Process Improvement for a Materials Perspective

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Process Improvement for a Materials Perspective

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Title: Process Improvement for a Materials Perspective

1
Process Improvement from a Materials Perspective
Solutions looking for problems or Problems
looking for solutions?
2
Process Improvement from a Materials Perspective

Materials utilization
How can processes be improved
Eliminating/Replacing materials
Replacing Solvent with Aqueous Cleaners
Reusing materials
The Army has recently authorized the use of
re-refined used motor oil for use in ground
equipment
Recycling materials, and
paper waste
Consolidating/eliminating process steps.

3
Expanding the Relationship

Gather information
Industrial or Manufacturing Directory
SIC code
Sales
Size
Dun Bradstreet
Company history
Personnel profiles
Financial report

4
Expanding the Relationship

Made several visits to the facility
Observed what they do
Met the Facility Manager and supervisors
Implemented Several Pollution Prevention Projects
Replaced Solvents with Aqueous Cleaners
Introduced Membrane Filtration on Aqueous
Cleaners
Implemented Rag Recycling to Reduce the Volume of
Solid Waste

5
Expanding the Relationship

Trusted
Useful
Cost effective, and
Credible.

6
Follow Up Call

Bumpers-R-Us Corporation
Mr. Sid E. Ways
Process line manager
This scenario is an example only and is not used
to imply
that any member of NIST, IMEC, or any other
organization
affiliated with NIST is not fully capable in the
performance
of their duties.

7
Good Job!

Solved another problem
Increased client satisfaction,
Gained more trust and influence,
One more bean to count, and
Big project is on the horizon!!

8
Follow-Up

3 months later
Pitch the Big project
Programmable Logic Control (PLC)

9
Solutions Looking for Problems

If the shoe doesnt fit -
theres something wrong with your foot
Promoting inappropriate changes
Dont see the whole picture
Dont understand the problem
Dont understand the solution
Solving the problem at the source.

10
Project Opportunity Assessment

Set up a meeting
Reviewed the problem,
Mapped the process,
Found the root cause of the problem, and
Brainstormed a solution as a team.

11
Coming Up

How to develop a problem statement,
How to map a production process,
How to identify loss reduction opportunities,
How to use a material loss assessment, and
How to present your information.

12
Next Up

Process Mapping and Root Cause Analysis

13
B
A
14
B
A
15
B
A
16
When the map is complete..the route becomes
clear

Ancient Chinese Proverb

17
Process Analysis Techniques

Problem Definition
Process Mapping
Root Cause Analysis
Site Assessments
Identifying Loss Reduction Opportunities

18
Problem Definition

Involves defining the
What?
When?
Where?
Significance

19
Problem Definition Step 1What?

What opportunity will you address?
What issue keeps facility manager awake at night?
What is their pain?
What is their passion?
Key tools
TOP 10 Self-Assessment
Opportunity Prioritization Matrix
Interviews/Surveys
Scrap/reject reports
Functional Assessments

20
Problem Definition Step 2When?

When did the problem appear?
Try to pinpoint precise dates/times
Did problem coincide with something recently
implemented?

21
Problem Definition Step 3Where?

Narrow the boundaries!
Did problem occur on
One shift?
One activity?
One supplier?
One material?
One machine?

22
Historical vs. Newly-Emerged Problems
Anomaly
Historical Reject Level
Question Where is the opportunity!?
23
Problem Definition Step 4Significance!

Measure the impact of the problem
Is it important to the company?
Is it defined in terms of the companys decision
maker can understand?
Will the elimination of the problem improve the
companys bottom line?

24
Problem Definition Summary

Combine the
What?
When?
Where?
Significance
Develop a problem statement or effect

25
Initial Problem Statement

NOTE This is the problem as they PERCEIVE it
May only be a symptom of the actual root cause
Provides insight regarding parameters to monitor
in process mapping

26
Process Mapping

Why should we map a process?
Improve process knowledge and understanding
Identify and correct problem areas
Identify loss reduction opportunities
Determine usage and fate of raw materials and
other resources

27
Three Questions Used in Process Mapping

What happens next?
What are the inputs?
What are the outputs?

28
Complicating Factors

General vs. Detailed Processes
Ancillary Processes
Intermittent Processes
Process Upsets
Looping Processes
Splitting Processes

29
Military Root Cause Analysis

Vehicle Maintenance
Repair of Vehicle Sent from Organizational Shop
Stated Problem (according to Environmental
Manager)
Too Much Oily Wastewater is Being Generated

30
General Process Map
Organizational Shop
Transportation to Higher Level Shop
Organizational Shop
Higher Level Shop
31
Vehicle Repair Process
Repair Need Identified by Operator
Vehicle Washed to Identify Source of Problem
Repair Verified
Vehicle Released to Organizational Unit
Vehicle Washed At Shop
Parts Ordered
Vehicle Transported Back to Unit
Transported to Higher Shop For Repair
Repair is Made
Road Tested
Inspected at Higher Shop
Vehicle Washed to Check for Leaks
32
Process loss problem example

Bumper manufacturer
Stamping and electroplating operations
Stated Problem (according to plant manager)
Electroplating operations cant keep up with
stamping operations

33
General Process Map
Powder Coating
20,000 units/yr
Receiving
Stamping
Shipping
50,000 units/yr
Electroplating
50,000 units/yr
30,000 units/yr
34
Electroplating Process(Time Study)
35
Electroplating Process(Time Study)
OR
OR
dwell 3 sec.
36
Root Cause Analysis

Used to establish cause-and-effect
Theory - there is a direct cause for a problem
Determine the sources of problems
Personnel
Machine
Method
Material
Management
Environment

37
Personnel Oriented Problems

Lack of training
Manpower availability
Safety/Industrial hygiene
Labor Relations

38
Machine Oriented Problems

Antiquated Equipment
Wrong equipment for Application
Under/over sized equipment
Worn out equipment

39
Method Oriented Problems

Productivity (cycle time) Problems
Bottlenecks
Downtime and tool change time
Wrong SOPs
Lack of measurement
Poor paperwork flow
Delivery problems

40
Management Oriented Problems

Increased Costs
Poor quality of Parts
Customer relations
Vendor relations
Labor relations

41
Material Oriented Problems

Too many rejected parts
Excessive cost increases
Too much waste generation
Regulatory problems
Inventory Control Problems
Energy Efficiency
Work in Progress

42
Environment Oriented Problems

Government Regulations
Competition
Transportation Access
Utility Access

43
Too Much Oily Wastewater Is Being Generated
Vehicles Washed Before Repair
Vehicle is Washed After Repair
SOP
SOP
To Make Sure Repair is Complete
So Mechanic Can See Source of Leak
So That The Right Parts Are Ordered
So the Vehicle Can Be Fixed Right the First Time
So the Vehicle Can Be Fixed Right the First Time
44
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45
Electroplating Process(Materials Study)
T3
Electro Clean
3,920 gal. caustic NaOH 10-12 oz/gal 170-180
F Dumped every 45 days
T5
Counterflow Rinse
4.1 gpm removes electroclean residue
T5a
T6
Etches surface 10-15 HCl dumped every 1-2 weeks
Acid HCL Dip
T7
6 gpm optimum runs less
Rinse
T10
2300 gal. dumped every 60 days to T3
Electro Clean
T12
Counterflow Rinse
5.4 gpm
T12a
T13
1,832 gal 10-15 HCL dumped every 2 weeks to
acid dump tanks
Acid HCL Dip
T14
Counterflow Rinse
5.4 gpm
T14a
46
Electroplating Process(Materials Study)
T17
Semi Brite Ni Plate
OR
T18
Semi Brite Ni Plate
OR
T19
Semi Brite Ni Plate
High sulfur Ni strike 359 cycle 7,250 gal.
T20
Tri Ni Nickel
T21
Brite Ni
8,700 gal 4 bays pH 4.0
2,100 gal, Ni bathdeposits particles
(non-conductive) with Ni 3-4 sec. 64,000
pores/in2
T22
Dura Ni (Strike)
dwell 3 sec.
Rinse Spray
T23
Not functional will be used to replace dragout
evap.
T24
5-10 gpm 1,300 gal each
Counterflow Rinses
a b c
T25
1,832 gal chromic - 202 gal. sulfuric - minimal
.01oz./gal
Pre-dip
T26
2,620 gal 35-40 oz/gal hex Cr sulfuric acid
Deco Cr
T27
a b c
Counterflow Rinses
5.4 gpm
47
Cleaning pickling processes cause contamination
Not enough capacity
48
Identifying Loss Reduction Opportunities

Discuss/challenge sub-causes
Multi-vote to prioritize problems
Generate Loss Reduction Opportunities
Brainstorm ideas
Select implement best solution(s)
Monitor results
If problem persists, implement alternative
solutions

49
Loss Reduction TechniquesPersonnel Oriented
Problems

Improve employee training
Improve employee participation
Develop quality circles
Improve safety conditions
Improve employee supervision

50
Loss Reduction Techniques(Machine Oriented
Problems)

Modify existing equipment
Adopt new processes and technology
Redesign/reformulate products
Implement preventative/predictive maintenance
Recycling of by-products and wastes

51
Loss Reduction Techniques(Method Oriented
Problems)

Improve operating practices
Improve inventory control
Improve housekeeping
Process optimization
Standardize procedures
Waste segregation
Process water reduction

52
Loss Reduction Techniques(Material Oriented
Problems)

Raw material modification/substitution
Improved inventory control
Implement Statistical Process Control (SPC)
methods
Process optimization

53
Loss Reduction Techniques(Management Oriented
Problems)

Better planning and scheduling
Improved cost allocation and accounting
Implement continuous improvement strategies
Improve communications to employees

54
Loss Reduction Techniques(Environment Oriented
Problems)

Relocate operations
Develop alternative shipping methods
Energy Efficiency

55
Electroplating Cant Keep Up
Not enough capacity
Cant run 2nd line
Process takes too long
Too many steps
WWTP cant handle it
WWTP not big enough
Parts dont get clean (Buffing compound residue
on parts)
Too much waste to treat
Cleaning process inefficient
Too much metals drag out
Cleaning acid tanks dumped too often
Cleaning process inadequate
Buffing compound hard to remove
Tanks become contaminated
Dwell times over plating tanks are too short
Cleaning pickling processes cause contamination
Not enough capacity
Brainstorm Ideas for Loss Reduction
Personnel Machine Method Material Management
Environment
56
Cleaning pickling processes cause contamination
20 of the solutions solve 80 of the problems
57
Materials Loss Assessments

From Websters Dictionary
Map - to explore or make a survey of
Assess - to evaluate or appraise
Audit - an examination of records or accounts
to check their accuracy

58
Materials Loss Assessments

Aspects of Assessments (Audits)
Materials Balance-what comes out should equal
what goes in
Improved Process Knowledge-better general
understanding of how the system works

59
Materials Loss Assessments

Goals and Products of the Assessment
Accurate Process Map
Accurate Facility Layout
Compilation of Inputs and Outputs
Ideas on How to Improve the Process

60
Materials Loss Assessments

Opening Meeting-discuss what you will do
Walkthrough/Process Examination-do it
Closing Meeting-discuss what you did and future
actions

61
Materials Loss Assessments

Aspects of the Opening Meeting
The right people management, labor, line
personnel, EHS
An initial process map
An initial plant layout
Pertinent data and records
Organization of the visits activities

62
Materials Loss Assessments

The right people
Management-authority to act
Labor
Shop Supervisor or Area Manager
EHS-to ensure regulatory compliance

63
Materials Loss Assessments

Process Map
Plant Layout
These are not the same thing!! For example

64
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65
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66
Materials Loss Assessments

Pertinent Data and Records
Standard Operating Procedures
Production Specifications
Production Logs
Vendor Information
Purchasing Records
Inventories
MSDSs
Manifests, air data, sewer data, TRI data, etc.

67
Materials Loss Assessments

Organization
Safety requirements-PPE
Single or multiple groups
Who goes where?
Who does what?
When and where does the group reassemble?

68
Materials Loss Assessments

Walkthrough/Process Examination
Managing Inventory
Production Processes
Operating Practices
Material Substitution
Equipment Modification or Substitution
By-product Concentration, Reuse, and Recycling

69
Materials Loss Assessments

Managing Inventory
First in First Out to reduce out of date
Process and inventory by-products the same as raw
materials
Control access to raw materials-pharmacy concept
Purchase in appropriate quantities and containers
Continuously evaluate less hazardous substitutes
Implement Just-in-time delivery

70
Materials Loss Assessments

Production Processes and Operating Practices
Spill/leak prevention
By-product segregation
Improved raw material handling
Preventive and predictive maintenance
Employee training
Effective supervision
Employee participation programs
Production planning and scheduling
Cost allocation and accounting

71
Materials Loss Assessments

Material Substitution
Use more efficient raw materials
e.g. switch to aqueous cleaner
use dry machining to eliminate waste coolant
More transfer efficient coatings
(e.g. powder coat)

72
Materials Loss Assessments

Equipment Modification/Substitution
Modification
e.g. New parts racking
Improved seals-teflon for neoprene
Better controls-Automated or PLC
Substitution (new equipment)
e.g. Energy efficient dryer
FRP tanks for steel
Phase out obsolete equipment

73
Materials Loss Assessments

By-product Concentration/Reuse/Recycling
Concentration-Membrane Filtration to Concentrate
Wastes in Aqueous Cleaners
Reuse- potato starch from rinse water, peels for
animal feed
Recycling-cleaning agent recovery from aqueous
cleaning baths

74
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75
Materials Loss Assessments

Closing Meeting
Break to get organized
Discuss what happened
Correct inaccuracies in maps and data
Generate loss prevention options
Brainstorm ideas
Team discussion
Determine next actions and assign tasks

76
Keys to a Successful Assessment

Asking Questions
Do you have to dump that coolant every two
weeks?-closed
How do you decide when to dump the coolant?-open
Is there any way to reuse this material?-closed
Why does this material become a waste?-open
Have you tried any substitutes?-closed
What substitutes have you tried? How did they
work?-open

77
Keys to a Successful Assessment

Exploring a Process/System
Ask many questions, even if they seem stupid
Use other industries as examples
Generate many ideas
Do not overlook the obvious
Look in avoided places
Look at the big picture
Examine a variety of information
Never explore alone

78
Loss Reduction Opportunities

Previous modules
Gathered information,
Mapped process,
Found the root cause of the problem,
Assessed the process, and
Brainstormed some solutions
Present the solutions as a project.

79
Material Loss Presentation

You could report on the projects -
Expected cost savings
Expected capital expenses
Expected labor costs, and
Expected project results
Some projects may be sold before you leave, and
Others will have to be compared financially with
completing company projects.

80
Corporate Priorities for Fund Allocation

1 Cost Avoidance projects
Reduced head count
Reduced water usage
2 - Profit-sustaining projects
Equipment maintenance

81
Case-in-Point

MARWI USA - Bicycle parts manufacturer
Problem - Eliminate WWTP operations
WMRC Presentation -
Use Membrane filtration to replace WWTP
Save on WWTP operations chemicals
Save on parts washer chemicals
Plant Manager had one question?
How will this change increase my production?
Not interested!

82
Right Ladder, Wrong Wall

Project focus was wrong
Root Cause of problem - Increase production
Should have looked at Production Changes
Lost time Labor Dump/Recharge Tank
8hrs X 26 dumps per year 208 hours
downtime/year
Production Loss of 250 units per hour
Proposed change Increase of 52,000 units/year

83
Competing with Other Projects

Cost savings alone wont compete successfully.
Characteristics of a project that influence
project acceptance include
Relative advantage of the project work
Over idea superseded.
Compatibility
With existing company needs, values, and
experiences.
Complexity
Perception of the difficulty to understand and
use.

84
Competing with Other Projects

Trialability
Degree to which an implemented change can be
experimented with.
Observability
How visible are the projects results.

85
Building a Better Projecttrap?

Use Membrane filtration to replace WWTP
Save on WWTP operations chemicals
Save on parts washer chemicals

86
Building a Better Projecttrap?

Membrane Filtration would -
Increase production by 5
A relative advantage over the WWTP
Increase production floor space by 11
Compatible with the companys needs
Extend process cleaning bath life
Complexibility of operation is minimal

87
Building a Better Projecttrap?

Offered a pilot test to demonstrate unit
Ease of operation compared to WWTP
Employed plant personnel to run unit
Hands on experience for familiarity
Change Agent gains
More trust,
More credibility, and
More success.

88
Total Cost Accounting

Total Cost Accounting (TCA) is a generic term for
the long-term, comprehensive analysis of the
internal costs and savings of loss prevention,
energy efficiency, and other production projects.

89
Total Cost Accounting

TCA in less than 8 hours - Not possible!
Applying the fundamentals of TCA are possible
See the whole picture
Using all costs and expenses involved

90
Total Cost Accounting

Direct Costs
Directly linked with project or process
Capital Expenses
Equipment and Installation,
Project Engineering,
Utility Connections, and
Buildings.
Operating and Maintenance
Raw Materials,
Labor, and
Utilities.

91
Total Cost Accounting

Hidden (Indirect) Costs
Costs lumped into general admin. accounts
Value of lost production,
Value of rejected parts,
Lost machine time,
Insurance, and
Regulatory permits, costs, and monitoring.

92
Total Cost Accounting

Contingent Liability Costs
Categories
Accidental Releases
Superfund sites and other clean-ups
Legal damages and settlements
Fines and penalties
Attorney fees
Difficult (if not impossible) to quantify
Event uncertainty, and
Costs frequency difficult to estimate

93
Total Cost Accounting

Intangible Cost
Even harder to quantify
Increased sales due to product improvement,
Improved Corporate Image,
Customer Acceptance, and
Community Goodwill.
ISO 9000 and ISO14001 Certification
Improved Corporate Image!

94
Total Cost Accounting

4 projects at Bumpers-R-Us
Evaluate spray cleaning to remove buffing
compound.
Evaluate alternative buffing compounds
Evaluate membrane filtration for in-process
recycling
Evaluate diffusion dialysis for acid recycling

95
Total Cost Accounting

Estimating Costs and Benefits hierarchically
If Direct costs are sufficient to warrant a
project
No estimate required for other categories
If Direct Costs are not sufficient, then estimate
-
Hidden costs, then
Contingent Liability Costs, and finally
Intangible Costs

96
Loss Reduction Opportunities

Problem Cleaning Process Inadequate
Project Opportunity Evaluate spray cleaning
step to remove buffing compound - 1.5 k
Resources WMRC parts cleaning lab
Solution Install spray washing nozzle on
stamping line

97
Install Spray Washing Nozzle on Stamping Line
98
Install Spray Washing Nozzle on Stamping Line
Less the cost of 2nd cleaning process
99
Install Spray Washing Nozzle on Stamping Line -
Payback

TCA Costs
Process Cost 906,150
Investment 14,700
Savings 872,000
Payback 6 days

Direct Costs
Process Cost 136,150
Investment 14,700
Savings 122,650
Payback 1.5 months

100
Loss Reduction Opportunities

Problem Buffing compound hard to remove
Project Opportunity Evaluate alternative buffing
compounds - 2k
Resources Buffing compound vendors WMRC parts
cleaning lab
Solution Switch to alternative buffing compound

101
Switch to Alternative Buffing Compound
102
Switch to Alternative Buffing Compound - Payback

TCA Costs
Investment 0.00
Savings 1,038,140.00
Payback Immediately

Direct Costs
Investment 0.00
Savings 134,070.00
Payback Immediately

103
Loss Reduction Opportunities

Problem Cleaning tanks become contaminated
Project Opportunity Evaluate membrane filtration
technology for in-process recycling - 6k
Resources WMRC pilot microfiltration system
Solution Implement in-process recycling system

104
Implement In-process Recycling System
105
Implement In-process Recycling System
First year costs
106
Implement In-process Recycling System - Payback

Direct Costs
Process Cost 61,400.00
Investment 63,000.00
Savings 42,980.00
Payback 1.5 years

TCA Costs
Process Cost 831,400.00
Investment 63,000.00
Savings 812,980.00
Payback 28 days

107
Loss Reduction Opportunities

Problem Acid tanks become contaminated
Project Opportunity Evaluate diffusion dialysis
technology for recycling acid - 4.7k
Resources WMRC pilot diffusion dialysis system
Solution Implement acid recycling system

108
Implement Acid Recycling System - Payback