Transition state theory gives the rate constant as

Chemical Reaction Engineering
Transition state theory gives the rate constant as

K α √T . e-E/RT

K α T . e-E/RT

K α e-E/RT

K α eE/RT

K α √T . e-E/RT

K α T . e-E/RT

K α e-E/RT

K α eE/RT

ANSWER DOWNLOAD EXAMIANS APP

Chemical Reaction Engineering
For the same residence time, which one will give the maximum conversion?

Two stirred tank (each of 2.5 litres) in series

Stirred tank followed by tubular flow reactor (each of 2.5 litres)

Single tubular flow reactor (v = 5 litres)

Single stirred tank (v = 5 litres)

Two stirred tank (each of 2.5 litres) in series

Stirred tank followed by tubular flow reactor (each of 2.5 litres)

Single tubular flow reactor (v = 5 litres)

Single stirred tank (v = 5 litres)

ANSWER DOWNLOAD EXAMIANS APP

Chemical Reaction Engineering
With increase in temperature, the equilibrium conversion of a reversible exothermic reaction

Increases

Decreases

Remains unaffected

Decreases linearily with temperature

Increases

Decreases

Remains unaffected

Decreases linearily with temperature

ANSWER DOWNLOAD EXAMIANS APP

Chemical Reaction Engineering
Carrier in a catalyst increases its

Performance

None of these

Surface area

Activity

Performance

None of these

Surface area

Activity

ANSWER DOWNLOAD EXAMIANS APP

Chemical Reaction Engineering
The use of space time is preferred over the mean residence time in the design of a/an

Batch reactor

Ideal tubular-flow reactor

Slurry reactor

CSTR

Batch reactor

Ideal tubular-flow reactor

Slurry reactor

CSTR

ANSWER DOWNLOAD EXAMIANS APP

Chemical Reaction Engineering
In solid catalysed reactions the diffusional effects are more likely to affect the overall rate of reaction for

Slow reactions in catalyst of small pore diameter

Slow reactions in catalyst of large pore diameter

Fast reaction in catalyst of large pore diameter

Fast reactions in catalyst of small pore diameter

Slow reactions in catalyst of small pore diameter

Slow reactions in catalyst of large pore diameter

Fast reaction in catalyst of large pore diameter

Fast reactions in catalyst of small pore diameter

ANSWER DOWNLOAD EXAMIANS APP

Chemical Reaction Engineering

Chemical Reaction Engineering Transition state theory gives the rate constant as

Chemical Reaction Engineering For the same residence time, which one will give the maximum conversion?

Chemical Reaction Engineering With increase in temperature, the equilibrium conversion of a reversible exothermic reaction

Chemical Reaction Engineering Carrier in a catalyst increases its

Chemical Reaction Engineering The use of space time is preferred over the mean residence time in the design of a/an

Chemical Reaction Engineering In solid catalysed reactions the diffusional effects are more likely to affect the overall rate of reaction for

Chemical Reaction Engineering
Transition state theory gives the rate constant as

Chemical Reaction Engineering
For the same residence time, which one will give the maximum conversion?

Chemical Reaction Engineering
With increase in temperature, the equilibrium conversion of a reversible exothermic reaction

Chemical Reaction Engineering
Carrier in a catalyst increases its

Chemical Reaction Engineering
The use of space time is preferred over the mean residence time in the design of a/an

Chemical Reaction Engineering
In solid catalysed reactions the diffusional effects are more likely to affect the overall rate of reaction for