To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Engineering Thermodynamics
To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Multiplied by its specific weight

Multiplied by its molecular weight

Multiplied by its density

Divided by its molecular weight

Multiplied by its specific weight

Multiplied by its molecular weight

Multiplied by its density

Divided by its molecular weight

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Engineering Thermodynamics
A cycle consisting of ___ and two isothermal processes is known as Stirling cycle.

One constant pressure, one constant volume

Two constant pressure

Two constant volume

Two isentropic

One constant pressure, one constant volume

Two constant pressure

Two constant volume

Two isentropic

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Engineering Thermodynamics
The efficiency of Carnot cycle depends upon

Temperature limits

Cut-off ratio and compression ratio

Volume compression ratio

Pressure ratio

Temperature limits

Cut-off ratio and compression ratio

Volume compression ratio

Pressure ratio

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Engineering Thermodynamics
The efficiency of Stirling cycle is __________ Carnot cycle.

None of these

Greater than

Equal to

Less than

None of these

Greater than

Equal to

Less than

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Engineering Thermodynamics
Work-done during adiabatic expansion is given by (where p1 v1, T1 = Pressure, volume and temperature for the initial condition of gas, p2, v2, T2 = Corresponding values for the final condition of gas, R = Gas constant, and γ = Ratio of specific heats)

All of these

(p1 v1 - p2, v2)/(γ - 1)

[m R (T1 - T2)] /(γ - 1)

[m R T1/(γ - 1)][1 - (p2, v2 /p1 v1)]

All of these

(p1 v1 - p2, v2)/(γ - 1)

[m R (T1 - T2)] /(γ - 1)

[m R T1/(γ - 1)][1 - (p2, v2 /p1 v1)]

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Engineering Thermodynamics
For a perfect gas, according to Boyle’s law (where P = Absolute pressure, V = Volume and T = Absolute temperature)

P/T = constant, if v is kept constant

P v = constant, if T is kept constant

V/T = constant, if p is kept constant

T/P = constant, if v is kept constant

P/T = constant, if v is kept constant

P v = constant, if T is kept constant

V/T = constant, if p is kept constant

T/P = constant, if v is kept constant

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Engineering Thermodynamics

Engineering Thermodynamics To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Engineering Thermodynamics A cycle consisting of ___ and two isothermal processes is known as Stirling cycle.

Engineering Thermodynamics The efficiency of Carnot cycle depends upon

Engineering Thermodynamics The efficiency of Stirling cycle is __________ Carnot cycle.

Engineering Thermodynamics Work-done during adiabatic expansion is given by (where p1 v1, T1 = Pressure, volume and temperature for the initial condition of gas, p2, v2, T2 = Corresponding values for the final condition of gas, R = Gas constant, and γ = Ratio of specific heats)

Engineering Thermodynamics For a perfect gas, according to Boyle’s law (where P = Absolute pressure, V = Volume and T = Absolute temperature)

Engineering Thermodynamics
To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is

Engineering Thermodynamics
A cycle consisting of ___ and two isothermal processes is known as Stirling cycle.

Engineering Thermodynamics
The efficiency of Carnot cycle depends upon

Engineering Thermodynamics
The efficiency of Stirling cycle is __________ Carnot cycle.

Engineering Thermodynamics
Work-done during adiabatic expansion is given by (where p1 v1, T1 = Pressure, volume and temperature for the initial condition of gas, p2, v2, T2 = Corresponding values for the final condition of gas, R = Gas constant, and γ = Ratio of specific heats)

Engineering Thermodynamics
For a perfect gas, according to Boyle’s law (where P = Absolute pressure, V = Volume and T = Absolute temperature)