A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics
A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

30 kJ

114 kJ

84 kJ

54 kJ

30 kJ

114 kJ

84 kJ

54 kJ

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Engineering Thermodynamics
Mond gas is obtained by

Partial combustion of coal, coke, anthracite coal or charcoal in a mixed air steam blast

Carbonisation of bituminous coal

Passing steam over incandescent coke

Passing air and a large amount of steam over waste coal at about 650°C

Partial combustion of coal, coke, anthracite coal or charcoal in a mixed air steam blast

Carbonisation of bituminous coal

Passing steam over incandescent coke

Passing air and a large amount of steam over waste coal at about 650°C

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Engineering Thermodynamics
A cycle consisting of two adiabatic and two constant pressure processes is known as

Joule cycle

Otto cycle

Ericsson cycle

Stirling cycle

Joule cycle

Otto cycle

Ericsson cycle

Stirling cycle

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Engineering Thermodynamics
When wood is heated with a limited supply of air to a temperature not less than 280°C, the resulting fuel is

Briquetted coal

Bituminous coal

Coke

Wood charcoal

Briquetted coal

Bituminous coal

Coke

Wood charcoal

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Engineering Thermodynamics
The mass of flue gas per kg of fuel is the ratio of the

Mass of oxygen in 1 kg of fuel to the mass of oxygen in 1 kg of flue gas

Mass of carbon in 1 kg of fuel to the mass of carbon in 1 kg of flue gas

Mass of carbon in 1 kg of flue gas to the mass of carbon in 1 kg of fuel

Mass of oxygen in 1 kg of flue gas to the mass of oxygen in 1 kg of fuel

Mass of oxygen in 1 kg of fuel to the mass of oxygen in 1 kg of flue gas

Mass of carbon in 1 kg of fuel to the mass of carbon in 1 kg of flue gas

Mass of carbon in 1 kg of flue gas to the mass of carbon in 1 kg of fuel

Mass of oxygen in 1 kg of flue gas to the mass of oxygen in 1 kg of fuel

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Engineering Thermodynamics
One barometric pressure or 1 atmospheric pressure is equal to

1.0197 kgf/cm²

0 kgf/cm²

1 kgf/cm²

1.033 kgf/cm²

1.0197 kgf/cm²

0 kgf/cm²

1 kgf/cm²

1.033 kgf/cm²

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Engineering Thermodynamics

Engineering Thermodynamics A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics Mond gas is obtained by

Engineering Thermodynamics A cycle consisting of two adiabatic and two constant pressure processes is known as

Engineering Thermodynamics When wood is heated with a limited supply of air to a temperature not less than 280°C, the resulting fuel is

Engineering Thermodynamics The mass of flue gas per kg of fuel is the ratio of the

Engineering Thermodynamics One barometric pressure or 1 atmospheric pressure is equal to

Engineering Thermodynamics
A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics
Mond gas is obtained by

Engineering Thermodynamics
A cycle consisting of two adiabatic and two constant pressure processes is known as

Engineering Thermodynamics
When wood is heated with a limited supply of air to a temperature not less than 280°C, the resulting fuel is

Engineering Thermodynamics
The mass of flue gas per kg of fuel is the ratio of the

Engineering Thermodynamics
One barometric pressure or 1 atmospheric pressure is equal to