The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Heat and Mass Transfer
The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Q = [2πlk (T₁ - T₂)]/2.3 log (r₂/r₁)

Q = 2.3 log (r₂/r₁)/[2πlk (T₁ - T₂)]

Q = = 2πlk/2.3 (T₁ - T₂) log (r₂/r₁)

Q = [2π (T₁ - T₂)]/2.3 lk log (r₂/r₁)

Q = [2πlk (T₁ - T₂)]/2.3 log (r₂/r₁)

Q = 2.3 log (r₂/r₁)/[2πlk (T₁ - T₂)]

Q = = 2πlk/2.3 (T₁ - T₂) log (r₂/r₁)

Q = [2π (T₁ - T₂)]/2.3 lk log (r₂/r₁)

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Heat and Mass Transfer
The rate of energy transferred by convection to that by conduction is called

Nusselt number

Biot number

Stanton number

Peclet number

Nusselt number

Biot number

Stanton number

Peclet number

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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 inlet (of heat exchanger where hot fluid enters) are in their coldest state

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

Both the fluids at exit are in their hottest state

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Heat and Mass Transfer
In heat exchangers, degree of approach is defined as the difference between temperatures of

Hot medium outlet and cold water outlet

Cold water inlet and outlet

Hot medium inlet and outlet

Hot medium outlet and cold water inlet

Hot medium outlet and cold water outlet

Cold water inlet and outlet

Hot medium inlet and outlet

Hot medium outlet and cold water inlet

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Heat and Mass Transfer
Emissivity of a white polished body in comparison to a black body is

Lower

Depends upon the shape of body

Same

Higher

Lower

Depends upon the shape of body

Same

Higher

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Heat and Mass Transfer
LMTD in case of counter flow heat exchanger as compared to parallel flow heat exchanger is

Depends on the area of heat exchanger

Lower

Same

Higher

Depends on the area of heat exchanger

Lower

Same

Higher

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Heat and Mass Transfer

Heat and Mass Transfer The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Heat and Mass Transfer The rate of energy transferred by convection to that by conduction is called

Heat and Mass Transfer In counter flow heat exchangers

Heat and Mass Transfer In heat exchangers, degree of approach is defined as the difference between temperatures of

Heat and Mass Transfer Emissivity of a white polished body in comparison to a black body is

Heat and Mass Transfer LMTD in case of counter flow heat exchanger as compared to parallel flow heat exchanger is

Heat and Mass Transfer
The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Heat and Mass Transfer
The rate of energy transferred by convection to that by conduction is called

Heat and Mass Transfer
In counter flow heat exchangers

Heat and Mass Transfer
In heat exchangers, degree of approach is defined as the difference between temperatures of

Heat and Mass Transfer
Emissivity of a white polished body in comparison to a black body is

Heat and Mass Transfer
LMTD in case of counter flow heat exchanger as compared to parallel flow heat exchanger is