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Calculating Coating Lifetime Costs

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Calculating Coating ... cost History Based on Expected Service Life and Cost Considerations for Maintenance and New Construction Protective Coating Work ... – PowerPoint PPT presentation

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Title: Calculating Coating Lifetime Costs


1
Calculating Coating Lifetime Costs
  • Presented by
  • Jayson L. Helsel, P.E.
  • KTA-Tator, Inc.

2
Learning Outcomes
  • Completion of this webinar will enable the
    participant to
  • Define various service environments
  • Identify suitable coating systems for intended
    service
  • Describe a typical maintenance painting sequence
  • Calculate installed cost for coating systems
  • Perform economic analysis
  • Calculate coating lifetime cost

3
History
  • Based on Expected Service Life and Cost
    Considerations for Maintenance and New
    Construction Protective Coating Work, presented
    at NACE Corrosion 2008
  • Data from survey of contractors and coating
    manufacturers
  • Data presented in SSPC Painting Manual Volume 1,
    Good Painting Practice, Chapter 10.2,
    Comparative Painting Costs

4
Coating System Data
  • Commonly used coating systems
  • For typical service environments
  • Service life estimates
  • Time until 5-10 coating breakdown
  • For practical maintenance sequence
  • Current material costs
  • Current shop painting costs
  • Current field painting costs

5
Coating Systems - Atmospheric
  • Most common systems for atmospheric exposure
  • Surface preparation requirement
  • Blast cleaning or hand/power tool cleaning
  • Minimum dry film thickness
  • Service environments

6
Coating Systems - Atmospheric
  • Service environments per ISO 12944-2,
    Classification of Environments
  • C2 Low
  • C3 Medium
  • C5-I Very High, Industry
  • C5-M Very High, Marine

7
Coating Systems - Atmospheric
  • Service environment definition
  • C2 LowAtmospheres with low levels of
    pollution mostly rural areas

8
Coating Systems - Atmospheric
  • Service environment definition
  • C3 MediumUrban and industrial atmospheres,
    moderate sulfur dioxide pollution coastal areas
    with low salinity
  • Production rooms with high humidity and some
    air pollution (e.g., food processing plants,
    laundries, breweries, dairies)

9
Coating Systems - Atmospheric
  • Service environment definition
  • C5-I Very High, IndustryIndustrial areas with
    high humidity and aggressive atmosphere

10
Coating Systems - Atmospheric
  • Service environment definition
  • C5-M Very High, MarineCoastal and offshore
    areas with high salinity

11
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12
Coating Systems - Immersion
  • Most common systems for immersion service
  • Surface preparation requirement
  • Abrasive blast cleaning
  • Minimum dry film thickness
  • Service environments

13
Coating Systems - Immersion
  • Service environments
  • Potable water
  • Fresh water
  • Salt water

14
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15
Hot Dip Galvanizing
  • Service life for 4 mils minimum (American
    Galvanizers Association)
  • Mild (rural) 68 Years
  • Moderate (industrial) 33 Years
  • Severe (heavy industrial) 21 Years

16
Practical Service Life
  • Time until 5 to 10 coating breakdown occurs
    (SSPC-Vis 2 Rust Grade 4)
  • Active rusting of the substrate is evident

17
Rust Grade 4 5 General Rusting
18
Rust Grade 4 5 Spot Rusting
19
Rust Grade 4 5 Pinpoint Rusting
20
Typical Maintenance Painting Sequence
  • Original Painting
  • Spot Touch-Up and Repair
  • Maintenance Repaint
  • Spot prime and full overcoat
  • Full Repaint
  • Total coating removal and replacement

21
Typical Maintenance Painting Sequence
  • Spot Touch-Up and Repair
  • The first time coating repairs are made
  • Intended to be completed at the Practical Life
    (from Tables 1A or 1B)

22
Typical Maintenance Painting Sequence
  • Maintenance Repaint
  • Estimated to be the Practical Life plus 33
  • e.g. P x 1.33

23
Typical Maintenance Painting Sequence
  • Full Repaint
  • Expected to occur at the year of Maintenance
    Repaint plus 50 of the Practical Life
  • e.g. Maintenance Repaint year P x 0.5

24
Maintenance Painting Example
  • Service Environment C3
  • Surface Preparation Abrasive Blast Cleaning
  • Coating system 2 coat epoxy
  • P life 12 years
  • Spot touch up _at_ 12 years
  • Maintenance repaint _at_ 16 years
  • Full repaint _at_ 22 years

25
Cost Data
  • Current material costs
  • Current shop painting costs
  • Current field painting costs

26
Cost Data
  • Current material costs
  • DFT
  • Theoretical cost per sq ft
  • Practical spray
  • Practical brush/roller

27
Cost Data
  • Current shop painting costs
  • Surface prep cost per sq ft
  • Paint application cost per sq ft
  • Hot dip galvanizing cost
  • Cost multipliers
  • Size of job
  • Member size for galvanizing

28
Cost Data
  • Current field painting costs
  • Surface prep cost per sq ft
  • Paint application cost per sq ft
  • Cost multipliers
  • Size of job
  • Complexity of structure
  • Existing conditions

29
Cost Comparisons
  • Shop vs. Field
  • Shop abrasive blast cleaning and priming
    approximately half of field cost (minimum of 250
    tons of steel)

30
Cost Comparisons
31
Cost Comparisons
32
Cost Comparisons
  • Shop applied inorganic zinc vs. hot dipped
    galvanizing
  • 75,000 to 125,000 sq ft steel
  • Moderate service environment (C3)
  • 35 year structure life
  • 4 inflation 7 interest
  • Initial cost of galvanizing 43 greater
  • Life cycle cost for galvanizing 15 less

33
Economic Analysis
  • Net Future Value (NFV)
  • How much will it cost, in inflated dollars in the
    year scheduled?
  • NFV Current Cost (1 i)n
  • i inflation, n years

34
Economic Analysis
  • Net Present Value (NPV)
  • The present worth of the inflated cost (in monies
    today invested at current interest rates)
  • NPV NFV (1/ (1 i)n )
  • i interest, n years

35
Economic Analysis
  • For each coating system
  • Timing and number of painting operations
  • Cost of each painting operations
  • Carry out for projected life of structure

36
Economic Analysis
  • Present value analysis
  • For each painting operation calculate
  • Current cost
  • Net future value
  • Net present value

37
Present Value Analysis
38
Economic Analysis
  • Average Equivalent Annual Cost (AEAC)
  • Converts entire stream of present and future
    costs to a present worth (NPV)
  • Distributes that sum in equal annual amounts over
    the structures life
  • Represents coating lifetime or life cycle cost

i interest, n structure life
39
Life Cycle Cost
40
Life Cycle Cost
41
Summary
  • Coating system selection
  • Surface preparation and service environment
  • Determines Practical life
  • Material costs
  • Shop or field preparation and application
  • Economic analysis
  • Life cycle cost
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