Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics
Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Maximum temperature is higher

Combustion is at constant volume

Expansion and compression are isentropic

Heat rejection is lower

Maximum temperature is higher

Combustion is at constant volume

Expansion and compression are isentropic

Heat rejection is lower

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Engineering Thermodynamics
According to First law of thermodynamics,

Total internal energy of a system during a process remains constant

Work-done by a system is equal to the heat transferred by the system

Total energy of a system remains constant

Internal energy, enthalpy and entropy during a process remain constant

Total internal energy of a system during a process remains constant

Work-done by a system is equal to the heat transferred by the system

Total energy of a system remains constant

Internal energy, enthalpy and entropy during a process remain constant

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Engineering Thermodynamics
The general law of expansion or compression is pvn = C, The process is said to be hyperbolic, if n is equal to

γ

∝

1

γ

∝

1

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Engineering Thermodynamics
Carnot cycle efficiency is maximum when

Initial temperature is 0°K

Final temperature is 0°K

Final temperature is 0°C

Difference between initial and final temperature is 0°K

Initial temperature is 0°K

Final temperature is 0°K

Final temperature is 0°C

Difference between initial and final temperature is 0°K

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Engineering Thermodynamics
1 kgf/cm² is equal to

1 mm Hg

760 mm Hg

735.6 mm Hg

Zero mm Hg

1 mm Hg

760 mm Hg

735.6 mm Hg

Zero mm Hg

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Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU - W1 - 2

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU - W1 - 2

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Engineering Thermodynamics

Engineering Thermodynamics Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics According to First law of thermodynamics,

Engineering Thermodynamics The general law of expansion or compression is pvn = C, The process is said to be hyperbolic, if n is equal to

Engineering Thermodynamics Carnot cycle efficiency is maximum when

Engineering Thermodynamics 1 kgf/cm² is equal to

Engineering Thermodynamics The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics
According to First law of thermodynamics,

Engineering Thermodynamics
The general law of expansion or compression is pvn = C, The process is said to be hyperbolic, if n is equal to

Engineering Thermodynamics
Carnot cycle efficiency is maximum when

Engineering Thermodynamics
1 kgf/cm² is equal to

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)