yellowstone national park3-10.pdfyellowstone national park road program • 20-year program to...
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Yellowstone National Park
Cold Regions Engineering
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WORLDHERITAGE
SITEJune 2002
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Yellowstone National Park Road Program
• 20-year program to upgrade roads• $12 million per year budget• Both reconstruction and 3R• Original road system built in 1930’s• 230 km long Grand Loop Road• 175 km of additional primary highways
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Climate on the Park’s West Side
• Roads are between 1600 m and 2700 m elevation• 560 mm average annual precipitation• 3630 mm average annual snow accumulation• July average maximum temperature is 26°C• January average minimum temperature is -18°C• Mean annual air temperature is 1.6 °C• Average 268 days/year with lows below freezing• Air thawing index is 3423 degree-days• Air freezing index is 5478 degree-days
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Soils and Pavement Design
• Primarily colluvial and glacio-fluvial soils derived from tuff and rhyolite
• Generally granular—silty sand and gravel, SP, SM, GP, and GM
• Don’t provide Corps of Engineers’ frost design throughout the project
• Instead, subexcavate frost-susceptible soils in known frost heave areas
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Road Management
• Roads are plowed and open to the public from April through October
• Park manages overweight vehicles during spring thaw period
• Roads are groomed for snowmobiles from November through March
• Snow over the center of the roadway is compacted and has poor insulation properties compared to snow over the road shoulders
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North Rim Drive
• Two photos of typical spring frost heave conditions
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Northeast Entrance Road
• Two photos of road condition prior to 3R project
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Typical Subexcavation Treatments in Frost Heave
Areas• Experience over several projects indicates
depth has to be at least one meter to prevent future pavement cracking
• Use separation geotextile on the floor of the subexcavation
• Select borrow is free draining with less than 5% passing the 75-micron sieve
• Provide underdrains in wet areas
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Type 1 Subexcavation
• Used in areas with high water table• In situ soils are wasted because they are too
moist to be workable• Creates relatively large quantities of waste
and requires large quantities of select borrow
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Type 2 Subexcavation
• “Sandwich” treatment used in moderately wet areas
• In situ soils are reused if they are at a workable moisture content
• Advantages: lower cost because quantities of waste material and select borrow material are reduced
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Type 3 Subexcavation
• Used over cross culverts where frost heave is a problem
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Type 4 Subexcavation
• Experimental treatment used in moderately wet areas• Geocomposite sheet drain replaces geotextile and
select borrow• In situ soils are reused if they are at a workable
moisture content• Advantages: lower cost because quantity of waste
material is reduced and no need for select borrow material
• Four years of use shows it to be as effective in preventing frost heave as Type 1 and 2 treatments
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Construction of Type 2 Subexcavation
• Photo shows top layer of geotextile placed over select borrow layer
• Contractor used half-width construction so traffic could pass
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Nez Perce Ford Frost Heave Area
• Historically one of most severe heave areas in the Park—up to 350 mm of differential heave
• 160 meters long• High water table• Profile: 0.7 m of sand (SP-SM) over lacustrine
silt (ML)• Sand layer contains prehistoric artifacts
(obsidian arrowheads and shards)
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Nez Perce Ford Proposed Design
• Minimize impact to artifact-bearing sand layer from subexcavation and drains
• Profile allows only a small grade raise• Use 75 mm of polystyrene insulation board
to reduce frost penetration
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Gibbon Meadows Reconstruction
• Another historically severe heave area with a lot of differential heave
• 1340 meters long• Meadow has interbedded layers of fine sand (SP-SM)
and diatomaceous earth (ML)• Existing road fill (600 to 800 mm of sand, SP-SM)
was constructed over several time periods• Some borings encountered corduroy (logs) and other
borings encountered rocky embankment layers• Four roadway cross sections follow two photographs:
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Gibbon Meadows Design
• Widened roadway all on one side• Subexcavated a portion of the native soils to limit
differential settlement under the new embankment• Backfilled subexcavated area with existing
embankment material to maintain uniformity of embankment material
• Placed a uniaxial geogrid (10 kN/m allowable wide width strength) transversely across the roadway to limit crack propagation up through the embankment
• Raised overall grade by 300 mm to reduce frost penetration into frost-susceptible layers
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Gibbon Meadows Performance
• Roadbed was constructed up to subgrade last fall• 300-mm-thick pavement structure is yet to be
placed• Last winter was a moderate year for frost heaves• No visible distortion of the roadbed surface this
spring• A few isolated hairline cracks appeared to be
visible in the roadbed surface this spring
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Warm Ground Design
• Primary purpose is to prevent snow from melting from the roadway in warm areas so that snowmobiles can run on the snow (Insulation board)
• Avoids expense of maintenance crews placing wood chips on the roadway each fall and removing them in the spring
• Secondary purpose is to prevent hydrothermal gases from deteriorating the asphalt concrete pavement (geomembrane)
• To minimize impact on hydrothermal features and caverns, no vibratory compaction is allowed during construction in these areas
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Craig S. Dewey, PEGeotechnical EngineerWestern Federal Lands Highway Division610 East Fifth StreetVancouver, Washington, USA360 [email protected]
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Acknowledgements
• Jeri Sooter and Brad Wilder for scanning photos and drawings
• Rich Barrows, PE, for coordination and presentation review
• WFLHD road design and construction staff