Apidays New York 2024 - The value of a flexible API Management solution for O...
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1.
2. To properly manage a fleet at its optimum level, understanding Total Cost of
Ownership (TCO) is critical
2
Fleet TCO
(Total Cost of Ownership)
Fuel
Internal
Strategy
External
Strategy
Assets
Vehicle
Replacement &
Excess
Disposition
Vehicle
Depreciation
Maintenance
Vehicle
Maintenance
Vehicle Parts
• Assets – aligning holding periods for vehicles will impact TCO
• Maintenance – once vehicle holding period is set, maintenance
programs must be aligned
• Fuel – determining the right fuel strategy will impact TCO and
operations
3. TCO, measured against an operational activity, is a key metric in establishing a
baseline for fleet efficiency, deployment strategy and operating costs
TCO / Activity
TCO / Vehicle
Fuel Costs
Asset Costs
Maintenance Costs
Activity / Vehicle
Fleet Deployment Efficiency
Asset Utilization
Routing Efficiency
Vehicle Design Flexibility
3
Fleet Efficiency Levers
Key Metrics for Evaluation
• How can revenue be increased
with same number of vehicles?
• How do I lower the cost per vehicle?
Operating Cost Levers
4. TCO can be managed by optimizing vehicle holding periods
Lifecycle Strategic
Approach
Define optimal holding
periods for each major
type of vehicle asset
Establish policy to ensure
vehicle holding periods
are managed
appropriately
Identify critical
parameters to be
managed (i.e. source
costs, residual
values, should be
maintenance costs, etc.)
4
Fleet maintenance practices will need to be aligned with holding period strategy
Longer holding period
Light Duty Car & Truck Specialized Vehicles
• Higher source cost
• Significant up-fit cost
• Low mileage fleet
• Lower source cost
• High resell market
• Maintain high residual value
Shorter holding period
1 YR
10
YR5 YR
Medium and Heavy
Truck
• Lower source cost
• Minimal up-fit cost
• Potential resell market
• Average mileage vehicles
5. 5
•Reliability Improvements
•Cost Reductions
•Service Level Improvements
•Management Capability Advancements
•Asset Optimization
PM and PdM
•Technical Ownership
•Time Directed / Condition Directed
•Run to Failure
•Parameter / Intervals
•Operations Role
•Availability
Work Identification
•Operating Standards
•Operator Training
•Operator Troubleshooting
•Equipment Monitoring
•Equipment Numbering / Location
•W.0. Information Standards
Authorization / Prioritization
•“Need” vs. “Want”
•Priority Standards
•Equipment Criticality
•Authorization Levels
•Cost Review
Planning
•Job Scope
•Estimating (Labor & Parts)
•Equipment Histories
•Standard Jobs
•Integration with Planning
Backlog Management
•Ownership
•Duplication
•Cost Benefit Analysis
•Review of Aged Work
•Cancelled Work Process
Scheduling
•Daily Scheduling
•Operations Input
•Priority Issue Resolution
•Resource Allocation
•Outsourcing Schedule
•Material Schedule
Work Assignment
•Technicians (Who)
•Detailed Job Explanation (What)
•How Long (When)
•Job Location (Where)
•Repair Specifics (How)
•Safety / Environmental Req
Progress Management
•Work Criticality
•Awareness of Job Status
•Identify and Document Barriers
•Reassign As Necessary
•Communication
•Decision Making Process
Work Evaluation and Action
•Goal Setting
•Documenting problems
•Problem ID (Root Cause)
•Problem Solving & Measures
•Progress of Past Problems
Key Measurements
•Cause Indicators
•Workload / Scheduling / PM Comp
•Effect Indicators
•Performance / Cost / MTBF
•Distribution and Utilization
Maintenance Objectives
Work Order Requirements
Define and develop processes that tracks and captures data through
the entire repair cycle
6. 6
•Reliability Improvements
•Cost Reductions
•Service Level Improvements
•Management Capability Advancements
•Asset Optimization
Progress Management
Work Evaluation and Action
Key Measurements PM and PdM
Backlog ManagementWork Identification Authorization / Prioritization Planning
Scheduling Work Assignment
Work Order Requirements
Reliability
•Equipment Criticality
•Root Cause Analysis
•Reliability KPIs (MTBF)
•Failure Analysis
•Equipment Design
•Warranty Management
Organization Development
•Strategic Planning
•Team Building
•Organizational Alignment
•Functional Accountability
•Responsibility Defined
•Management Ownership
Maintenance Engineering
•Maintenance Support
•Repair Strategy
•Standard Job Input
•Capital Resources
•PM/PDM Analysis & Requirements
Contractor Management
•Outsourcing Decision
•Contractor Safety / Insurance
•Contractor Training
•Selection Procedure
•Cost Tracking
•Incentives
Skills Training
•Ranking & Tracking Systems
•Identify Skill Set Requirements
•Establish Skill Set Goals
•Employee Review & Input
•Establish Training Programs
•Recognition
Production Support
•Equipment Operating Stds
•Equipment Monitoring
•Permitting
•Product Handling
•Emergency Planning
Support Functions
Maintenance Objectives
Develop the functions needed to support and define the repair process
7. 7
•Reliability Improvements
•Cost Reductions
•Service Level Improvements
•Management Capability Advancements
•Asset Optimization
Progress Management
Work Evaluation and Action
Key Measurements PM and PdM
Backlog ManagementWork Identification Authorization / Prioritization Planning
Scheduling Work Assignment
Core Elements
Reliability Organization Development Maintenance Engineering
Skills TrainingContractor Management Production Support
Support Functions
Support Equipment
•Scheduling
•Scheduling Break Policy
•KPIs
Inventory/Purchasing
•Requisition Process (Roles)
•Stock & Non-Stock Procurement
•Material Receiving / Storing
•Security
•Inventory Management
•Inventory KPIs
Tools and Equipment
•New Hire Tool Policy
•Technician Required Tools
•Specialty Tools Responsibility
•Inspection and Repair
•Contractor Tools
Asset Support
Maintenance Objectives
Identify the necessary actions and support needed to insure assets are
available for the repair function
8. 8
•Reliability Improvements
•Cost Reductions
•Service Level Improvements
•Management Capability Advancements
•Asset Optimization
Progress Management
Work Evaluation and Action
Key Measurements PM and PdM
Backlog ManagementWork Identification Authorization / Prioritization Planning
Scheduling Work Assignment
Core Elements
Reliability Organization Development Maintenance Engineering
Skills TrainingContractor Management Production Support
Support Functions
Support Equipment Inventory/Purchasing Tools and Equipment
Asset Support
Unscheduled Work
•Troubleshooting
•Labor and Equipment Req.
•Labor and Equipment Avail.
•Technical Support
•Present Maintenance Schedule
•Communication
Other
•Communication / Cooperation
•Inaccurate Inventory
•Pilfering and/or Theft
•Inadequate Materials Inspection
•Equipment Availability
•Budget
Constraints
Maintenance Objectives
Indentify and address the constraints to the repair process
9. 9
•Reliability Improvements
•Cost Reductions
•Service Level Improvements
•Management Capability Advancements
•Asset Optimization
Progress Management
Work Evaluation and Action
Key Measurements PM and PdM
Backlog ManagementWork Identification Authorization / Prioritization Planning
Scheduling Work Assignment
Core Elements
Reliability Organization Development Maintenance Engineering
Skills TrainingContractor Management Production Support
Support Functions
Support Equipment Inventory/Purchasing Tools and Equipment
Asset Support
Other
Constraints
Maintenance Management System
•Holder of Maintenance Process
•Accessibility and Table of Authorities
•Compatible with Other Business Systems
•Cost Tracking to Specific Equipment
•Labor
•Parts / Materials
•Equipment & Repair Histories
•Planning, Procurement, Scheduling &
Executive Interface
•KPI Development & Generation
Unscheduled Work
Maintenance Objectives
Tie all the elements together with a system that meets organizations objectives
11. Inspecting maintenance work improves reliability through assurance of quality
Quality
Inspections
Lagging
Leading
PM
Inspection
Process
Number and
type of
breakdowns
Provides insight to PM Quality
Helps predict future issues
Implement a quality control system for maintenance repairs
13. Controlling Miles per Gallon Can Pay Big Dividends
13
In this example a
company operating a
fleet of 1k trucks,
averaging 100k miles per
year /per truck can
reduce its fuel expense
by more than $640k per
year by increasing its
average fuel economy by
only one-tenth of a mile
per gallon
Avg 6.5 MPG Avg 6.6 MPG
Number of Trucks 1,000 1,000
Avg Annual Mileage 100,000 100,000
Total Annual Miles 100,000,000 100,000,000
Avg. Mile Per Gallon 6.5 6.6
Price Per Gallon of Fuel $ 2.75 $ 2.75
Annual Number of Gallons
Consumed 15,384,615.38 15,151,515.15
Annual Fuel Expense $ 42,307,692.31 $ 41,666,666.67
Annual Savings Between
6.5 and 6.6 MPG $ (641,025.64)
14. The Best Way to Improve Fuel Economy Is To Reduce Idle Time
14
35% Idle Time 30% Idle Time
Engine ON Hours Per Truck/Per Week 75 75
Percent of Idle Time 35% 30%
Number of Idle HRs Per Truck 26.25 22.5
Gallons of Fuel Used Per Idle Hour 1 1
Gallons of Fuel Consumed Per Truck Per
Week at Idle
26.25 22.5
Weeks Per Year 50 50
Annual Gallons of Fuel Consumed Per
Truck at Idle
1,312.50 1,125.00
Avg Price Per Gallon of Fuel $ 2.75 $ 2.75
Annual Cost of Idle Fuel Per Truck/Per
Year
$ 3,609.38 $ 3,093.75
Annual Savings Per Year/ Per Truck By
reducing Idle Time By 5%
$ (515.63)
•An OTR truck idling an average
26.25 hours per week, will
consume more than 1,365
gallons of fuel in the period of a
year
•In this example, reducing idle
time by only 5% (3.75 hours per
week) results in a savings of
more than $515 per week
through reductions in fuel usage.
•On a fleet of more than 1k
trucks this would amount to
more than $500k annually