te FHWA Update to the A AASHTO JTCP FHWsp.design.transportation.org/Documents/JTC...
Transcript of te FHWA Update to the A AASHTO JTCP FHWsp.design.transportation.org/Documents/JTC...
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FHWA Update to the AASHTO JTCP
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WA AASHTO JTCP
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–– Web Briefing
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April 14, 2011P t St h
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202-366-0027Peter Stephanos@dot [email protected]
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Infrastructure Health Assessment Project Update Pavement Type Selection/Alternate Bidding Update
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MEPDG Related Issues New FHWA Sustainable Highways Tool
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JTC Initiative Updates
Warm Mix Asphalt Step Frequency GPR
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Asphalt Mixture Perf Tester Friction Loan Program Intelligent Compaction
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DOT Proposed FY2012
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Budget and Program
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Proposal provides funding to:• Modernize our highway system and create jobs
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• Focus investment on safety, state of good repair, and livability.
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• Encourage innovations that will shorten project d li d l t th d l t f
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technologies.• Simplify the highway program structure by
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Core Federal-aid highway programs• Safety ($2 5 billion)
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• National Highway Program ($32.4 billion)• Livable Communities ($4.1 billion)
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• Research, Technology, & Education ($641 million)T t ti L d hi A d ($1 3 billi )
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JTC Transportation Leadership Awards ($1.3 billion)
“Up-Front” Funding ($27.7 billion) Administrative Expenses ($441 million)
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Supports Performance Management Process FHWA sets goal areas, measures and targets for
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NHS+ 2 Sub Programs
Highway Infrastructure Performance Program
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Formula based ($16.75B) Limited to NHS+ Limitation on new capacity
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Limitation on new capacity Infrastructure condition and operations focus
Flexible Investment Program Formula based ($15 6B)
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State targets set in consultation with FHWA and need to support national goals (within 1 yr of FHWA )
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Every 4 yrs FHWA certifies State process to develop an NHS+ Asset Management Plan
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which: is risk based
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identifies performance gaps includes analysis of life cycle costs, value for
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includes a financial plan to fund plan includes strategies to invest funds to achieve targetsAA g g
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Reports
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State report to FHWA required annually Condition and performance of NHS+ Progress in achieving State targets
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Effectiveness of investment strategy
Penalty
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Penalty State targets not met for 2 consecutive years FHWA will work with State to revisit plan
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Incentive State targets are met for 3 consecutive years
U f d f Fl ibl I t t P f 1AA Use funds for Flexible Investment Program for 1 year
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Funding to improve the conditions and performance of highways and bridges
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Fund improvements on any federal-aid highway Fund improvements to any bridge on a public
roadway
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No restrictions on system expansion Additional eligibility:
Fringe and corridor parking facilities
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Highway R&D and T2 Congestion pricing
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No requirement for an Asset Management Plan
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President’s Budget (DOT/FHWA overview and detailed budget account information):
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http://www.whitehouse.gov/omb/budget/Overview
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DOT Budget Highlights and FHWA Congressional Justification: http://www.dot.gov
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FHWA budget estimate and fact sheets:
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1003/31/2011
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Performance Management
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Initiatives
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Pete Stephanos
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How is performance defined?
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How is performance monitored?
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Where is the source of data?
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How is performance defined?
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How is performance monitored?
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Where is the source of data?
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POOR
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170 inches/mile
POOR
Percentage of NHS vehicle miles travelledIn Good condition
Percentage of NHS vehicle miles travelledIn Good condition
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FAIR
In Good conditionIn Good condition
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GOODAA GOOD
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9%
10%60%
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7%
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9%
40%
50%
onon
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4%
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6%
30%
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2%
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10%
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Poor Pavements
Good Pavements
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0%
1%
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States with Annual Improvement in Pavement ConditionPercentage of System in Good Condition
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282930
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States with Annual Improvement in Pavement ConditionPercentage of System in Poor Condition
NHSIS
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32
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27
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or P
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No.
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30%Distribution of NHS Travel on Good Riding Roads
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25%
30%
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TravelMileage
Below DOT GoalAt or Above DOT Goal
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15%
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iles/
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5%
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0%<36% 36%-46% 46%-56% 56%-66% 66%-76% 76%-86% >86%
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% of NHS Travel/Mileage on Good Riding RoadsAA % of NHS Travel/Mileage on Good Riding Roads
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VDOT Criteria DelDOT Criteria
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How is performance monitored?
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98.2%94.6%
90.0%
100.0%
yed
Network LevelProject Level
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58.9%66.1%
71.4%
55 4%60.0%
70.0%
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33.9%
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%
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16.1%
10 0%
20.0%
30.0%
Perc
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10.0%
Surface Distress Smoothness Structural Capacity Surface Friction
PAA
Source: NCHRP Synthesis Report 401
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100%93%
89%
RuttingTransverse Cracking
Fatigue Cracking
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89%77%
64%
Fatigue CrackingLongitudinal Cracking
Map/Block CrackingRavelling
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54%54%
46%
FaultingSpalling
Ravelling/FlushingEd C ki
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36%32%
30%
Edge CrackingOther
Punch OutsShattered Slab
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27%21%
0% 20% 40% 60% 80% 100%
Shattered SlabDurability Cracking
Pumping
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Source: NCHRP Synthesis Report 401
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Excellent ?Rut Index
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Good Fair e
Leve
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Crack Index
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MediocreP ce
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PCICrack Index
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Very Poor AccPDIPCI
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PSR Critical Index
Condition Rating
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State ThresholdsGeorgia 75–100 is good to excellent
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Iowa MontanaN b k
75–100 is good to excellent60–80 is good, 80–100 is excellent63–100 is good70 89 i d 90 100 i d
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New HampshireNorth Carolina
70–89 is good; 90–100 is very good40–100 is acceptableGreater than 80 is good
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OregonVermont
75–90 is good; 90–100 is very good75.1–98 is good; 98.1–100 is very good for NHS40–100 is acceptable
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VirginiaWashington
70–89 is good; greater is excellent50–100 is good
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HPMS Outside lane only
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One direction of travel One value for each section
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Represents all NHS roadways
State PMS Data
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Both directionsShorter sections
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Updated frequently
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40%
50%Percent NHS VMT on Good Pavement
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0%2004 2005 2006 2007 2008 2009 2010
HPMS
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20%
30%Percent NHS VMT on Poor Pavement
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10%State
HPMSAA 0%2004 2005 2006 2007 2008 2009 2010
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How is performance monitored?
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Where is the source of data?
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performance?
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Collective Effort
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National Goal
I di id l St t T t
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Program Design
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Linking Accomplishments to Performance
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4060%
NHS Pavement PerformanceActual vs. DOT Targets
Meeting Target
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55%
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Tar
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DOT TargetActual
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33 3334
50% g D
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Six Year Performance Change in NHS Lane-Miles of Pavement in Good Condition2004-2009 Change in Condition
Conditions Improved Conditions Declined
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nt B
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Conditions Improved Conditions Declined
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2No.
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> 40% 30%-40% 20%-30% 10%-20% 0%-10% 0%-10% 10%-20% > 20%
6 Yr Change in % Good Pavements
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Performance Management Framework Assessing Infrastructure Health
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Asset Management Plan Prototype/Trials Support Tier 2 Measure Development
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Pavement Monitoring Guide Tools
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Pavement Health Track Tool – RSL
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Develop Health Monitoring Tool
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Training Awareness Analysis Management
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Internal FHWA Efforts HPMS Quality Assurance Process
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Assessment of HERS NHS Pavement Report Template
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Improving FHWA’s Ability t A I f t t
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Health
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–– Health
N S d d
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202-366-1337Nastaran Saadatmand@dot gov
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To define a consistent and reliable method to document infrastructure health with a
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focus on pavements and bridges on the Interstate System (that can be expanded to
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––FF Interstate System (that can be expanded to
the National Highway System)
To develop tools to provide FHWA and State
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DOTs ready access to key information
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Develop an approach for categorizing pavement and bridges as Good/Fair/Poor that can be used
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consistently across the country Good/Fair/Poor will be based on condition data
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Recommend improvements to HPMS and NBI
Develop an approach for assessing the overall
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Develop an approach for assessing the overall Health of a highway corridor Looking for a “visit to the Doctor”
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Will go beyond condition
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Phase I – Develop a methodology Kick-off meeting
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Literature review Identify approach
D l k l f Ph II
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Phase II – Conduct a pilot study Collect and review data
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Collect and review data Run sample assessment Document conclusions
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results and discuss preferred methodologies
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Jan 2012Oct 2010 Sep 2011Mar 2011
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Phase I Phase II Phase III
PILOT STUDY
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Key DeliverablesKey Meetings
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General, consistent definition
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Two Options: IRI approach
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Composite index approach
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There is momentum for IRI to be the initial basis for a national pavement performance measure
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Recent FHWA and NCHRP 20-24(37) G reports propose Good/Fair/Poor thresholds, consistent with C&P Report thresholds
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Threshold in C&P Report Category Proposed
Thresholds Category
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& p< 95 Good < 95 Good≤ 170 Acceptable 95 ≤ IRI ≤ 170 Fair> 170 Not Acceptable > 170 Poor
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A TXDOT study found that less than 10 States use IRI threshold
> 170 Not Acceptable > 170 Poor
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Based on HPMS 2010+ Potential approach use HPMS 2010+ data
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elements to develop new composite measure IRI
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Rutting Faulting
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punchouts) Develop modified PCI using HPMS 2010+ data
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Consistent with Tier 2 measure addressed in NCRHP 20-24(37) G AA ( )
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What is it» A means for FHWA to examine
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the overall health of specific corridors and respond to requests for information
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Vision for the health assessment» A report that summarizes
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poverall health and identifies potential warning signs
» A tool to review metrics and
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Valuable to agencies that manage t d b idAA
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pavements and bridges
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t
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and statesroutes or segments using a map
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Review a quick
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overall health or more detailedAA
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detailed information
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Other tabs could
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detailed information on condition of a particular assetAA particular asset
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Select a three-state pilot corridor
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Compile Federal data sets for pavements (HPMS 2010+ and NBI)
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sets
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bridge)
C d d l i f d
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Identify issues and recommend improvements
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Consistency between state data and b itt d F d l d t
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Consistency between states
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Validity of metrics Calculations
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Good/Fair/Poor thresholds Validity of health approach
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HPMS
Different Data Sources
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State
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Diff t M t i O ti
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Option 1
Different Metric Options
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Option 3
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Funding to send 1 person from every t t
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Meeting to be held in Fall, 2011
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Review outcomes of I-90 pilot Discuss preferred options
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Discuss preferred options Identify next steps
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Mark Swanlund202-366-1323
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Components of Agency ProcessesS l i f l i
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Selection of alternatives Structural design Economic Analysis
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Primary/Secondary Factors
Contractor-based processes
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Other ( PPP, Value Engineering, BV Contracting, Contract Maintenance)
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• Issued November 13, 2008Clarifies and consolidates FHWA policy
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• Applies to Federal-aid on the NHSAlt Bidding is “not encouraged”
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––FF • Alt Bidding is not encouraged
• However, many states are doing it….
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Discount rate Uncertainty
Commodity price adjustments
I/D provisionsM t i l titi
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Subjective factors Materials quantities Approval process
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State has advertised at least 1 alternate bid jobState has not utilized alternate biddingAA State has not utilized alternate biddingState did not reply to survey
ee FHWA Next StepsU
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Reviewing state experience with lt t biddi SEP 14 t
FHW
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FHW
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Identifying key issues that need to be
CP
CP
––FF y g y
addressed
Have identified 4 issues
TO J
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AA
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AA
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AA
ee Issue #1U
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Issue: States may not be taking enough t i th i d i t
FHW
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FHW
A U steps in their design process to ensure
that sound engineering and economic i i l id d i th i
CP
CP
––FF principles are considered in their
pavement type selection decision.
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JTC
Response: Issue PTS guidance and
AA
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AA
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provide technical assistance.
AA
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Issue: More states are using alternate biddi b t FHWA’ iti i till t
FHW
A U
FHW
A U bidding, but FHWA’s position is still to
“not encourage” its use.
CP
CP
––FF
Response: New guidance will recognize
TO J
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JTC
p g galternate bidding as viable option for pavement type selection.
AA
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Issue: Use of alternate bidding needs to b d d SEP 14 i i
FHW
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FHW
A U be done under SEP-14, requiring
approval by FHWA.
CP
CP
––FF Response: FHWA proposes to
“graduate” alternate bidding to an
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AA
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AA
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AA
ee Issue #4U
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Issue: Alternate bidding practice varies th t h
FHW
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FHW
A U across the country, some approaches
do not provide a competitive bidding i t
CP
CP
––FF environment
Response: FHWA proposes to issue
TO J
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JTC consider additional guidance to
recommend best practices for alternate
AA
SHT
AA
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bidding environment
AA
ate
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MEPDG Related Items
FHW
AFH
WA MEPDG Related Items
TCP
TCP
–– Tom Yu – Concrete Model Calibration202-366-1198T Y @d
HTO
JT
HTO
Chris Newman Preservation
AA
SHA
ASH Chris Newman - Preservation
ate
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pda
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pda
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AFH
WA
Evaluation of R lib t d MEPDG
TCP
TCP
–– Recalibrated MEPDG JPCP Distress Models
HTO
JT
HTO
JT JPCP Distress Models
AA
SHA
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ee BackgroundU
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An error in the assumed value of coefficient of thermal expansion (CTE) of the calibration bar
FHW
A U
FHW
A U thermal expansion (CTE) of the calibration bar
resulted in overestimating CTE of LTPP PCC sections by about 0.8 micro-strains per ⁰F
CP
CP
––FF
PCC pavement responses are sensitive to CTE; a major change in CTE requires recalibration of the distress models
TO J
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JTC distress models
MEPDG JPCP performance models were recalibrated (NCHRP 20 07) to ensure the results
AA
SHT
AA
SHT recalibrated (NCHRP 20-07) to ensure the results
are reasonable and free of any bias
AA
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The current MEPDG (Ver 1.0/1.1) performance models give reasonable results
FHW
A U
FHW
A U performance models give reasonable results
when used with the old, inflated CTE values
C
CP
CP
––FF CTE depends on aggregate type; on
average, we should see about 0.8 10-6/ F drop in CTE from the correction:
TO J
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JTC drop in CTE from the correction:
Old average CTE: 5.4 10-6/⁰F Corrected average CTE: 4 6 10-6/⁰F
AA
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AA
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Recalibrated models with the new CTE values should provide similar results as the
FHW
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FHW
A U values should provide similar results as the
old models with old CTE values
f
CP
CP
––FF No significant change in design thicknesses
should result from the correction
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AA
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AA
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AA
ee ProblemsU
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The revised JPCP cracking model typically predicts dramatically less cracking than Ver.1.0
FHW
A U
FHW
A U
The new design thicknesses are typically 0.8 to 1.4 in less than the old
Similar results (as the old model) are obtained only for thin
CP
CP
––FF ( ) y
sections: design thickness less than 8.5 in
The revised JPCP faulting model over-predicts faulting,
TO J
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JTC especially for high traffic
Less faulting is expected for lower CTE The magnitude of over-prediction is significant for high traffic,
AA
SHT
AA
SHT e ag tude o o e p ed ct o s s g ca t o g t a c,
especially if no edge support is provided
AA
ee Possible ConsequenceU
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High risk of under-designing pavement, especially for heavy traffic
FHW
A U
FHW
A U especially for heavy traffic
A 0.5-in reduction in the required slab thickness reduces traffic capacity by about 50%
CP
CP
––FF p y y %
A 1.0-in reduction in the required slab thickness reduces the traffic capacity by a factor of 3 (i.e., b t 1/3rd f th i i l it )
TO J
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JTC about 1/3rd of the original capacity)
AA
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AA
ee Effects of slab thickness on traffic capacity (MEPDG)U
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10
b cr
acki
ng
CP
CP
––FF
perc
ent s
lab
10.5 in11.0 in11.5 in
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Aver
age
p
12.0 in
AA
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AA
SHT
00 20 40 60 80 100 120 140AA 0 20 40 60 80 100 120 140
Traffic, million ESALs
ee Trend in Thickness ErrorU
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2.5
FHW
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FHW
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2.0
on, in
CP
CP
––FF
1 0
1.5
s redu
ctio
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0 5
1.0
Thickness
AA
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AA
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0.0
0.5 T
AA
7 8 9 10 11 12 13 14
Design thickness, in
ee Effects of CTE Drop on Calculated DamageU
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0.3520‐07
Version 1.0
FHW
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FHW
A U
0.25
0.30
CP
CP
––FF
0 15
0.20
Dam
age
TO J
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JTC
0.10
0.15
Fatigu
e
AA
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AA
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0.00
0.05
AA 0 12 24 36 48 60 72 84 96 108 120 132 144 156 168 180 192 204 216 228 240
Months
ee Comparison of Cracking ModelsU
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90
100
FHW
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FHW
A U
70
80
ked
CP
CP
––FF
50
60
t Slabs Crac
TO J
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JTC
30
40
Percen
t
AA
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AA
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10
20
V1.0
20‐07
AA 0
0.001 0.010 0.100 1.000 10.000 100.000
Fatigue Damage
ee Typical DesignU
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UC
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TAA
ee Comparison of Cracking ModelsU
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25V1.0
20‐07
FHW
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FHW
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20
ked
Needed
CP
CP
––FF
15
Slab
s Crack
TO J
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Percen
t S
AA
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AA
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5
AA 0
0.001 0.010 0.100 1.000
Fatigue Damage
ate
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A U
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FHW
AFH
WA “Consideration of Pavement
Preservation in Mechanistic-
TCP
TCP
–– Preservation in MechanisticEmpirical Design and Analysis of
P t St t ”
HTO
JT
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JT Pavement Structures”
AA
SHA
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ee NCHRP Project 20-07, Task 251U
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“Consideration of Pavement Preservation in Mechanistic Empirical Design and Analysis
FHW
A U
FHW
A U Mechanistic-Empirical Design and Analysis
of Pavement Structures” March 2009 Applied Pavement Technology
CP
CP
––FF March 2009, Applied Pavement Technology
States the case for considering the t ib ti f ti i t
TO J
TCTO
JTC contributions of preventive maintenance
activities in the MEPDG process, and describes both short-term and long-term
AA
SHT
AA
SHT describes both short-term and long-term
approaches to accomplish that.
AA
ee Preventive Maintenance in DesignU
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Preventive maintenance is part of most agencies’ pavements program should
FHW
A U
FHW
A U agencies pavements program – should
influence the decisions made in pavement design.
CP
CP
––FF design.
Treatments are being performed to prevent moisture infiltration or to restore surface
TO J
TCTO
JTC moisture infiltration or to restore surface
characteristics – these will have some effect over time on the structural performance of
AA
SHT
AA
SHT over time on the structural performance of
the pavements
AA
ee Next Steps?U
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Report describes how to incorporate preventive maintenance treatments into pavement design –
pFH
WA
UFH
WA
U maintenance treatments into pavement design adjustment or modification of performance models.
Provides seven recommendations for additional
CP
CP
––FF Provides seven recommendations for additional
research or improved tracking of treatment application and performance.
TO J
TCTO
JTC What can FHWA and AASHTO consider in
upcoming activities to incorporate the observations and recommendations of the report into the
AA
SHT
AA
SHT and recommendations of the report into the
MEPDG?
AA
ate
ate
A U
pda
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pda
Highway Sustainability
FHW
AFH
WA Rating Tool, INVEST
TCP
TCP
––
Katherine Petros202 493 3154
HTO
JT
HTO
JT 202-493-3154
AA
SHA
ASH
ee What is a sustainable highway?U
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Satisfies functional requirements Fulfills transportation goals and needs (e g
FHW
A U
FHW
A U Fulfills transportation goals and needs (e.g.
congestion reduction) Addresses development and economic growth
CP
CP
––FF
p g Reduces impacts
Environment
TO J
TCTO
JTC Consumption of resources
Addresses environmental, economic, and social equity dimensions (triple bottom line)
AA
SHT
AA
SHT equity dimensions (triple bottom line)
Addresses sustainability from planning through operationsAA
77
ee FHWA’s Sustainable HighwaysU
pdat
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at Self Evaluation Tool
Encourage sustainable highway projects
FHW
A U
FHW
A U Encourage sustainable highway projects
Help agencies measure sustainability f ff
CP
CP
––FF and quantify tradeoffs
Provide a framework for communicating
TO J
TCTO
JTC
Provide a framework for communicating with stakeholders about sustainability
E t bli h th d f l ti
AA
SHT
AA
SHT Establish a method for evaluating
sustainable highways
AA
78
ee Sustainable Highways ToolU
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Working Title:IN-VEST - Infrastructure Voluntary
FHW
A U
FHW
A U
A web-based self-evaluation tool for measuring
IN VEST Infrastructure Voluntary Evaluation Sustainability Tool
CP
CP
––FF A web-based self-evaluation tool for measuring
sustainability over the life cycle of a transportation project or program — from system
d j t l i th h d i d
TO J
TCTO
JTC and project planning through design and
construction, to operations and maintenance
AA
SHT
AA
SHT
Website address—www.sustainablehighways.org
AA
eeWhat are some of the Tool’s characteristics?
Upd
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Web-based Credits based on best practices
FHW
A U
FHW
A U Credits based on best practices
Each credit assigned a point value based on expected sustainability impact
CP
CP
––FF
p y p In coordination with ASCE effort Other sustainable highways tools used as
f
TO J
TCTO
JTC references
(GreenLITES, I-LAST, Greenroads)
AA
SHT
AA
SHT
AA
ee What the Tool is NOT…U
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The tool is not final. W ki B t i
FHW
A U
FHW
A U
We are working on a Beta-version. The tool is not required.
Use is purely voluntary
CP
CP
––FF Use is purely voluntary.
TO J
TCTO
JTC
AA
SHT
AA
SHT
AA
ee Sustainable Highway CreditsU
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System Planning (SP) Agency wide management /planning of highways
FHW
A U
FHW
A U Agency-wide management /planning of highways
System/Network evaluation Project Development (PD)
CP
CP
––FF Project Development (PD)
Environmental Review, project planning, design, and construction
TO J
TCTO
JTC Project evaluation
Operations and Maintenance (OM)A id h t t d i t i
AA
SHT
AA
SHT Agency-wide approach to operate and maintain
system System/Network evaluationAA System/Network evaluation
82
eeFHWA BETA VERSION
Home PageU
pdat
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FHW
A U
FHW
A U
CP
CP
––FF
TO J
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JTC
AA
SHT
AA
SHT
AA
eeFHWA BETA VERSION
Learning TabU
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FHW
A U
FHW
A U
CP
CP
––FF
TO J
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JTC
AA
SHT
AA
SHT
AA
eeFHWA BETA VERSION
Browsing TabU
pdat
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FHW
A U
FHW
A U
CP
CP
––FF
TO J
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JTC
AA
SHT
AA
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AA
eeFHWA BETA VERSION
Scoring TabU
pdat
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FHW
A U
FHW
A U
CP
CP
––FF
TO J
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JTC
AA
SHT
AA
SHT
AA
eeSystem Planning & Processes Credits
Upd
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pdat
SP-1 Comprehensive & Integrated Planning
SP-8 Travel Demand Management
FHW
A U
FHW
A U g g
SP-2 Environmental Management System
SP-3 Context Sensitive
gSP-9 Safety ManagementSP-10 Air Quality
Management
CP
CP
––FF Solutions
SP-4 Equity AnalysisSP-5 Integrated
T t ti L d
gSP-11 Greenhouse Gas
EmissionsSP-12 Climate Change Effects
TO J
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JTC Transportation Land
Use PlanningSP-6 Multimodal
Transportation
SP-13 Noise Reduction Management Plan
SP-14 Financial Sustainability
AA
SHT
AA
SHT Transportation
SP-7 Professional Development
AA
ee Project Development Credits: Project PlanningU
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PD-1 Cost Benefit Analysis
FHW
A U
FHW
A U
PD-2 Highway and Traffic Safety PD-3 Context Sensitive Solutions
CP
CP
––FF PD-4 Lifecycle Assessment
PD-5 Lifecycle Cost AnalysisPD 6 Freight Mobility
TO J
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PD-7 Educational Outreach
AA
SHT
AA
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AA
ee Project Development Credits: Project DesignU
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PD-8 Habitat RestorationPD-9 Runoff Flow Control
PD-19 Historical, Archaeological, and C lt ral Preser ation
FHW
A U
FHW
A U
PD-10 Runoff QualityPD-11 Ecological ConnectivityPD-12 Low Impact Development
Cultural PreservationPD-20 Scenic, Natural, or
Recreational QualitiesPD-21 Low-Emitting Materials
CP
CP
––FF PD-13 Recycled Materials
PD-14 Renewable EnergyPD-15 Site VegetationPD 16 Pedestrian Access
PD 21 Low Emitting MaterialsPD-22 Energy EfficiencyPD-23 Traffic Systems,
Management and Operations (TSMO)
TO J
TCTO
JTC PD-16 Pedestrian Access
PD-17 Bicycle AccessPD-18 Transit & HOV Access
Operations (TSMO)PD-24 Long-Life PavementPD-25 Pavement and Structure
Reuse
AA
SHT
AA
SHT euse
PD-26 Stormwater Cost AnalysisPD-27 Thermal Pavement
AA
ee Project Development Credits: Project ConstructionU
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PD-28 Contractor WarrantyPD 29 St t P ll ti
PD-34 Quality Control PlanPD 35 Reduced Energy
FHW
A U
FHW
A U PD-29 Stormwater Pollution
Prevention PlanPD-30 Environmental Training
PD-35 Reduced Energy Materials
PD-36 Waste ManagementPD 3 E h k B l
CP
CP
––FF PD-31 Equipment Emission
ReductionPD-32 Fossil Fuel Reduction
PD-37 Earthwork BalancePD-38 Environmental
Management System
TO J
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JTC PD-33 Construction Noise
MitigationPD-39 Tracking Environmental
Commitments
AA
SHT
AA
SHT
AA
eeTransportation System Management, Operations & Maintenance Credits
Upd
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pdat
OM-1 Pollution Prevention Plan
OM-8 Mobility OM-9 Safety
FHW
A U
FHW
A U
OM-2 Pavement Management System
OM-3 Bridge Management
OM 9 SafetyOM-10 Snow & Ice ControlOM-11 Renewable Energy UseOM-12 Sustainability Plan
CP
CP
––FF
g gSystem
OM-4 Paved Surfaces Management System
OM 5 T ffi C t l
OM-12 Sustainability PlanOM-13 Alternative Fuel Fleet OM-14 Recycle and Re-useOM 15 Ecological Connectivity
TO J
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JTC OM-5 Traffic Control
Infrastructure Maintenance
OM-6 Cleaning and Litter
OM-15 Ecological Connectivity
AA
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AA
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OM-7 Roadside Infrastructure Maintenance
AA
ee OM-2 Pavement Management SystemU
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Goal Make pavements last longer and perform better by preserving and maintaining them
FHW
A U
FHW
A U by preserving and maintaining them.
Points 1 – 10 pointsDescription The agency shall have a pavement management
system (PMS) A pavement management system is a
CP
CP
––FF system (PMS). A pavement management system is a
formal systematic process of preserving and rehabilitating a particular pavement or network of pavements.
TO J
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JTC
AA
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AA
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ee OM-2 Pavement Management SystemU
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Have a Plan (1 point)M t diti t l t t
Requirements
FHW
A U
FHW
A U
Measure pavement condition at least every two years Document decision criteria for timing rehabilitation Record when rehabilitation occurs
CP
CP
––FF Measure Performance (3 points)– Track pavement network
performance using two common metrics: Overall network condition using common metrics
TO J
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JTC
g Number and fraction of rehabilitation actions scheduled
on time and delayed Set and Achieve Goals (6 points)
AA
SHT
AA
SHT Set and Achieve Goals (6 points)
Set quantifiable goals relating to the two metrics, including when these goals are to be achieved
Monitor progress towards goals; show measureableAA Monitor progress towards goals; show measureable advancement towards goals.
eeAchievement Levels
Upd
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How will success be measured?
FHW
A U
FHW
A U
Achievement levels are included in Beta version
CP
CP
––FF
Look similar to LEED Rating system Bronze (base level)
TO J
TCTO
JTC Bronze (base level)
Silver (level 2) Gold (level 3)
AA
SHT
AA
SHT Gold (level 3)
Platinum (top level)
AA
ee Next StepsU
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Beta version released Fall 2010
FHW
A U
FHW
A U
Requested input from the transportation community in testing and improving the
CP
CP
––FF tool
Evaluating feedback
TO J
TCTO
JTC Making website improvements
Release revision (Version 1 0)
AA
SHT
AA
SHT Release revision (Version 1.0)
Target date: April 22, 2011
AA
ate
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A U
pda
A U
pda
FHW
AFH
WA
Website address—
TCP
TCP
–– Website addresswww.sustainablehighways.org
HTO
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HTO
JT
AA
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ate
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A U
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A U
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Initiative Updates
FHW
AFH
WA Initiative Updates
Warm Mix Asphalt Step Frequency GPR
TCP
TCP
–– a sp a t
Safety Edge
C t O l
Step eque cy G
Asphalt Mixture Perf Tester
F i ti L P
HTO
JT
HTO
JT
Concrete Overlays
High RAP Mixtures
Friction Loan Program
Intelligent Compaction
AA
SHA
ASH
ee Warm Mix AsphaltU
pdat
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Allows a reduction in asphalt
FHW
A U
FHW
A U
mixture production & placement temperatures
CP
CP
––FF Benefits:
Provides better compactionReduce worker fatigue
TO J
TCTO
JTC
educe o e at gueReduces fossil fuel consumptionReduces CO2e & other emissionsLonger paving season
AA
SHT
AA
SHT Allows for longer hauling distances
Benefits with High RAP
AA
ee Warm Mix AsphaltU
pdat
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Various technologies are used, which allows
FHW
A U
FHW
A U
the plant mix to be produced and compacted at lower temperatures…
CP
CP
––FF Typical production temperature reduction 30 to 75ºF
WMA Technologies:
TO J
TCTO
JTC Foaming Processes
Wax-like Additives
AA
SHT
AA
SHT Chemical Additives
Hybrids
AA
ee Warm Mix AsphaltU
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First public demo in US in 2004
FHW
A U
FHW
A U
WMA projects have been completed in 40 StatesAt least 10 States have adopted
CP
CP
––FF At least 10 States have adopted
permissive specifications
TO J
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JTC
AA
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AA
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AA
ee WMA WorkshopsU
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NAPA/FHWA Sponsored EventsA h lt I D th
FHW
A U
FHW
A U
Asphalt In Depth Recycled Materials, WMA, & Construction
Nashville TN
CP
CP
––FF Nashville, TN
June 1-2, 2011 www hotmix org/asphaltindepth
TO J
TCTO
JTC
www.hotmix.org/asphaltindepth 2nd International Conference on WMA
St. Louis, MO
AA
SHT
AA
SHT St. Louis, MO
October 11-13, 2011 www.hotmix.org/warmmixAA
ee What Is the Safety Edge?U
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aty g
it allows a vehicle to re enter theWh d h lt t th
FHW
A U
FHW
A U
30 degree beveled pavement edge shaped during the paving processasphalt or concretelocated where the pavement interfaces
with a graded material
it allows a vehicle to re-enter the pavement with greater stability and less l f l l i i d d
When used on asphalt pavement the extruded shape can improve pavement
CP
CP
––FFshaped during the paving process asphalt or concrete with a graded material. loss of control resulting in reduced
crashes edge durability.
TO J
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JTC
AA
SHT
AA
SHT
AA
ee Basic PrincipleU
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WA
UFH
WA
UC
P C
P ––
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TO J
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TA
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T
Without a Safety EdgeAA Without a Safety Edge
ee Basic PrincipleU
pdat
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WA
UFH
WA
UC
P C
P ––
FFTO
JTC
TO J
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TA
ASH
T
With S f t EdAA With Safety Edge
ee Safety ImpactsU
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FHW
A U
FHW
A U
CP
CP
––FF
TO J
TCTO
JTC ReasonablySafe
AA
SHT
AA
SHT
AA
ee Costs of the Safety Edge U
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HardwareA i t l $3000
Paving ProcessN h i i
FHW
A U
FHW
A U
Approximately $3000 per shoe
Reusable
No change in paving speed
No additional operation
CP
CP
––FF Reusable
Material Minor additional asphalt
No additional operation Minimal monitoring
Surface Details
TO J
TCTO
JTC Minor additional asphalt
(depends on shoulder condition)
Surface Details No change in
smoothness/ride quality
AA
SHT
AA
SHT
AA
ee Safety Edge Construction WebinarU
pdat
Upd
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WA
UFH
WA
UC
P C
P ––
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TO J
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TA
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TAA
ee Step-Frequency GPR (SF-GPR)U
pdat
Upd
atp q y ( ) SF-GPR is a promising NDT
t h l f t l ti
FHW
A U
FHW
A U technology for pavement evaluation
Advantages
CP
CP
––FF
Wide detection range Full coverage of a traffic lane in 2 passes
TO J
TCTO
JTC
g 2-D and 3-D imaging capability Continuous calibration
AA
SHT
AA
SHT
AA
ate
ateThe APE
A U
pda
A U
pda
FHW
AFH
WA
TCP
TCP
––H
TO J
TH
TO J
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AA
SH
ee Current status of APEU
pdat
Upd
at
Current applications – ready for demonstrations and implementation
FHW
A U
FHW
A U implementation
Pavement layer thickness Moisture detection
V id d t ti
CP
CP
––FF Void detection
Variations in material properties (AC density)
Future applications
TO J
TCTO
JTC
pp AC stripping Layer debonding
Rutting evaluation (2 D & 3 D imaging)
AA
SHT
AA
SHT Rutting evaluation (2-D & 3-D imaging)
Detection and quantification of cracking Depth of dowel bars, tie bars, and reinforcing steel
AA
ee Concrete OverlaysU
pdat
Upd
aty
Guide to Concrete Overlay Solutions
FHW
A U
FHW
A U
One day Workshops Overlay Types & Uses
CP
CP
––FF Project Evaluation & Selection
Overlay DesignC t M t i l S ti
TO J
TCTO
JTC Concrete Materials Section
Work Zones under Traffic Overlay Construction
AA
SHT
AA
SHT Overlay Construction
Accelerated Construction Specification ConsiderationsAA p
ate
ate System of Concrete Overlays
A U
pda
A U
pda
Concrete OverlaysThinner Thicker
FHW
AFH
WA
Bonded Overlay System Unbonded Overlay System
TCP
TCP
––
Bonded Concrete
Bonded Concrete
Bonded Concrete
Unbonded Concrete O l f
Unbonded Concrete O l f
Unbonded Concrete O l f
HTO
JT
HTO
JT Overlay of
ConcretePavements
Overlay of Asphalt
Pavements
Overlay of CompositePavements
Overlay of Concrete
Pavements
Overlay of Asphalt
Pavements
Overlay of CompositePavements
AA
SHA
ASH
Bond to existing pavement is Existing pavement servesBond to existing pavement is integral to design.
Existing pavement serves only as a base.
ee High RAP UseU
pdat
Upd
atg
Increase application to 25% RAP in all t l
FHW
A U
FHW
A U pavement layers
Supporting national research efforts
CP
CP
––FF
Supporting industry initiatives ETG activities
TO J
TCTO
JTC
ETG activities Field testing and evaluation
S ifi ti d l t
AA
SHT
AA
SHT Specification development
AA
ee AASHTO RAP Survey ResultsU
pdat
Upd
aty
FHW
A U
FHW
A U
CP
CP
––FF
TO J
TCTO
JTC
AA
SHT
AA
SHT
AA
ee Asphalt Mixture Performance Tester (AMPT)U
pdat
Upd
at
Machine Specifically for Testing
FHW
A U
FHW
A U p y g
Engineering Properties of AsphaltMixtures:• Dynamic Modulus
CP
CP
––FF Dynamic Modulus
• Flow Number• Fatigue Test (potential)
TO J
TCTO
JTC
AA
SHT
AA
SHT
AA
115
ee AMPT Pooled Fund Study TPF-5(178)U
pdat
Upd
aty ( )
• Objectiveso Procure AMPT for highway agencies
FHW
A U
FHW
A U o Procure AMPT for highway agencies
o Provide training on AMPTo Support national AMPT implementation
CP
CP
––FF pp p
• Progress and Scheduleo Four AMPTs delivered, four more ordered
TO J
TCTO
JTC
o ou M s del ve ed, ou o e o de edo More AMPTs to be ordered in 2011o Four training course completed
AA
SHT
AA
SHT o Two additional courses planned in 2011
AA
116
ee AMPT Pooled Fund Study TPF-5(178)U
pdat
Upd
at
• Participants o Maine o Pennsylvania
FHW
A U
FHW
A U • Participants
o Alabamao Colorado
C i
o Maineo Marylando Nevada
N
o Pennsylvaniao Tennesseeo Utah
Vi i i
CP
CP
––FF o Connecticut
o Floridao Georgia
o New Hampshire
o New Jersey
o Virginiao Wisconsino Wyoming
TO J
TCTO
JTC
go Illinoiso Kansaso Kentucky
o New Yorko North
Carolina
y go Ontarioo FHWA – Lead
agency
AA
SHT
AA
SHT o Kentucky
o Oregonagency
AA
117
ee Application of Performance TestingU
pdat
Upd
at
Mix Design and Evaluationo Identify potential performance issues
FHW
A U
FHW
A U o Identify potential performance issues
Pavement Designo Engineering properties for MEPDG
CP
CP
––FF g g p p
Construction Acceptanceo Performance based specifications
TO J
TCTO
JTC
p Performance Monitoring
AA
SHT
AA
SHT
AA
118
ee Friction Loan ProgramU
pdat
Upd
atg
Equipment available for loan to states
FHW
A U
FHW
A U
Technical assistance is provided Equipment:
CP
CP
––FF q p
Circular Texture Meter Dynamic Friction Tester
TO J
TCTO
JTC
Dynamic Friction Tester Griptester
Contact: Bob Orthmeyer
AA
SHT
AA
SHT Contact: Bob Orthmeyer [email protected]
AA
ee Intelligent Compaction InitiativeU
pdat
Upd
atg p
Intelligent Compaction Equipment Loan/Demo (TPF5 128)
FHW
A U
FHW
A U Loan/Demo (TPF5-128)
Demo Projects (MN, NY, MS, MD, GA, IN, TX KS)
CP
CP
––FF TX, KS)
Best Practice Documents: (1)Asphalt Materials and (2) Soils
TO J
TCTO
JTC (1)Asphalt Materials and (2) Soils
Analysis Software and MN DOT Effort to standardize data
AA
SHT
AA
SHT standardize data
AA
ee Intelligent CompactionU
pdat
Upd
atg p
Active Pooled Fund Project12 St t
FHW
A U
FHW
A U
12 States Demonstrate and Evaluate Application www intelligentcompaction com
CP
CP
––FF www.intelligentcompaction.com
Holding Regional Workshops Provide State Demonstrations
TO J
TCTO
JTC Provide State Demonstrations
Developing Manual Best practices
AA
SHT
AA
SHT Best practices
Review of Technologies Use of IC to reduce density testingAA y g
ee Initiative ContactsU
pdat
Upd
at
Warm Mix Asphalt Tom Harman
tom harman@dot gov
Step Frequency GPR Tom Yu
tom yu@dot gov
FHW
A U
FHW
Matt Corrigan [email protected]
Safety Edge
Asphalt Mixture Perf Tester Jeff Withee
CP
CP
––FF Andy Mergenmeier
[email protected] Chris Wagner
Friction Loan Program Mark Swanlund
[email protected] Bob Orthmeyer
TO J
TCTO
JTC Concrete Overlays
Sam Tyson [email protected]
Hi h RAP Mi t
Bob Orthmeyer [email protected]
Intelligent Compaction Lee Gallivan
AA
SHT
AA
SHT High RAP Mixtures
John Bukowski [email protected]
Audrey Copeland
THANK YOU!THANK YOU!