1. Project Phase 1
Value stream mapping of Pilot plant
by
Schawan Kunupakaphun
Srividya Sharvankumar
Rushi Patel

2. Content
What is Pilot Plant?
Process Flow for Pilot Plant
External and Internal customer Requirements
Work time
Process information
Value Stream Mapping
Area of improvement

3. Pilot Plant Trial for a New Product
● Pilot plant runs trial for various compound that are developed in an R&D
● The compound is tested for the feasibility of its commercial production
● Provides sample of the product to the expected customers for them to test
the product in their facility.
● On time delivery of samples to the customer is critical. As the sample will let
the customer to provide us the commercial scale production order if the
material passes their specifications.
● pilot plant aims at testing the process within the existing facility available at
the pilot plant
● The value stream for the pilot run in this project is related to a single product

4. Process Flow for Pilot Trial
● Upon the arrival of the order for a sample production following are the series of
event followed:
● Decide the operation philosophy for the process.
● Execute the modifications.
● Checking of the changes
● Information to operating team
● Conduct the run
● Data compilation
● Product packaging
● Discussion on findings of batch with the design team
● Dispatch of material to customer
● Two suppliers involved:- Process chemical supplier( supplier 1) and Starting Mat.
supplier(Supplier 2)
● Lead time for obtaining both material is two weeks by 2 shipment every week.

5. External Customer Requirements
● 50kg of pyrazole acid per month
● Specification for the final product is provided to the production control team.
● Customer order to produce 150 kg within 3 months.
● 3kg material in PTFE cans
● Weekly shipment
● Pharmaceutical company requires orders to come 30 days before shipment.
Internal Customer Requirements
● Weekly updates regarding the product dispatch
● Weekly progress from the production team about the new findings and issues in
the operation.
● Weekly process data collected in all the operations during all the shifts.

6. Work Time
● 330 days per year
● Three shifts in all production department.
● 8.5 hrs every shift with 30 mins break during each shift.
● Manual process stops during breaks.
● 30mins of lapover time between each shift.

7. Process Information - Reaction
● Batch process with 2 operators per shift.
● Number of shifts: 3
● Cycle time : 8hrs
● Changeover Time : 4hrs
● Changeover Frequency : 2 per day
● Observed Inventory:
o 10 days of unreacted raw materials
o 1 day of reacted material.
● Uptime: 67%
● Yield : 100%

8. Process Information - Filtration
● Batch process with 1 operators per shift.
● Number of Shifts: 3
● Cycle time : 10hrs
● Changeover Time : 3hrs
● Changeover Frequency : 2 per day
● Observed Inventory:
o 4 days of filtered material.
● Uptime: 83%
● Yield : 90%

9. Process Information - Distillation
● Batch process with 2 operators per shift.
● Number of shifts : 3
● Cycle time : 12hrs
● Changeover Time : 12hrs
● Changeover Frequency : 1 per day
● Observed Inventory:
o 1 day of final product
● Uptime: 50%
● Yield : 98%

10. Process Information - Packaging
● Manual process with 1 operators per shift.
● Number of Shifts: 1
● Cycle time : 3hrs
● Changeover Time : 1hr
● Changeover Frequency : 2 per day
● Observed Inventory:
o 7 days of packed product
● Uptime: 75%

11. Value Stream Mapping
Pilot plant
Customer 2
Engineering Design
30 days2 weeks
Supplier 2
(Catalyst and
starting materials)
Supplier 1
(Process Chemicals)
Receiving
I
10 days
Production
Control
1 day
C/T = 8 hr
C/O = 4 hr
CoF = 2/day
Upt = 67%
Yield = 100%
Shift = 3
Reaction
(O) 2
I
1days
C/T = 10 hr
C/O = 3 hr
CoF = 2/day
Upt = 83%
Yield = 90%
Shift = 3
Filtration
(O) 1
I
10hrs
I
1 day
C/T = 3hr
C/O = 1 hr
Upt = 75%
Shift = 1
Packaging
(O) 1
2* week
Production Supervisor
Weekly
12hrs 3hrs
8hrs
10 days 1 days 4 days 1 days 7 days
Total LT = 23days
Total VA time = 33hrs
Weekly
updates
Engineering
design
1 day
Modification
7 days
50 Kg/mo
PTFE Can = 3kg
Product Dispatch
I
7 days4 days
Weekly Progress
Customer 1
Daily Schedule
Checking Modification
2 days
C/T = 12 hr
C/O = 12 hr
CoF = 1/day
Upt = 50%
Yield = 98%
Shift = 3
Distillation
(O) 2

12. Takt Time
Total available working hours in a month = 27.5 * 24
= 660 hrs
Total Quantity to be produced per month = 50 kg
Takt Time = Time Available/ Qty Required
= 660/50 = 13.2 hrs/kg
Overall Cycle time => 33hrs to produce 3 kg
= 11 hrs/ Kg
Hence the overall cycle time for the process < Takt time

13. (O) 2
C/T = 12 hr
C/O = 12 hr
CoF = 1/day
Upt = 50%
Yield = 98%
Shift = 3
Value Stream Mapping
Pilot plant
Customer 2
Engineering Design
30 days2 weeks
Supplier 2
(Catalyst and
starting materials)
Supplier 1
(Process Chemicals)
Receiving
I
10 days
Production
Control
1 day
C/T = 8 hr
C/O = 4 hr
CoF = 2/day
Upt = 67%
Yield = 100%
Shift = 3
Reaction
I
1days
C/T = 10 hr
C/O = 3 hr
CoF = 2/day
Upt = 83%
Yield = 90%
Shift = 3
Filtration
(O) 1
I
10hrs
I
1 day
C/T = 3hr
C/O = 1 hr
Upt = 75%
Shift = 1
Packaging
(O) 1
2* week
Production Supervisor
Weekly
12hrs 3hrs
8hrs
10 days 1 days 4 days 1 days 7 days
Total LT = 23days
Total VA time = 33hrs
Engineering
design
1 day
50 Kg/mo
PTFE Can = 3kg
Product Dispatch
I
7 days4 days
Customer 1
Daily Schedule
Checking Modification
2 days
Distillation
(O) 2

14. Area of improvement
● The raw material stays in the warehouse for 10 days before the process is
started which needs to be reduced.
● There is holdover for all the intermediate material with the intermediate after
filtration to be as high as 4 days.
● The finished product stays in the warehouse for 7 days before the customer
pulls it.
● Product stays in inventory for 7 days therefore no.of shift is high.
● Staffing for the reaction and distillation has high number of operator.
● The uptime is very low for the reaction and distillation steps.
● The changeover time is high for all the processes.

15. Thank You