chapter 3 batch processes
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Chapter 3 Batch Processing
Department of Chemical Engineering
West Virginia University
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Outline
• Design Calculations
• Gantt Charts and Scheduling
• NonOverlapping and Overlapping Operations
• Cycle Times
• Flowshop Plants
• Jobshop Plants
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Outline
• Product and Intermediate Storage
• Parallel Process Units
• Equipment Design for Multiproduct Batch Processes
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Outline
• Design Calculations
• Gantt Charts and Scheduling
• NonOverlapping and Overlapping Operations
• Cycle Times
• Flowshop Plants
• Jobshop Plants
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Design Calculations
• Recipe
• Operations are unsteady state
• Often existing equipment is used – not designed specifically for recipe
• Transfer from equipment and cleaning important
• Recycling and energy integration issues
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Recipe
Step 1: 500 kg of reactant A (MW = 100 kg/kmol) is added to 5000 kg of
a mixture of organic solvent (MW = 200 kg/kmol) containing 60% excess
of a second reactant B (MW = 125 kg/kmol) in a jacketed reaction vessel
(R-301), the reactor is sealed, and the mixture is stirred and heated (using
steam in the jacket) until the temperature has risen to 95C. The density of
the reacting mixture is 875 kg/m3 (time taken = 1.5 h).
Step 2: Once the reaction mixture has reached 95C, a solid catalyst is
added, and reaction takes place while the batch of reactants is stirred. The
required conversion is 94% (time taken = 2.0 h).
Step 3 ……..
Step 4 ……..
Step 5 ……...
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Design Calculations
Because reactors of this sort come in standard sizes, a 3000-gallon (Vtank) reactor is selected.
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3
3
5500[kg]6.286
875[kg/m ]V m
3
3
5500[kg] 110.48 2768
0.6875[kg/m ]requiredV m gal
60% fill
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Design Calculations
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p s
dTVC UA T T
dt
pos
finals
VC
tUA
TT
TT
ln
Find the time to heat vessel contents from ambient to 95C
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Design Calculations
• Transfer from equipment and cleaning important
Gravity drain or pump
Cleaning – GMP/documentation
• Recycling and energy integration issues
Recycling – often use dump tank and accumulate material from several runs
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Outline
• Design Calculations
• Gantt Charts and Scheduling
• NonOverlapping and Overlapping Operations
• Cycle Times
• Flowshop Plants
• Jobshop Plants
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Gantt Charts and Scheduling
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Outline
• Design Calculations
• Gantt Charts and Scheduling
• NonOverlapping and Overlapping Operations
• Cycle Times
• Flowshop Plants
• Jobshop Plants
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NonOverlapping and Overlapping Operations
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1
m
NO i
i
T n t
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NonOverlapping and Overlapping Operations
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NonOverlapping and Overlapping Operations
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m
i
iimi
O ttnTT1
,...,1)(max)1(
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Outline
• Design Calculations
• Gantt Charts and Scheduling
• NonOverlapping and Overlapping Operations
• Cycle Times
• Flowshop Plants
• Jobshop Plants
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Cycle Times
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1,
1
m
i mNO i
cycle NO i
i
n tT
t tn n
n
ttn
n
Ttt
m
i
iimi
cycleOcycle
1,...,1
,
)(max)1(
tcycle = total time/number of batches
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Cycle Times
From the overlapping scheme – when the number of batches (n) to be produced is large,
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1,..,max { }cycle i
i mt t
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Cycle Times
Example
A batch process involves 4 pieces of equipment with the following process times
Heating and Mixing 2.5 h
Reaction 3.5 h
Filtration and Drying 1.5 h
Crystallization and packaging 2.0 h
Determine the cycle times for non-overlapping and overlapping operation.
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Cycle Times
Example
TNO = 2.5+3.5+1.5+2.0 = 9.5 h TO,5 = [(5-1)×3.5+9.5]/5 = (14+9.5)/5 = 4.7 h TO,10 = [(10-1)×3.5+9.5]/5 = (31.5+9.5)/10 = 4.1 h TO,∞ = 3.5 h
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Outline
• Design Calculations
• Gantt Charts and Scheduling
• NonOverlapping and Overlapping Operations
• Cycle Times
• Flowshop Plants
• Jobshop Plants
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Multiple Products
When we have multiple products that can be produced in the same equipment, the scheduling of multiple batches requires careful planning
The different products may require the same processing steps, or more often will require only a subset of all possible steps. Moreover, the order in which a batch process uses different equipment might also differ from product to product
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Flowshop Plants
If all the products use the same equipment in the same order or sequence, but not necessarily for the same lengths of time then the plant is referred to as a flowshop plant
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Flowshop Plants
Consider 3 products A, B, C each requiring to be run nA, nB, and nC times in a given period.
When we want to produce multiple products using the same
equipment then we can either:
• run campaigns of the same product followed by campaigns of the next product followed by……
i.e., run A - nA times followed by B - nB times followed by C -nC times - AAAAAAAABBBBBBBBCCCCCCC
• Intermingle the products so that we run ABCABCABC… or
ACBACBACB…, or AABCAABCAABC
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Flowshop Plants
For multiple- (single) product campaigns the total processing time, or production cycle time, is found by adding the operation times for each product. If the number of batches per campaign is large (for example, >10), then the production cycle time can be approximated by
1,..,
max { }
C C
j cycle j ij i m jj A j A
T n t n t
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Flowshop Plants
Example – production of three products A, B, and C
Use Single Product Campaigns
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Flowshop Plants
What if we want to run as ABCABCABC. What is the cycle time and how many batches can we produce of each product in 500h?
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Flowshop Plants
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Flowshop Plants
3.5h not 2.5 h
Cycle times > 10.5h
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Jobshop Plants
When not all products use the same equipment or the sequence of using the equipment is different for different products, then the plant is referred to as a jobshop plant.
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Jobshop Plants
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Jobshop Plants
For running sequential (multiple) single-product campaigns, the cycle time and number of batches can be determined by the same method used for the flowshop plant.
For sequential operation of batches ABCABC.. or ACBACB… we need to draw the Gantt chart.
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Jobshop Plants
For equal batches of A, B, and C how many batches can be produced in 500 h?
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Jobshop Plants
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Jobshop Plants
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Jobshop Plants
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Jobshop Plants
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Outline
• Product and Intermediate Storage
• Parallel Process Units
• Equipment Design for Multiproduct Batch Processes
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Product Storage
Product Storage for Single-Product Campaigns When using combinations of single-product campaigns in a multi-product plant, it is necessary to store product during the campaign. The amount of storage is dependent on the rate of production and rate of demand for each product and the cycle time.
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Product Storage
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Product Storage
s p d rampV r r t
Rate of production Rate of demand
Campaign time
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Product Storage
For products A, B, and C, determine the minimum storage capacities for a single-product campaign strategy. Assume that 1 month = 500 hours. Note that 43 batches of each unit are required for each product per month.
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Product Storage
Product A (0.093 – 0.020)(43×2.5) = 7.85 m3
B (0.07752 – 0.06202)(43×4.5) = 9.20 m3
C (0.06202 – 0.024)(43×4.5) = 7.36 m3
s p d rampV r r t
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Intermediate Storage
For Multi-product Campaigns
So far, assumed no intermediate product storage available. This type of process is a zero wait, or a zw-process.
Flow to equipment directly from previous equipment in recipe.
Delay in one step propagates through batch to all steps.
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Intermediate Storage
It may be possible to store product in the equipment that has just been used. e.g. if two feed streams are mixed in a vessel, the mixture could be stored until the next process unit in the production sequence becomes available. This holding-in-place method may not work for some unit operations, e.g. in a reactor. The upper limit of the intermediate storage concept occurs when there is unlimited intermediate storage (uis) available, and this is referred to as a uis-process.
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Intermediate Storage
Limiting Case
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Intermediate Storage A B C
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Outline
• Product and Intermediate Storage
• Parallel Process Units
• Equipment Design for Multiproduct Batch Processes
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Parallel Process Units
Reduce bottlenecks caused by a single piece of equipment by duplicating the equipment.
Trade-off between added equipment (and maintenance) cost vs. higher throughput.
Makes sense when one equipment dominates cycle time.
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Parallel Process Units
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A B C
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Outline
• Product and Intermediate Storage
• Parallel Process Units
• Equipment Design for Multiproduct Batch Processes
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Equipment Design for Multi-product Batch Processes
The design of equipment sizes for multiproduct batch processes depends on the
• Production cycle time
• Whether single- or multi-product campaigns are used
• The sequence of products for multi-product campaigns,
• Use of parallel equipment.
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Equipment Design for Multi-product Batch Processes
Example
Clearly the reactor is the limiting piece of equipment – determine the size of the reactor required.
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Equipment Design for Multi-product Batch Processes
From the recipe for each batch, calculations for the specific volume of each reactor can be made – see Chapter 3.
Equations required
Total time for batches tA + tB + tC = 500
Reactor volumes VA = VB = VC
total time taken to produce A
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