CE 578 Highway Traffic Operations

1. CE 578 Highway Traffic Operations Lecture 16: Freeways Basic Sections Michael Dixon

2. Objectives • HCM 2000 procedure process • Significant variables • Adjustment factors Michael Dixon

3. HCM Procedure Process • Input data • two parallel computations • Two tracks to take for FFS • Given the FFS and the adjusted volume Michael Dixon

4. HCM Procedure Input Data • Geometric data • Number of lanes • Grade • Lane width • Lateral clearance (right shoulder width) • Interchange density • FFS • Base free-flow speed (BFFS) or measured FFS • Volume • Drive population • Volume (vph) • Vehicle mix • PHF Michael Dixon

5. HCM Free-Flow Speed Two tracks with field measured FFS or estimating FFS Michael Dixon

6. HCM Field Measured Free-Flow Speed Track • Measured at volumes up to 1300 pc/hr/ln • Conducted at a location that is representative of the segment • Speeds of all passenger cars or a systematic sample • The average of the passenger car speeds is the field measured FFS Michael Dixon

7. HCM Estimated Free-Flow Speed Track Michael Dixon

8. HCM Estimated Free-Flow Speed Track (cont.) Michael Dixon

9. HCM Estimated Free-Flow Speed Track (cont.) Michael Dixon

10. HCM Estimated Free-Flow Speed Track (cont.) Michael Dixon

11. HCM Estimated Free-Flow Speed Track (cont.) Michael Dixon

12. HCM Volume Adjustment Michael Dixon

13. HCM Volume Adjustment (cont.) Michael Dixon

14. HCM Volume Adjustment (cont.) • Hourly volume is adjusted up to a peak 15-minute volume by V/PHF • PHF variations are larger for rural areas and off-peak periods Michael Dixon

15. HCM Volume Adjustment (cont.) • If the percentage of RVs is small relative to that of trucks • Buses operate similarly to trucks • Equivalents for extended freeway segments and specific grades Michael Dixon

16. HCM Volume Adjustment for Grades • Extended segment • No grade of 3% or more is longer than 0.25 miles or, • No grade of < 3% is longer than 0.50 miles • Everything else should be analyzed as a specific grade Michael Dixon

17. HCM Volume Adjustment for Grades (cont.): Extended Segments • Level: • Rolling: • Mountainous Michael Dixon

18. HCM Volume Adjustment for Grades (cont.): Extended Segments Michael Dixon

19. HCM Volume Adjustment for Grades (cont.): Specific Grades • Exhibit 23-9 • Trends of ET are as follows: • Decreases with %heavy vehicles • Increases with length of grade • Increases with % grade • Trends for ER are similar (see Exhibit 23-10) • Trends for ET are similar for downgrades • No adjustment needed for RVs on downgrades Michael Dixon

20. HCM Defining Speed-Flow Curve • Approaches that you can take: • Interpolate in the figure given in Exhibit 23-3 • Use equations below Exhibit 23-3 Michael Dixon

21. HCM Defining Speed-Flow Curve: Interpolation Michael Dixon

22. HCM Defining Speed-Flow Curve: Equations Michael Dixon

23. HCM Defining Speed-Flow Curve: Equations • Note that the equation you use depends on which of the free-flow and adjusted volume conditions are satisfied. • If your FFS is 68 and your adjusted volume is 1200 pc/hr/ln which equation do you use? • If your FFS is 62 and your adjusted volume is 1700 pc/hr/ln which equation do you use? Michael Dixon

24. HCM Calculate the Prevailing Speed • Interpolating from Exhibit 23-3 • Equations Michael Dixon

25. HCM Calculate the Density • q = u * k • q = your adjusted volume (vp) • u = your calculated speed • Solve for k in units of pc/mi/ln Michael Dixon

26. HCM Determine the LOS Michael Dixon