The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer
The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

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Heat and Mass Transfer
40% of incident radiant energy on the surface of a thermally transparent body is reflected back. If the transmissivity of the body be 0.15, then the emissivity of surface is

0.75

0.55

0.45

0.4

0.75

0.55

0.45

0.4

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Heat and Mass Transfer
In regenerator type heat exchanger, heat transfer takes place by

Direct mixing of hot and cold fluids

A complete separation between hot and cold fluids

Flow of hot and cold fluids alternately over a surface

Generation of heat again and again

Direct mixing of hot and cold fluids

A complete separation between hot and cold fluids

Flow of hot and cold fluids alternately over a surface

Generation of heat again and again

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Heat and Mass Transfer
Thermal conductivity of water in general with rise in temperature

May increase or decrease depending on temperature

Remain constant

Increases

Decreases

May increase or decrease depending on temperature

Remain constant

Increases

Decreases

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Heat and Mass Transfer
Moisture would find its way into insulation by vapour pressure unless it is prevented by

A vapour seal

High vapour pressure

Less thermal conductivity insulator

High thickness of insulation

A vapour seal

High vapour pressure

Less thermal conductivity insulator

High thickness of insulation

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Heat and Mass Transfer
Depending on the radiating properties, a body will be black when (Where a = absorptivity, p = reflectivity, X = transmissivity.)

P= 1, T = 0 and a = 0

X = 0, a + p = 0

P = 0, x = 1 and a = 0

P = 0, x = 0 and a = 1

P= 1, T = 0 and a = 0

X = 0, a + p = 0

P = 0, x = 1 and a = 0

P = 0, x = 0 and a = 1

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Heat and Mass Transfer

Heat and Mass Transfer The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer 40% of incident radiant energy on the surface of a thermally transparent body is reflected back. If the transmissivity of the body be 0.15, then the emissivity of surface is

Heat and Mass Transfer In regenerator type heat exchanger, heat transfer takes place by

Heat and Mass Transfer Thermal conductivity of water in general with rise in temperature

Heat and Mass Transfer Moisture would find its way into insulation by vapour pressure unless it is prevented by

Heat and Mass Transfer Depending on the radiating properties, a body will be black when (Where a = absorptivity, p = reflectivity, X = transmissivity.)

Heat and Mass Transfer
The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer
40% of incident radiant energy on the surface of a thermally transparent body is reflected back. If the transmissivity of the body be 0.15, then the emissivity of surface is

Heat and Mass Transfer
In regenerator type heat exchanger, heat transfer takes place by

Heat and Mass Transfer
Thermal conductivity of water in general with rise in temperature

Heat and Mass Transfer
Moisture would find its way into insulation by vapour pressure unless it is prevented by

Heat and Mass Transfer
Depending on the radiating properties, a body will be black when (Where a = absorptivity, p = reflectivity, X = transmissivity.)