1. Applying �Subsurface Utility Engineering�to �Highway and Road Projects�
2. Existing Underground Utilities are the �Veins and Arteries of our �Cities and Roads And yet, we know very little about where they are
3. WHY? Expansion
Modernization
Changing Utility Technology
Changing Facility Missions
Referenced to changed topo features
No centralized records storage
No standard format
No responsibility
4. Where do we get Utility Info? Visual Observation
Field Survey
5. The Engineer uses these sources to compile a utility composite that overlays the new design
6. The Engineer ends up with utility data of unknown reliability
7. What are these Risks?
8. There are a lot of other risks too Redesign costs
Higher construction bids
Change orders
Extra work orders
Construction Claims
Higher insurance costs
Higher financing costs
Bad publicity
9. Fortunately, theres a way �to handle this risk SUBSURFACE UTILITY ENGINEERING
10. S.U.E. Combines Traditional �Engineering Practices, such as ..
11. with New Technologies �
13. The Most Significant Advancement is the �Utility Quality Level Attribute
14. Quality Level D Plotted on plans from records.
Sometimes a field visit - to look for utility indications on the site - is made.
Sometimes verbal recollections are plotted.
15. � Surface Appurtenances are surveyed and accurately plotted on a current site plan
Utility data from records (QL D) are correlated to the appurtenances
16. � Surface Geophysical Methods used to search for and trace existing utilities.
Designated utilities are then surveyed and plotted on site plan.
17. � Utilities exposed via non-destructive air-vacuum means
Exposed utilities are then surveyed and plotted on site plan Elevations, Size, Condition, Materials, Precise Horizontal Positions are measured and documented
18. QL A and QL B upgrades have been successful in reducing risk on tens of thousands of highway and road projects.���This is a tried �and true�process
20. Yet, SUE has not been used as a professional standard practice in some areas for many reasons. No concerted local or regional effort to educate project owners or engineers of benefits
Lack of interest by state DOTs
Development of SUE has been primarily on the east coast
Few national providers
Combined construction values in some areas lower than in others
Lack of a well defined standard of care created little incentive for changing the status-quo
21. These Impediments to SUE are rapidly disappearing
22. There are now national standards under development��American Society of Civil Engineer / �American National Standards Institutes��National Standard Activity
25. And theres more!�SUE is recognized as a�BEST PRACTICE�by AASHTO
Federal Highway Administration
Associated General Contractors
Office of Pipeline Safety
National Transportation Safety Board
Network Reliability Council
Many state DOTs
26. SUE offers a One-Stop Shop for all of a projects utility needs
30. Slide show and pictures courtesy of So-Deep, Inc.
