A vessel contains water. The conditions of the system are:volume of the vessel: V = 0.1 m3presure of water: P = 200 kPamass of water: m = 5.0 kgspecific volume of the saturated water at the pressure: vf = 0.001061 m3/kgspecific volume of the saturated vapor at the pressure: vg = 0.88578 m3/kgenthalpy of the saturated water at the pressure: hf = 504.71 kJ/kgenthalpy of the saturated water at the pressure: hg = 2706.3 kJ/kdifference of enthalpy of the saturated vapor and saturated liquid at the pressure: hfg = 2201.6 kJ/kgDetermine (2) the phase status of water in the vessel___________ A.saturated vapor B.Compressed liquid C.superheated vaport D.saturated liquid and vapor mixture E.saturated liquid A vessel contains water. The conditions of the system are:• volume of the vessel: V = 0.1 m³• presure of water: P = 200 kPa• mass of water: m = 5.0 kgspecific volume of the saturated water at the pressure: vf = 0.001061 m³/kg• specific volume of the saturated vapor at the pressure: vg = 0.88578 m³/kg• enthalpy of the saturated water at the pressure: hf=504.71 kJ/kg• enthalpy of the saturated water at the pressure: hg = 2706.3 kJ/kdifference of enthalpy of the saturated vapor and saturated liquid at the pressure: hfg = 2201.6 kJ/kgDetermine (2) the phase status of water in the vesselO A. saturated vaporO B. Compressed liquidO C. superheated vaportOD.saturated liquid and vapor mixtureE. saturated liquid

Answered: A vessel contains water. The conditions…

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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A vessel contains water. The conditions of the system are:
- volume of the vessel: V = 0.1 m³
- presure of water: P = 200 kPa
- mass of water: m = 5.0 kg
- specific volume of the saturated water at the pressure: vf = 0.001061 m³/kg
- specific volume of the saturated vapor at the pressure: vg = 0.88578 m³/kg
- enthalpy of the saturated water at the pressure: h_f= 504.71 kJ/kg
- enthalpy of the saturated water at the pressure: h_g = 2706.3 kJ/k
- difference of enthalpy of the saturated vapor and saturated liquid at the pressure: h_fg = 2201.6 kJ/kg
Determine (2) the phase status of water in the vessel___________
A.

saturated vapor

B.

Compressed liquid

C.

superheated vaport

D.

saturated liquid and vapor mixture

E.

saturated liquid

A vessel contains water. The conditions of the system are:
• volume of the vessel: V = 0.1 m³
• presure of water: P = 200 kPa
• mass of water: m = 5.0 kg
specific volume of the saturated water at the pressure: vf = 0.001061 m³/kg
• specific volume of the saturated vapor at the pressure: vg = 0.88578 m³/kg
• enthalpy of the saturated water at the pressure: hf=504.71 kJ/kg
• enthalpy of the saturated water at the pressure: hg = 2706.3 kJ/k
difference of enthalpy of the saturated vapor and saturated liquid at the pressure: hfg = 2201.6 kJ/kg
Determine (2) the phase status of water in the vessel
O A. saturated vapor
O B. Compressed liquid
O C. superheated vaport
O
D.saturated liquid and vapor mixture
E. saturated liquid

Expert Solution

Step 1

Given data :-

volume = 0.1 m^3

Pressure = 200 kpa

Mass = 5 kg

Specific volume v_f = 0.001061 m^3/kg

v_g = 0.885780 m^3/kg

Specific enthalpy , h_f = 504.71 kj/kg

h_g = 2706.30 kj/kg

h_fg = 2201.60 kj/kg

Find the phase status of water in the vessel.

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