empty cell
Manual on Uniform Traffic Control Devices (MUTCD) arrows logo

Chapter 6H. Typical Applications

Page 1 | 2 | 3 | 4

Section 6H.01 Typical Applications

Support:
Whenever the acronym "TTC" is used in this Chapter, it refers to "temporary traffic control".

Standard:
The needs and control of all road users (motorists, bicyclists, and pedestrians within the highway, including persons with disabilities in accordance with the Americans with Disabilities Act of 1990 (ADA), Title II, Paragraph 35.130) through a TTC zone shall be an essential part of highway construction, utility work, maintenance operations, and the management of traffic incidents.

Support:
Chapter 6G contains discussions of typical TTC activities. Chapter 6H presents typical applications for a variety of situations commonly encountered. While not every situation is addressed, the information illustrated can generally be adapted to a broad range of conditions. In many instances, an appropriate TTC plan is achieved by combining features from various typical applications. For example, work at an intersection might present a near-side work zone for one street and a far-side work zone for the other street. These treatments are found in two different typical applications, while a third typical application shows how to handle pedestrian crosswalk closures. For convenience in using the typical application diagrams, Tables 6C-1 and 6C-4 are reproduced in this Chapter as Tables 6H-3 and 6H-4, respectively.

Procedures for establishing TTC zones vary with such conditions as road configuration, location of the work, work activity, duration of work, road user volumes, road vehicle mix (buses, trucks, cars, motorcycles, and bicycles), and road user speeds. Examples are presented in this Chapter showing how to apply principles and standards. Applying these guidelines to actual situations and adjusting to field conditions requires judgment. In general, the procedures illustrated represent minimum solutions for the situations depicted.

Option:
Other devices may be added to supplement the devices and device spacing may be adjusted to provide additional reaction time or delineation. Fewer devices may be used based on field conditions.

Support:
Figures and tables found throughout Part 6 provide information for the development of TTC plans. Also, Table 6H-3 is used for the determination of sign spacing and other dimensions for various area and roadway types.

Table 6H-1 is an index of the 46 typical applications. Typical applications are shown on the right page with notes on the facing page to the left. The legend for the symbols used in the typical applications is provided in Table 6H-2. In many of the typical applications, sign spacings and other dimensions are indicated by letters using the criteria provided in Table 6H-3. The formulas for determining taper lengths are provided in Table 6H-4.

Most of the typical applications show TTC devices for only one direction.

Table 6H-1. Index to Typical Applications
Typical Application Description Typical Application Number
Work Outside of Shoulder (see Section 6G.06)
    Work Beyond the Shoulder TA-1
    Blasting Zone TA-2
Work on the Shoulder (see Sections 6G.07 and 6G.08)
    Work on Shoulders TA-3
    Short Duration or Mobile Operation on Shoulder TA-4
    Shoulder Closure on Freeway TA-5
    Shoulder Work with Minor Encroachment TA-6
Work Within the Traveled Way of Two-Lane Highways (see Section 6G.10)
    Road Closed with Diversion TA-7
    Roads Closed with Off-Site Detour TA-8
    Overlapping Routes with Detour TA-9
    Lane Closure on Two-Lane Road Using Flaggers TA-10
    Lane Closure on Two-Lane Road with Low Traffic Volumes TA-11
    Lane Closure on Two-Lane Road Using Traffic Control Signals TA-12
    Temporary Road Closure TA-13
    Haul Road Crossing TA-14
    Work in Center of Road with Low Traffic Volumes TA-15
    Surveying Along Centerline of Road with Low Traffic Volumes TA-16
    Mobile Operations on Two-Lane Road TA-17
Work Within the Traveled Way of Urban Streets (see Section 6G.11)
    Lane Closure on Minor Street TA-18
    Detour for One Travel Direction TA-19
    Detour for Closed Street TA-20
Work Within the Traveled Way at an Intersection and Sidewalks (see Section 6G.13)
    Lane Closure on Near Side of Intersection TA-21
    Right Lane Closure on Far Side of Intersection TA-22
    Left Lane Closure on Far Side of Intersection TA-23
    Half Road Closure on Far Side of Intersection TA-24
    Multiple Lane Closures at Intersection TA-25
    Closure in Center of Intersection TA-26
    Closure at Side of Intersection TA-27
    Sidewalk Closures and Bypass Sidewalks TA-28
    Crosswalk Closures and Pedestrian Detours TA-29
Work Within the Traveled Way of Multi-lane, Nonaccess Controlled Highways (see Section 6G.12)
    Interior Lane Closure on Multi-lane Street TA-30
    Lane Closure on Street with Uneven Directional Volumes TA-31
    Half Road Closure on Multi-lane, High-Speed Highway TA-32
    Lane Closure on Divided Highway TA-33
    Lane Closure with Temporary Traffic Barrier TA-34
    Mobile Operation on Multi-lane Road TA-35
Work Within the Traveled Way of Expressways and Freeways (see Section 6G.14)
    Lane Shift on Freeway TA-36
    Double Lane Closure on Freeway TA-37
    Interior Lane Closure on Freeway TA-38
    Median Crossover on Freeway TA-39
    Median Crossover for Entrance Ramp TA-40
    Median Crossover for Exit Ramp TA-41
    Work in Vicinity of Exit Ramp TA-42
    Partial Exit Ramp Closure TA-43
    Work in Vicinity of Entrance Ramp TA-44
    Temporary Reversible Lane Using Movable Barriers TA-45
Work in the Vicinity of Highway-Rail Grade Crossings (see Section 6G.19)
    Work in Vicinity of Highway-Rail Grade Crossing TA-46

Table 6H-2. Meaning of Symbols on Typical Application Diagrams
Arrow panel symbol Arrow panel
Arrow panel support or trailer symbol Arrow panel support or trailer (shown facing down)
Symbol for changeable message sign or support trailer Changeable message sign or support trailer
Channelizing device symbol Channelizing device
Crash cushion symbol Crash Cushion
Direction of temporary traffic detour symbol Direction of temporary traffic detour
Direction of traffic symbol Direction of traffic
Flagger symbol Flagger
High level warning device (flag tree) symbol High level warning device (Flag tree)
Luminaire symbol Luminaire
Symbol for pavement markings that should be removed for a long term project Pavement markings that should be removed for a long term project
Symbol for sign (shown facing left) Sign (shown facing left)
Surveyor symbol Surveyor
Temporary barrier symbol Temporary barrier
Symbol for temporary barrier with warning lights Temporary barrier with warning lights
Symbol for traffic or pedestrian signal Traffic or Pedestrian signal
Symbol for truck mounted attenuator Truck mounted attenuator
Type III Barricade symbol Type III Barricade
Warning lights symbol Warning lights
Work space symbol Work space
Work vehicle symbol Work vehicle


Table 6H-3. Meaning of Letter Codes on Typical Application Diagrams
Road Type Distance Between Signs**
A B C
Urban (low speed)* 30 (100) 30 (100) 30 (100)
Urban (high speed)* 100 (350) 100 (350) 100 (350)
Rural 150 (500) 150 (500) 150 (500)
Expressway / Freeway 300 (1,000) 450 (1,500) 800 (2,640)
* Speed category to be determined by highway agency
** Distances are shown in meters (feet). The column headings A, B, and C are the dimensions shown in Figures 6H-1 through 6H-46. The A dimension is the distance from the transition or point of restriction to the first sign. The B dimension is the distance between the first and second signs. The C dimension is the distance between the second and third signs. (The third sign is the first one in a three-sign series encountered by a driver approaching a TTC zone.)

Table 6H-4. Formulas for Determining Taper Lengths
Speed Limit (S)

Taper Length (L)
Meters

Speed Limit (S) Taper Length (L)
Feet
60 km/h or less equation: L equals W multiplied by S squared, divided by 155 40 mph or less equation: L equals W multiplied by S squared, divided by 60
70 km/h or more equation: L equals W multiplied by S, divided by 1.6 45 mph or more equation: L equals W multiplied by S

Where:
    L = taper length in meters (feet)
    W = width of offset in meters (feet)
    S = posted speed limit, or off-peak 85th-percentile speed prior to work starting, or the anticipated operating speed in km/h (mph).

Notes for Figure 6H-1—Typical Application 1
Work Beyond the Shoulder

Guidance:

  1. If the work space is in the median of a divided highway, an advance warning sign should also be placed on the left side of the directional roadway.

Option:

  1. The ROAD WORK AHEAD sign may be replaced with other appropriate signs such as the SHOULDER WORK sign. The SHOULDER WORK sign may be used for work adjacent to the shoulder.
  2. The ROAD WORK AHEAD sign may be omitted where the work space is behind a barrier, more than 600 mm (24 in) behind the curb, or 4.6 m (15 ft) or more from the edge of any roadway.
  3. For short-term, short-duration or mobile operation, all signs and channelizing devices may be eliminated if a vehicle with activated rotating lights or strobe lights is used.
  4. Vehicle hazard warning signals may be used to supplement rotating lights or strobe lights.

Standard:

  1. Vehicle hazard warning signals shall not be used instead of the vehicle’s rotating lights or strobe lights.

Figure 6H-1 Work Beyond the Shoulder (TA-1)

Thumbnail image of Figure 6H-1

Notes for Figure 6H-2—Typical Application 2
Blasting Zone

Standard:

  1. Whenever blasting caps are used within 300 m (1,000 ft) of a roadway, the signing shown shall be used.
  2. The signs shall be covered or removed when there are no explosives in the area or the area is otherwise secure.
  3. Whenever a side road intersects the roadway between the BLASTING ZONE AHEAD sign and the END BLASTING ZONE sign, or a side road is within 300 m (1,000 ft) of any blasting cap, similar signing, as on the mainline, shall be installed on the side road.
  4. Prior to blasting, the blaster in charge shall determine whether road users in the blasting zone will be endangered by the blasting operation. If there is danger, road users shall not be permitted to pass through the blasting zone during blasting operations.

Guidance:

  1. On a divided highway, the signs should be mounted on both sides of the directional roadways.

Figure 6H-2 Blasting Zone (TA-2)

Thumbnail image of Figure 6H-2

Notes for Figure 6H-3—Typical Application 3
Work on Shoulders

Guidance:

  1. A SHOULDER WORK sign should be placed on the left side of the roadway for a divided or one-way street only if the left shoulder is affected.

Option:

  1. The Workers symbol signs may be used instead of SHOULDER WORK signs.
  2. The SHOULDER WORK AHEAD sign on an intersecting roadway may be omitted where drivers emerging from that roadway will encounter another advance warning sign prior to this activity area.
  3. For short-duration operations of 60 minutes or less, all signs and channelizing devices may be eliminated if a vehicle with activated rotating lights or strobe lights is used.
  4. Vehicle hazard warning signals may be used to supplement rotating lights or strobe lights.

Standard:

  1. Vehicle hazard warning signals shall not be used instead of the vehicle’s high-intensity rotating, flashing, oscillating, or strobe lights.
  2. When paved shoulders having a width of 2.4 m (8 ft) or more are closed, at least one advance warning sign shall be used. In addition, channelizing devices shall be used to close the shoulder in advance to delineate the beginning of the work space and direct vehicular traffic to remain within the traveled way.

Figure 6H-3 Work on Shoulders (TA-3)

Thumbnail image of Figure 6H-3

Notes for Figure 6H-4—Typical Application 4
Short-Duration or Mobile Operation on Shoulder

Guidance:

  1. In those situations where multiple work locations within a limited distance make it practical to place stationary signs, the distance between the advance warning sign and the work should not exceed 8 km (5 mi).
  2. In those situations where the distance between the advance signs and the work is 3.2 km (2 mi) to 8 km (5 mi), a Supplemental Distance plaque should be used with the ROAD WORK AHEAD sign.

Option:

  1. The ROAD WORK NEXT XX km (MILES) sign may be used instead of the ROAD WORK AHEAD sign if the work locations occur over a distance of more than 3.2 km (2 mi).
  2. Warning signs may be omitted when the work vehicle displays rotating lights or strobe lights if the distance between work locations is 1.6 km (1 mile) or more, and if the work vehicle travels at vehicular traffic speeds between locations.
  3. Vehicle hazard warning signals may be used to supplement rotating lights or strobe lights.

Standard:

  1. Vehicle hazard warning signals shall not be used instead of the vehicle’s high-intensity rotating, flashing, oscillating, or strobe lights.
  2. If an arrow panel is used for an operation on the shoulder, the caution mode shall be used.

Figure 6H-4 Short-Duration or Mobile Operation on Shoulder (TA-4)

Thumbnail image of Figure 6H-4

Notes for Figure 6H-5—Typical Application 5
Shoulder Closure on Freeway

Guidance:

  1. SHOULDER CLOSED signs should be used on limited-access highways where there is no opportunity for disabled vehicles to pull off the roadway.
  2. If drivers cannot see a pull-off area beyond the closed shoulder, information regarding the length of the shoulder closure should be provided in meters or kilometers (feet or miles), as appropriate.
  3. The use of a temporary traffic barrier should be based on engineering judgment.

Standard:

  1. Where temporary traffic barriers are installed, the ends of the barrier shall be treated in accordance with the provisions of Section 6F.81.

Option:

  1. The barrier shown in this typical application is an example of one method that may be used to close a shoulder of a long-term project.
  2. The warning lights shown on the barrier may be used.

Figure 6H-5 Shoulder Closure on Freeway (TA-5)

Thumbnail image of Figure 6H-5

Notes for Figure 6H-6—Typical Application 6
Shoulder Work with Minor Encroachment

Guidance:

  1. All lanes should be a minimum of 3 m (10 ft) in width as measured to the near face of the channelizing devices.
  2. The treatment shown should be used on a minor road having low speeds. For higher-speed traffic conditions, a lane closure should be used.

Option:

  1. For short-term use on low-volume, low-speed roadways with vehicular traffic that does not include longer and wider heavy commercial vehicles, a minimum lane width of 2.7 m (9 ft) may be used.
  2. Where the opposite shoulder is suitable for carrying vehicular traffic and of adequate width, lanes may be shifted by use of closely spaced channelizing devices, provided that the minimum lane width of 3 m (10 ft) is maintained.
  3. Additional advance warning may be appropriate, such as a ROAD NARROWS sign.
  4. Temporary traffic barriers may be used along the work space.
  5. The shadow vehicle may be omitted if a taper and channelizing devices are used.
  6. A truck-mounted attenuator may be used on the shadow vehicle.
  7. For short-duration work, the taper and channelizing devices may be omitted if a shadow vehicle with activated high-intensity rotating, flashing, oscillating, or strobe lights is used.
  8. Vehicle hazard warning signals may be used to supplement high-intensity rotating, flashing, oscillating, or strobe lights.

Standard:

  1. Vehicle hazard warning signals shall not be used instead of the vehicle’s high-intensity rotating, flashing, oscillating, or strobe lights.

Figure 6H-6 Shoulder Work with Minor Encroachment (TA-6)

Thumbnail image of Figure 6H-6

Notes for Figure 6H-7—Typical Application 7
Road Closure with Diversion

Support:

  1. Signs and object markers are shown for one direction of travel only.

Standard:

  1. Devices similar to those depicted shall be placed for the opposite direction of travel.
  2. Pavement markings no longer applicable shall be removed or obliterated as soon as practicable.
  3. Temporary barriers and end treatments shall be crashworthy.

Guidance:

  1. If the tangent distance along the temporary diversion is more than 180 m (600 ft), a Reverse Curve sign, left first, should be used instead of the Double Reverse Curve sign, and a second Reverse Curve sign, right first, should be placed in advance of the second reverse curve back to the original alignment.
  2. When the tangent section of the diversion is more than 180 m (600 ft), and the diversion has sharp curves with recommended speeds of 50 km/h (30 mph) or less, Reverse Turn signs should be used.
  3. Where the temporary pavement and old pavement are different colors, the temporary pavement should start on the tangent of the existing pavement and end on the tangent of the existing pavement.

Option:

  1. Flashing warning lights and/or flags may be used to call attention to the warning signs.
  2. On sharp curves, large arrow signs may be used in addition to other advance warning signs.
  3. Delineators or channelizing devices may be used along the diversion.

Figure 6H-7 Road Closure with Diversion (TA-7)

Thumbnail image of Figure 6H-7

Notes for Figure 6H-8—Typical Application 8
Road Closure with Off-Site Detour

Guidance:

  1. Regulatory traffic control devices should be modified as needed for the duration of the detour.

Option:

  1. If the road is opened for some distance beyond the intersection and/or there are significant origin/destination points beyond the intersection, the ROAD CLOSED and DETOUR signs on Type III Barricades may be located at the edge of the traveled way.
  2. A Route Sign Directional assembly may be placed on the far left corner of the intersection to augment or replace the one shown on the near right corner.
  3. Flashing warning lights and/or flags may be used to call attention to the advance warning signs.
  4. Cardinal direction plaques may be used with route signs.

Figure 6H-8 Road Closure with Off-Site Detour (TA-8)

Thumbnail image of Figure 6H-8

Notes for Figure 6H-9—Typical Application 9
Overlapping Routes with Detour

Support:

  1. TTC devices are shown for one direction of travel only.

Standard:

  1. Devices similar to those depicted shall be placed for the opposite direction of travel.

Guidance:

  1. STOP signs displayed to side roads should be installed as needed along the temporary route.

Option:

  1. Flashing warning lights and/or flags may be used to call attention to the advance warning signs.
  2. Flashing warning lights may be used on the Type III Barricades.
  3. Cardinal direction plaques may be used with route signs.

Figure 6H-9 Overlapping Routes with Detour (TA-9)

Thumbnail image of Figure 6H-9

Notes for Figure 6H-10—Typical Application 10
Lane Closure on Two-Lane Road Using Flaggers

Option:

  1. For low-volume situations with short work zones on straight roadways where the flagger is visible to road users approaching from both directions, a single flagger, positioned to be visible to road users approaching from both directions, may be used (see Chapter 6E).
  2. The ROAD WORK AHEAD and the END ROAD WORK signs may be omitted for short-duration operations.
  3. Flashing warning lights and/or flags may be used to call attention to the advance warning signs. A BE PREPARED TO STOP sign may be added to the sign series.

Guidance:

  1. The buffer space should be extended so that the two-way traffic taper is placed before a horizontal (or crest vertical) curve to provide adequate sight distance for the flagger and a queue of stopped vehicles.

Standard:

  1. At night, flagger stations shall be illuminated, except in emergencies.

Guidance:

  1. When used, the BE PREPARED TO STOP sign should be located between the Flagger sign and the ONE LANE ROAD sign.
  2. When a highway-rail grade crossing exists within or upstream of the transition area and it is anticipated that queues resulting from the lane closure might extend through the highway-rail grade crossing, the TTC zone should be extended so that the transition area precedes the highway-rail grade crossing.
  3. When a highway-rail grade crossing equipped with active warning devices exists within the activity area, provisions should be made for keeping flaggers informed as to the activation status of these warning devices.
  4. When a highway-rail grade crossing exists within the activity area, drivers operating on the left side of the normal centerline should be provided with comparable warning devices as for drivers operating on the right side of the normal centerline.
  5. Early coordination with the railroad company should occur before work starts.

Option:

  1. A flagger or a uniformed law enforcement officer may be used at the highway-rail grade crossing to minimize the probability that vehicles are stopped within 4.6 m (15 ft) of the highway-rail grade crossing, measured from both sides of the outside rails.

Figure 6H-10 Lane Closure on Two-Lane Road Using Flaggers (TA-10)

Thumbnail image of Figure 6H-10

Notes for Figure 6H-11—Typical Application 11
Lane Closure on Two-Lane Road with Low Traffic Volumes

Option:

  1. This TTC zone application may be used as an alternate to the TTC application shown in Figure 6H-10 (using flaggers) when the following conditions exist:
    1. Vehicular traffic volume is such that sufficient gaps exist for vehicular traffic that must yield.
    2. Road users from both directions are able to see approaching vehicular traffic through and beyond the work site and have sufficient visibility of approaching vehicles.
  2. The Type B flashing warning lights may be placed on the ROAD WORK AHEAD and the ONE LANE ROAD AHEAD signs whenever a night lane closure is necessary.

Figure 6H-11 Lane Closure on Two-Lane Road with Low Traffic Volumes (TA-11)

Thumbnail image of Figure 6H-11

Page 1 | 2 | 3 | 4

Back to Top