determine the outiet temperature of the coolant water in (C) If the correction factor of the condenser is a.a5, determine the overall heat transfer coeficients W/m2.K) Determine the vacuum efficiency ) Determine the condemer efficiency (5) Determine the air density inside the candenser (ag/ma)

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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Concept explainers

Buckling of columns

The column is described as a vertical member of the structure that carries an axial compressive load, and buckling is a lateral deformation of the column under the application of load.

Question

None

2 m
Steam
T=80 C
m=0.3 kg/s
X=0.9
P1= -0.1bar
P2=0.8 bar
D=20mm (thin)
1 m
Water
m=0.5kg's
Cpu=42 kJkg.C
Water
T-60 C
Water
T=20 C
Patm=1 bar
What is the condenser pressure in (bar]
þetermine the air pressure inside the condenser (bar)
Determine the steam pressure inside the candenser (bar]
Determine the heat ejected from the steam in [ku/s]
Determine the outlet temperature of the coolant water in (C)
If the correction factor of the condenser is 0.85, determine the averall heat transfer coefficients
[W/m2.K)
Determine the vacuum efficiency [5)
Determine the condenser efficiency (%)
Determine the air density inside the condenser (kg/m3]

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