1. Expectations 6. Learning Points & Countermeasures 4. Focus Area 9. Evaluation and Future Needs8....
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Transcript of 1. Expectations 6. Learning Points & Countermeasures 4. Focus Area 9. Evaluation and Future Needs8....
1. Expectations 6. Learning Points & Countermeasures
4. Focus Area 9. Evaluation and Future Needs8. Financials7. Results
3. Current Situation
TEAM
Edgefield AvenueFawdon
Newcastle upon TyneNE3 3TT
Pharmaceuticals.
Turnover : £Profit : n/aOwnership:Number of Employees:450
Mark McGurkDiane StoreyDaniel StokesDan BillanyKeith CurrieMichael Hodgson
Company Address Products and Customers Team MembersEngineer NamesCompany Information Issue DateContract No.
Focus – Layout improvement, 5C, Vis Mgt.
COMPANY
5. Activity Structure
Masterclass Activity Summary
Wave 12009
Action Plan Do Check
Process Mapping
Identify Focus Area
Data Analysis
22/06/09
2. QCD 7 Measures
Create a Plan
LEARNING POINTS: - Waste elimination, Process mapping, 5C, Visual Management.
Review Activity and Develop Roll Out Plan
Map process streams
7 Wastes
Calculate ideal WIP levels
Identify location of Para stream WIP
Allocate IBC’s to each steam based on
calculations
5C para stream WIP locations
Visual Management Plan
Run simulation to check para stream WIP is correct
•Optimise and rationalise utilisation of IBC’s by type and process.•Better control of IBC’s•Reduce WIP if possible.•Ensure IBC’s are available.•Improve organisation in area.•Have Fun.
•Maximise/optimise use of existing IBC’s•Reduce further investment in IBC’s.•Improve control of IBC’s.•Upskill team in CI techniques.•Method/system for IBC’s.•Precursor to witness exercise.
From the diagnosis of the current situation the following workshop focus was developed :-
1Quantify the required number and type of IBC’s required to maintain the process flow.2. Implement visual management systems for use of IBC’s3. Designate specific locations for IBC’s within the complete process.4. Investigate current versus future process flows.5. Agree para WIP levels.6. Generate 20 large buck valve IBC’s from Epilim and non-para processes.
A visual system was developed to show which IBC’s belonged to each process stream.
Process stream WIP levelsCycle time data from each process was used to estimate optimum WIP levels, this include the para stream.
The team then calculated the optimum work in progress levels for each of the process streams. To prove the calculation the team ran a small simulation on the para stream process, this confirmed the correct number of IBC for the para stream.
To support the new working methods Job detail sheets would be introduced in:-
•The bin wash area.
•The service operators role.
The team identified all of the process streams that they needed to analyse. They documented cycle times and current and proposed WIP levels at each stage of the process for each stream.
The team worked on para and any stream which used buck valve IBC’s as a priority.
5C
The potential savings from this Masterclass are :-
•A reduction in additional IBC’s which was originally calculated as 20 outside of this team can now be achieved by utilising IBC’s from the current process more efficiently.
•As the number IBC’s has been optimised there is a reduction of batches in WIP within the para and other process streams.
•Other benefits include a better flow of IBC’s, more floor space available and the manufacturing area being less congested and more availability of the bin wash.
•This should also lead to less time spent looking for IBC’s and therefore an improvement in productivity due to IBC’s being more available for the process.
The Potential financial savings from this activity are :-
•The elimination of an unnecessary spend for additional IBC’s to support the change on the para process stream equipment of £420,000.
•A reduction in para stream WIP due to optimising the usage the IBC’s of £68,755 due to a reduction in pangran and paracodeine WIP.
Robin Barras Janice Hurst
Tim Scott Steve Eaton-Hall
Current system (Using butterfly IBC’s)
Future system (Using buck valve IBC’s)
As an improvement to the equipment the paracetamol process is being converted from butterfly valve docking station to a fully automatic buck valve system. This is superior system as the principle reduces the risk of contamination during operation of the process. This means that there is a requirement for additional buck valve IBC’s to support the paracetamol process stream.
The level 1 chart shows the total number of IBC’s found, when compared to the on-site records 7.5% of the IBC’s were not located.
The level 2 chart shows how many of the bins fall into each of the 5 categories:- 70 (38% were large butterfly), 45 (24.5% were large buck valve)
21% of all IBC’s were being used by the paracetamol process stream (all large butterfly IBC’s.)
19% of all IBC’s were being used by the Epilim process stream, the majority being Large buck valve IBC’s, the remainder small butterfly IBC’s.The team were interested in WIP levels in
the para process and any process which used large buck valve IBC’s. These
processes were identified and process mapped.
The appropriate number of IBCS was recorded.
The team then concentrated on the Para stream process as this was the main focus of the intervention due to the process change.
The team identified and allocated the correct number of spaces for the para stream process ensuring transportation waste was kept to a minimum.
Standardised WorkVisual management
Para Stream Simulation Allocation of IBC’S
Previous floor
markings removed.
New locations for WIP identified from bin allocation and layout drawing.
Areas configured and identified with signs.
•The team did an excellent job during a challenging intervention which was very heavy on data and classroom based activity.
•Feedback from management was well received.
•The team are continuing with meetings and are on target to free up.
•Regular team reviews must continue to ensure the IBC’s are at the required level.
•Detailed roll out plan has been developed by team to assist intervention.
Visual Management of IBC’s to process stream
Draft Standardised work documents produced
Expectations and 7 Measures
Team Expectations
• Optimise and rationalise utilisation of IBC’s by type and process.
• Better control of IBC’s• Reduce WIP if possible.• Ensure IBC’s are available.• Improve organisation in
area.• Have Fun.
Company Expectations
• Maximise/optimise use of existing IBC’s
• Reduce further investment in IBC’s.
• Improve control of IBC’s.• Upskill team in CI
techniques.• Method/system for IBC’s.• Precursor to witness
exercise.
Return to A3 Summary
Current Situation and Focus
Return to A3 Summary
Para-stream Feed system
Current system (Using butterfly IBC’s) Future system (Using buck valve IBC’s)
Butterfly valve Butterfly valve IBC uses a IBC uses a manually manually operated valve operated valve which the which the operator must operator must actuateactuate
A cradle must A cradle must also be used also be used to enable the to enable the IBC to connect IBC to connect with the with the docking docking stationstation
Butterfly valve Butterfly valve IBC is then IBC is then positioned positioned over the over the docking docking station and the station and the valve valve actuated.actuated.
Buck valve IBC Buck valve IBC mates directly to mates directly to the docking the docking station ready for station ready for the process to the process to actuate the actuate the valve.valve.
Buck valve IBC Buck valve IBC is an is an automatically automatically actuated valve actuated valve that is that is controlled by controlled by the process.the process.
As an improvement to the equipment the As an improvement to the equipment the paracetamol process is being converted from paracetamol process is being converted from butterfly valve docking station to a fully butterfly valve docking station to a fully automatic buck valve system. This is superior automatic buck valve system. This is superior system as the principle reduces the risk of system as the principle reduces the risk of contamination during operation of the process. contamination during operation of the process. This means that there is a requirement for This means that there is a requirement for additional buck valve IBC’s to support the additional buck valve IBC’s to support the paracetamol process stream.paracetamol process stream.
Current Situation
Return to A3 Summary
The level 1 chart shows the total number of IBC’s found, when compared to the on-site records 7.5% of the IBC’s were not located.
The level 2 chart shows how many of the bins fall into each of the 5 categories:- 70 (38% were large butterfly), 45 (24.5% were large buck valve)
A complete count of all the IBC’s within the process was conducted and this was then used to identify the current situation.
21% of all IBC’s were being used for paracetamol and they were all large butterfly IBC’s.
19% of all IBC’s were being used by the Epilim process stream, the majority being Large buck valve IBC’s.
The team were interested in WIP levels in the para process and any process which used large buck valve IBC’s. These processes were identified and process
mapped.
The number of IBC’s was then analysed by type and process to identify the quantity and type of IBC allocated to each process.
Current Situation
SUMMARY
080.20.60.119.1Percentage.
7479305Grand Total.
6074606051780Total Time.
161014Total No.
Dist(m)
T (secs)
OP INSP TRANS DELAY STOR
SUMMARY
0621037Percentage.
293024266Grand Total.
0149982539015Total Time.
11125013Total No.
Dist(m)
T (secs)
OP INSP TRANS DELAY STOR
The data from the physical IBC count lead the team to identify how many IBC’s were in the para process, this was process mapped to identify delays and waste.
The data also identified which processes were using the required buck valve IBC’s, these processes were mapped to identify opportunities for releasing IBC’s.
SUMMARY
082.20.50.117.2Percentage.
120510220
Grand Total.
0839055151760Total Time.
181126Total No.
Dist(m)
T (secs)
OP INSP TRANS DELAY STOR
82.2 6280.2
High percentages in non-value added activities (delay)
Saw tooth identifies that material is being transported from one delay to another delay
instead of directly to operation.
Workshop Focus
Return to A3 Summary
From the diagnosis of the current situation the following workshop focus was developed :-
1. Quantify the required number and type of IBC’s to maintain the process.
2. Implement management systems for use of IBC’s.
3. Designate specific locations for IBC’s within the complete process.
4. Investigate current verses future process flows.
5. Agree para stream WIP levels.6. Generate 20 large buck valve
IBC’s from Epilim and non-para processes.
Countermeasures :- Process stream analysis
To gain a better understanding on the process stream and WIP level requirements the process streams were mapped
Predicted weekly demand
Blending operation required
Moisture test required to determine route
Process Data
Cycle time
Shift Pattern
Observed WIP
Predicted WIP
Acceptable process range
Preferred range
Within the para stream process the team identified a moisture test. This determines whether the base grain will go to pangran or paracodeine processes. This was thought to be a major issue when the team analysed the data virtually all of the product could be used for either process.
Countermeasures :- Ideal para stream WIP level
Plan:- Each process stream was isolated. From this ideal WIP levels were calculated for each process.
Do:- Calculate optimum WIP levels.
Check:- Run a simulation to check that WIP levels are ok and start condition is reached at end of cycle.
Each team member was designated a process and a scale of 2 secs = 1 hour was used, a weekly cycle of 105 hours was ran
Act:- Once WIP levels were verified to be ok the team then had to identify where to place the required WIP using 5C.
P
A D
C
Countermeasures :- 5C
Return to A3 Summary
After all the WIP levels within each process stream had
been analysed and the optimum levels calculated
and simulated the team proposed an allocation for
buck valve IBC’s.
After optimisation the team identified that there would be 6 spare IBC’s. The optimum level for para stream was 14, 6 less than the 20 originally estimated by the company.
The spaces for the para-stream IBC
locations was identified on a layout.
The team considered:-
•Keeping the Distance travelled to a minimum.
•Ensuring the flow of material was good.
Old locations removed.
IBC’s moved to newly configured
locations.
New locations configured from
layout.
Visual locations identified on area
walls.
New locations configured next to
processes.PARA –STREAM
FEED FLOOR.
Countermeasures :- Visual Management
Process stream allocation monitor,
this show which IBC’s are allocated to each individual process stream
Identification tag for each
IBC to identify which
process stream it
belongs to.
Action sheet for identifying if a bin
is swapped or some of the spares are required due to stock building etc.
Results and Financials
Return to A3 Summary
•Results
•Financials
The financial savings from this activity are :-
•A reduction in capital investment in buck valve IBC’s which was originally allocated as £420,000 has been reduced to £0 = £420,000 saving.
•Estimated reduction in paracetamol stock from £59,824 to £26,173 = £33,651 saving.
•Estimated reduction in paracodeine stock from £87,760 to £52,656 = £35,109 saving.
•Total potential savings from activity = £488,660.
The savings from this Masterclass are :-
•A reduction in additional IBC’s which was originally calculated as 20 outside of this team can now be achieved by utilising IBC’s from the current process more efficiently.
•As the number IBC’s has been optimised there is a reduction of batches in WIP within the para and other process streams.
•Other benefits include a better flow of IBC’s, more floor space available and the manufacturing area being less congested and more availability of the bin wash.
Evaluation and Future Needs
Return to A3 Summary
•The Team did an excellent job during a challenging intervention which was very heavy on data and classroom based activity.
•Feedback to management was well received.
•The team are continuing to have regular team meetings and are on target to free up the required number of IBC’s required.
•Regular team meetings must continue to ensure the IBC’s are available when the new para stream system goes live.
•A detailed roll out plan has been developed by the team to assist the intervention and ensure key activities have been completed by critical dates.
•This activity is now live and the team have exceeded the estimated reduction in IBC’s to approx. 12