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

Combustion is at constant volume

Maximum temperature is higher

Heat rejection is lower

Expansion and compression are isentropic

Combustion is at constant volume

Maximum temperature is higher

Heat rejection is lower

Expansion and compression are isentropic

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Engineering Thermodynamics
A cycle consisting of one constant pressure, one constant volume and two isentropic processes is known as

Diesel cycle

Stirling cycle

Carnot cycle

Otto cycle

Diesel cycle

Stirling cycle

Carnot cycle

Otto cycle

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Engineering Thermodynamics
One Joule (J) is equal to

10 kN-m/s

1 kN-m

1 N-m

10 N-m/s

10 kN-m/s

1 kN-m

1 N-m

10 N-m/s

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Engineering Thermodynamics
The distillation carried out in such a way that the liquid with the lowest boiling point is first evaporated and re-condensed, then the liquid with the next higher boiling point is then evaporated and re-condensed, and so on until all the available liquid fuels are separately recovered in the sequence of their boiling points. Such a process is called

Full distillation

Cracking

Carbonisation

Fractional distillation

Full distillation

Cracking

Carbonisation

Fractional distillation

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Engineering Thermodynamics
In a no flow reversible process for which p = (-3V + 15) × 105 N/m², V changes from 1 m3 to 2 m3. The work done will be about

10 × 10⁵ joules

10 × 10⁵ kilo joules

1 × 10⁵ joules

100 × 10⁵ joules

10 × 10⁵ joules

10 × 10⁵ kilo joules

1 × 10⁵ joules

100 × 10⁵ joules

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Engineering Thermodynamics
A process of heating crude oil to a high temperature under a very high pressure to increase the yield of lighter distillates, is known as

Fractional distillation

Full distillation

Cracking

Carbonization

Fractional distillation

Full distillation

Cracking

Carbonization

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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 A cycle consisting of one constant pressure, one constant volume and two isentropic processes is known as

Engineering Thermodynamics One Joule (J) is equal to

Engineering Thermodynamics In a no flow reversible process for which p = (-3V + 15) × 105 N/m², V changes from 1 m3 to 2 m3. The work done will be about

Engineering Thermodynamics A process of heating crude oil to a high temperature under a very high pressure to increase the yield of lighter distillates, is known as

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
A cycle consisting of one constant pressure, one constant volume and two isentropic processes is known as

Engineering Thermodynamics
One Joule (J) is equal to

Engineering Thermodynamics
In a no flow reversible process for which p = (-3V + 15) × 105 N/m², V changes from 1 m3 to 2 m3. The work done will be about

Engineering Thermodynamics
A process of heating crude oil to a high temperature under a very high pressure to increase the yield of lighter distillates, is known as