Adam Bringhurst Keri Williamson Kevin Werbylo Snowpack Engineering Department of Civil and Environmental Engineering Spring 2011 1.

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Presentation transcript:

Adam Bringhurst Keri Williamson Kevin Werbylo Snowpack Engineering Department of Civil and Environmental Engineering Spring

Overview of Presentation  Project Understanding  Background  Scope of Services  Schedule  Methodology  Results  Analysis  Conclusions and Recommendations  Final Budget 2Adam Bringhurst

Project Understanding  Originated by Dr. Rand Decker at Northern Arizona University  Investigate at the “study plot scale”, treatments that will minimize sublimation losses of winter snowpack into the air  Why? To increase the amount of surface water flows  Project Requirements Consider forest health issues Unique treatment ideas Tested on multiple landscapes Landscape scale Cost effective What is Sublimation? 3Adam Bringhurst

Project Background  Why focus on snow and sublimation? Arid climates are most dependent on snowpack for water supply Up to 70-80% of water in western US comes from snowpack  Why is this important in Arizona? Half of Arizona’s total water originates as snowpack Sublimation rates can account for over 50% of snow loss in Arizona 4 Adam Bringhurst

Scope of Services  Task 1- Project Management  Task 2- Research and Background  Task 3- Experiment Design  Task 4- Experimental Setup and Data Collection  Task 5- Data Analysis  Task 6- Cost Analysis  Task 7- Results and Recommendations  Task 8- Presentation of Results  Exclusions- Water quality considerations Long-term environmental impacts Required permits for treatment applications 5Adam Bringhurst

Schedule 6 Adam Bringhurst

Planned Methodology  Four sampling sites Canopy ○ Repeated application Meadow ○ Repeated application Two roof structures ○ Start to finish data collection  Four subplots to a site 7Keri Williamson

Planned Methodology  Selected Treatments for Testing Vegetable Oil Compaction Biomass blanket 8Keri Williamson

Planned Methodology 9Keri Williamson  On-site temperature recording  Collect samples using a snow sampling tube  Weight and density  Calculate snow water equivalent (SWE)

Methodology as Performed  Changes: Unable to begin sampling until late February Started with thin biomass layer switched to thick layer Temperature loggers produced unusable data, left temperature recordings out 10Keri Williamson

Results 11Keri Williamson

Analysis – Roof Structures  Roofs had sun exposure on southern subplots  Faster rates of snow loss observed visually and confirmed with sampling  Strong correlation between subplot location and snow loss 12Kevin Werbylo

Analysis – Canopy  Captured two storms Second storm analyzed, more data points  Biomass performed best Only treatment that retained more snow than control Retained 30% of SWE when all other subplots completely ablated Canopy Slope (inches SWE/day) R 2 Value Control Thick Biomass Kevin Werbylo

Analysis –Open Meadow Meadow Slope (inches SWE/day) R 2 Value Control Biomass  Captured two storms Second storm analyzed, more data points  Biomass performed best Only treatment that retained more snow than control Retained 78% of SWE when all other subplots completely ablated Low R 2 due to mounding 14Kevin Werbylo

Cost Operation Cost Wood Chipper$ Woodchip Spreader$3.60 Tractor Operation$ Total for 4 inches over 1 acre$  Cost was analyzed for application of biomass Use “slash” piles for chipping Excluded: ○ Chipping labor ○ Transportation of chipped piles ○ Start up costs of buying equipment 15Kevin Werbylo  Included: Cost of operating a wood chipper Maintenance costs of a spreader Cost of operating a tractor

Conclusions  Isolation of sublimation monitoring was not achieved Losses included sublimation and melt  Canopy and Meadow study plots showed that a biomass blanket of 3 to 4 inches will limit losses of snowpack  However, treatment would be very expensive to implement at a landscape scale 16Kevin Werbylo

Recommendations  Further study of biomass treatment to quantify how much sublimation has been prevented  Hydrologic study to determine amount of additional water that would be delivered to surface waters  Economic study to determine rate of return on the price of equipment, labor and application 17Kevin Werbylo

Final Budget 18 Kevin Werbylo

References  USGS. “The Water Cycle: Snowmelt Runoff”. Web. Feb  Arizona Department of Water Resources. “Statewide Cultural Water Demand in and 2006” Web. 14 April /.../statewide_demand_wed.pdf /.../statewide_demand_wed.pdf  “Salt River Project”. Web. 27 April ning/Sustainable_Supply/Salt_River_Project ning/Sustainable_Supply/Salt_River_Project 19

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