Ideal Reactors

Question 1

State what a batch reactor is good for.

Answer 1

Producing small amounts of materials.

Question 2

Give the 4 advantages of a batch reactor.

Answer 2

high conversion per unit volume, easy to clean, flexibility of operation, low instrumentation cost

Question 3

Give the 3 disadvantages of a batch reactor.

Answer 3

high labour and handling costs, considerable shut down time, poor quality control

Question 4

State what a PFR is good for.

Answer 4

Large scale, fast reactions at high temperatures.

Question 5

Give the 4 advantages of a PFR.

Answer 5

high conversion per unit volume, low operating costs, continuous operation, good heat transfer

Question 6

Give the 3 disadvantages of a PFR.

Answer 6

undesired thermal gradients may exist, poor temperature control, shutdown and cleaning may be expensive

Question 7

State what a CSTR is good for.

Answer 7

Reactions that require agitation or use different concentrations.

Question 8

Give the 6 advantages of a CSTR.

Answer 8

continuous operation, good temperature control, easily adapts to two phase runs, good control, simplicity of construction, low operating costs, easy to clean

Question 9

Give the 2 disadvantages of a CSTR.

Answer 9

lowest conversion per unit volume, by-passing and channelling possible with poor agitation

Question 10

Give the 3 assumptions made to derive the batch reactor design equation.

Answer 10

1. no flow in and no flow out during the reaction 2. perfectly mixed 3. generally constant pressure or volume

Question 11

Derive the design equation for a batch reactor.

Answer 11

Question 12

Which way does the line on a 1/r plot travel when concentration is on the x axis?

Answer 12

Downwards from left to right.

Question 13

Which way does the line on a 1/r plot travel when conversion is on the x axis?

Answer 13

Upwards from left to right

Question 14

Give the 4 assumptions made to derive the design equation for a CSTR.

Answer 14

1. steady state (no accumulation)
2. continuous flow in and out
3. perfectly mixed
4. product stream has the same concentration as the vessel contents

Question 15

Derive the design equation for a CSTR.

Answer 15

Question 16

Give the 4 assumptions made to derive the design equation for a PFR.

Answer 16

1. steady state
2. perfect radial mixing
3. no axial mixing
4. continuous flow in and out

Question 17

Derive the design equation for a PFR.

Answer 17

Over a small control volume.

Question 18

Define space-time.

Answer 18

The time taken to process one reactor volume of feed measured at a specific condition.

Question 19

Define space-velocity.

Answer 19

The number of reactor volumes of ffeed at specific conditions which can be treated in a unit time.