Design speed explained

The design speed is a tool used to determine geometric features of a new road or street during road design. Contrary to the word's implication, the design speed of the road or street is not necessarily its vehicle speed limit or maximum safe speed; that can be higher or lower.

Choosing a design speed means finding a balance between several interests which compete for priority, such as high vehicle speeds to allow drivers to travel to their destinations quickly versus low vehicle speeds for the safety of people outside the vehicle (such as pedestrians and cyclists), or quick movement of peak traffic (traffic engineering) versus maximising the economic development potential of the street (urban planning).

Geometric features

The design speed chosen for a high-speed roadway is a major factor in choosing superelevation rates and radii of curves, sight distance, and the lengths of crest and sag vertical curves. Roads with higher design speeds require wider lanes, sweeping curves, wider recovery areas, broader clear zones, steeper curve banking, longer sight distances, and more gentle hill crests and valleys.

Roads and streets with lower design speeds require narrower lanes, sharper/tighter curves, smaller or no clear zones less banking, less sight distance, and sharper hill crests and valleys.

Speed limit variance from design speed

While a road's design speed is sometimes used to determine an initial speed limit, it is an imperfect measure of the maximum speed at which a motor vehicle can be operated for reasons including:

Recognizing the limitations on the use of the design speed for speed limit determination, "operating speeds and even posted speed limits can be higher than design speeds without necessarily compromising safety"[4] and "arbitrarily setting lower speed limits at point locations due to a lower inferred design speed is neither effective nor good engineering practice."[5]

Evolution

The concept of design speed is evolving. The definition in the 1994 edition of the AASHTO Green Book,[6] was "the maximum safe speed that can be maintained over a specified section of highway when conditions are so favorable that the design features of the highway govern. The assumed design speed should be a logical one with respect to the topography, the adjacent land use, and the functional classification of highway." Most US states used this definition.[7] In 2004, the first sentence was changed to "a selected speed used to determine the various geometric design features of a roadway."[8] This reflects the fact that meeting a minimum design speed is not enough to ensure a safe roadway.

Recently, the concept of design consistency has been used instead of minimum design speeds. This attempts to connect driver's expectations about the roadway with the roadway design. It uses driver behavior models to predict vehicle speeds on highway segments, and compares the predicted speed on adjacent segments. Significant reductions in speed from one segment to the next are flagged as locations where drivers may end up driving too fast for road conditions.[9]

A major shift in philosophy is also taking place regarding design speed of urban and suburban streets. Highway engineers would measure the prevailing speed on a road, round up to the next multiple of, and design the road for that speed, assuming that it would be safe. Recent research[10] and design practices[11] have focused on using the street design to influence drivers to choose a speed appropriate for the neighborhood. This speed has been called the "target speed," and is ideally equal to the speed limit.[12]

Factors

When roads are planned, the selected design speed may be based on or influence several factors, including:

See also

Bibliography

. Charles Marohn . 2021 . Confessions of a Recovering Engineer: Transportation for a Strong Town . Hoboken, New Jersey . John Wiley & Sons . 272 . 9781119699255 . 7 November 2022.

Notes and References

  1. Design Speed, Operating Speed, and Posted Speed Practices (Report 504). National Cooperative Highway Research Program. Because of differences in design and operation criteria, there are locations where the posted speed limit based on an 85th percentile speed exceeds the roadway's design speed. This situation is because criteria used in highway design incorporate a significant factor of safety. Consequently, it is not surprising that motorists feel comfortable traveling at speeds greater than the roadway's design speed during good weather conditions. ... Although it is obvious that the "maximum" safe speed can be exceeded without difficulty on vertical and horizontal curves when good weather conditions are present, it is difficult to convince the general public that a roadway's design speed can be exceeded with safety..
  2. Web site: WSDOT says roads can't support 90 MPH freeway passes - Seattle News - MyNorthwest.com . 2022-02-27 . 2010-09-11 . https://web.archive.org/web/20100911220404/http://www.mynorthwest.com/category/local_news_articles/20100907/WSDOT-says-roads-can%27t-support-90-mph-freeway-passes . dead .
  3. Web site: CRITERIA FOR HIGH DESIGN SPEED FACILITIES . PDF. Tti.tasmu.edu. 9 November 2021.
  4. Web site: Design Speed, Operating Speed, and Posted Speed Practices (Report 504). National Cooperative Highway Research Program. A significant concern with the 1954 design speed concept was the language of the definition and its relationship with operational speed measures. The term "maximum safe speed" is used in the definition, and it was recognized that operating speeds and even posted speed limits can be higher than design speeds without necessarily compromising safety. In 1997, Fambro et al. (15) recommended a revised definition of design speed for the Green Book while maintaining the five provisions noted above. The definition recommended was, "The design speed is a selected speed used to determine the various geometric design features of the roadway." The term "safe" was removed in order to avoid the perception that speeds greater than the design speed were "unsafe". The AASHTO Task Force on Geometric Design voted in November 1998 to adopt this definition and it was included in the 2001 Green Book (17)..
  5. Design Speed, Operating Speed, and Posted Speed Practices (Report 504). National Cooperative Highway Research Program. Arbitrarily setting lower speed limits at point locations due to a lower inferred design speed is neither effective nor good engineering practice..
  6. Book: A Policy on Geometric Design of Highways and Streets: 1994. 1995. American Association of State Highway and Transportation Officials. 1-56051-068-4.
  7. Web site: Design Speed, Operating Speed, and Posted Speed Practices (Report 504). National Cooperative Highway Research Program.
  8. Book: A Policy on Geometric Design of Highways and Streets: 2004. 2004. American Association of State Highway and Transportation Officials. 1-56051-263-6.
  9. Book: Evaluation of Design Consistency Methods for Two-Lane Rural Highways, Executive Summary. Federal Highway Administration. August 2000.
  10. Book: Designing Roads that Guide Drivers to Choose Safer Speeds . Connecticut Cooperative Highway Research Program . 2009.
  11. Book: New York State Highway Design Manual Chapter 25: Traffic Calming. New York State Department of Transportation. 1999.
  12. Web site: Saint Louis Great Streets Initiative. Greatstreets-stl.org . 2013-08-29 .