The radiation heat flux from a heating element at a temperature of 800°C, in a furnace maintained at 300°C is 8 kW/m². The flux, when the element temperature is increased to 1000°C for the same furnace temperature is

Heat Transfer
The radiation heat flux from a heating element at a temperature of 800°C, in a furnace maintained at 300°C is 8 kW/m². The flux, when the element temperature is increased to 1000°C for the same furnace temperature is

16.5 kW/m²

14.6 kW/m²

11.2 kW/m²

12.0 kW/m²

16.5 kW/m²

14.6 kW/m²

11.2 kW/m²

12.0 kW/m²

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Heat Transfer
Reynold's analogy states that

Nst α NRe

Nst α f

NNu α f

NRe α f

Nst α NRe

Nst α f

NNu α f

NRe α f

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Heat Transfer
Log mean temperature difference (LMTD) cannot be used, if

heat transfer co-efficient over the entire heat exchanger is not constant

none of the listed here

the heat capacity is not constant and there is a phase change.

there exists an unsteady state

heat transfer co-efficient over the entire heat exchanger is not constant

none of the listed here

the heat capacity is not constant and there is a phase change.

there exists an unsteady state

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Heat Transfer
A metal ball of radius 0.1 m at a uniform temperature of 90°C is left in air at 30°C. The density and the specific heat of the metal are 3000 kg/m³ and 0.4 kJ/kg.K respectively. The heat transfer co-efficient is 50 W/m².K Neglecting the temperature gradients inside the ball, the time taken (in hours) for the ball to cool to 60°C is

0.55

555

55.5

0.15

0.55

555

55.5

0.15

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Heat Transfer
The thermal boundary layer at NPr > 1

Is thicker than hydrodynamic boundary layer

Disappears

And the hydrodynamic boundary layer are identical

Is thinner than hydrodynamic boundary layer

Is thicker than hydrodynamic boundary layer

Disappears

And the hydrodynamic boundary layer are identical

Is thinner than hydrodynamic boundary layer

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Heat Transfer
Steam trap is used to

Remove water resulting from partial condensation of steam

Condense the steam flowing in the pipeline

None of these

Stop the supply of steam

Remove water resulting from partial condensation of steam

Condense the steam flowing in the pipeline

None of these

Stop the supply of steam

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Heat Transfer

Heat Transfer The radiation heat flux from a heating element at a temperature of 800°C, in a furnace maintained at 300°C is 8 kW/m². The flux, when the element temperature is increased to 1000°C for the same furnace temperature is

Heat Transfer Reynold's analogy states that

Heat Transfer Log mean temperature difference (LMTD) cannot be used, if

Heat Transfer The thermal boundary layer at NPr > 1

Heat Transfer Steam trap is used to

Heat Transfer
The radiation heat flux from a heating element at a temperature of 800°C, in a furnace maintained at 300°C is 8 kW/m². The flux, when the element temperature is increased to 1000°C for the same furnace temperature is

Heat Transfer
Reynold's analogy states that

Heat Transfer
Log mean temperature difference (LMTD) cannot be used, if

Heat Transfer
The thermal boundary layer at NPr > 1

Heat Transfer
Steam trap is used to