An ordinary passenger aircraft requires a cooling system of capacity.

Heat and Mass Transfer
An ordinary passenger aircraft requires a cooling system of capacity.

8 TR

4 TR

2 TR

10 TR

8 TR

4 TR

2 TR

10 TR

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Heat and Mass Transfer
In counter flow heat exchangers

Both the fluids at inlet are in their hottest state

One fluid is in hottest state and other in coldest state at inlet

Both the fluids at exit are in their hottest state

Both the fluids at inlet (of heat exchanger where hot fluid enters) are in their coldest state

Both the fluids at inlet are in their hottest state

One fluid is in hottest state and other in coldest state at inlet

Both the fluids at exit are in their hottest state

Both the fluids at inlet (of heat exchanger where hot fluid enters) are in their coldest state

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Heat and Mass Transfer
In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

K.cal (heat)

°C (temperature)

Hr (time)

Sq. m (area)

K.cal (heat)

°C (temperature)

Hr (time)

Sq. m (area)

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Heat and Mass Transfer
According to Prevost theory of heat exchange

Heat transfer in most of the cases takes place by combination of conduction, convection and radiation

It is impossible to transfer heat from low temperature source to t high temperature source

Heat transfer by radiation requires no medium

All bodies above absolute zero emit radiation

Heat transfer in most of the cases takes place by combination of conduction, convection and radiation

It is impossible to transfer heat from low temperature source to t high temperature source

Heat transfer by radiation requires no medium

All bodies above absolute zero emit radiation

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Heat and Mass Transfer
The unit of overall coefficient of heat transfer is

kcal/m²

kcal/m² hr °C

kcal/m hr °C

kcal/hr °C

kcal/m²

kcal/m² hr °C

kcal/m hr °C

kcal/hr °C

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Heat and Mass Transfer
Two balls of same material and finish have their diameters in the ratio of 2: 1 and both are heated to same temperature and allowed to cool by radiation. Rate of cooling by big ball as compared to smaller one will be in the ratio of

0.042361111111111

0.043055555555556

0.16736111111111

0.084027777777778

0.042361111111111

0.043055555555556

0.16736111111111

0.084027777777778

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Heat and Mass Transfer

Heat and Mass Transfer An ordinary passenger aircraft requires a cooling system of capacity.

Heat and Mass Transfer In counter flow heat exchangers

Heat and Mass Transfer In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

Heat and Mass Transfer According to Prevost theory of heat exchange

Heat and Mass Transfer The unit of overall coefficient of heat transfer is

Heat and Mass Transfer Two balls of same material and finish have their diameters in the ratio of 2: 1 and both are heated to same temperature and allowed to cool by radiation. Rate of cooling by big ball as compared to smaller one will be in the ratio of

Heat and Mass Transfer
An ordinary passenger aircraft requires a cooling system of capacity.

Heat and Mass Transfer
In counter flow heat exchangers

Heat and Mass Transfer
In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

Heat and Mass Transfer
According to Prevost theory of heat exchange

Heat and Mass Transfer
The unit of overall coefficient of heat transfer is

Heat and Mass Transfer
Two balls of same material and finish have their diameters in the ratio of 2: 1 and both are heated to same temperature and allowed to cool by radiation. Rate of cooling by big ball as compared to smaller one will be in the ratio of