Category:234 Interchanges: Difference between revisions

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|[[Image:234 Photo 1 Diamond Interchange.jpg|thumb|<center>Diamond Interchange</center>]]
|[[Image:234 Photo 1 Diamond Interchange.jpg|thumb|<center>'''Diamond Interchange'''</center>]]
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|[[Image:234 Photo2 Directional Interchange.jpg|thumb|<center>Directional Interchange</center>]]
|[[Image:234 Photo2 Directional Interchange.jpg|thumb|<center>'''Directional Interchange'''</center>]]
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|[[Image:234 Photo3 Single Point Interchange.jpg|thumb|<center>Single Point Interchange</center>]]
|[[Image:234 Photo3 Single Point Interchange.jpg|thumb|<center>'''Single Point Interchange'''</center>]]
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|[[Image:234 Photo4 Cloverleaf Interchange.jpg|thumb|<center>Cloverleaf Interchange</center>]]
|[[Image:234 Photo4 Cloverleaf Interchange.jpg|thumb|<center>'''Cloverleaf Interchange'''</center>]]
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|[[Image:234 Photo5 DDI.jpg|thumb|<center>'''Diverging Diamond Interchange'''</center>]]
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Interchanges are considered where conflicting high traffic volumes exceed those that can be handled efficiently and safely with at-grade intersections. They are also used to control access to the main highway. The location study for a proposed improvement recommends the type and location of a proposed interchange necessary to address these concerns. A precise analysis of traffic movement that justifies the necessity for an interchange is required. Depending on the complexity, appropriate modeling can include microsimulation or analysis using the ''Highway Capacity Manual''. Access management guidelines are considered in analysis of operational and safety concerns.


The selection of an appropriate interchange is influenced by such factors as highway classification, composition of traffic, anticipated operating speed, economics, terrain, available right of way and the degree of access control.  An interchange is to be considered when warranted by the 20-year design traffic projection or safety concerns.  An interchange will provide access for all traffic movements.  The desired spacing between interchanges is two miles in current and projected urban areas and five miles in rural areas.  [[:category:940 Access Management|Access Management Guidelines]] are also considered to determine the spacing of interchanges.
MoDOT intends to provide access for all traffic movements at an interchange on the state highway system. In some cases, traffic volumes may not warrant the provision of ramps at the time of initial construction. However, right of way should be purchased to provide for the future ramps. The plans for initial construction of the interchange will show the location of future ramps for these traffic movements.


At times it may be necessary to construct a new interchange or revise an existing interchange on an interstate highway.  When this occurs, [[234.1 Interchange Justification for Interstate Highways|justification]] must be provided to FHWA for approval before the work can begin.
The selection of an appropriate interchange is influenced by such factors as highway classification, composition of traffic, anticipated operating speed, economics, terrain, available right of way and the degree of access control.  An interchange is to be considered when warranted by the 20-year design traffic projection or safety concerns.  The desired spacing between interchanges is two miles in current and projected urban areas and five miles in rural areas.  [[:category:940 Access Management|Access Management Guidelines]] are also considered to determine the spacing of interchanges.
 
At times it may be necessary to construct a new interchange or revise an existing interchange on an interstate highway.  When this occurs, [[234.1 Access to Interstate Highways|access approval]] for new or revised access must be provided to FHWA for approval during the project development process and prior to making any changes to the interstate access.


Basic types of interchanges are:
Basic types of interchanges are:
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* [[234.4 Single Point Urban Interchanges (SPUIs)|Single Point]]  
* [[234.4 Single Point Urban Interchanges (SPUIs)|Single Point]]  
* [[234.5 Cloverleaf Interchanges|Cloverleaf]]
* [[234.5 Cloverleaf Interchanges|Cloverleaf]]
* [[234.6 Diverging Diamond Interchanges|Diverging Diamond]]


Chapter 10 of the AASHTO Green Book provides examples of these interchange types.  Controlling factors in the selection of an interchange type are: right of way requirements, vehicle speed, traffic volume, terrain, access control and cost.  Interchanges are designed to fit specific local conditions and meet driver expectations.
Chapter 10 of the AASHTO Green Book provides examples of these interchange types.  Controlling factors in the selection of an interchange type are: right of way requirements, vehicle speed, traffic volume, terrain, access control and cost.  Interchanges are designed to fit specific local conditions and meet driver expectations.
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Directional interchanges accommodate high volume turning movements where two freeways intersect. Direct ramp movements reduce travel distance, increase speed and capacity, eliminate weaving and avoid the need for “out-of-direction” travel on a loop.  These interchanges are costly to construct due to the increased number and length of ramps and the number of bridge crossings.
Directional interchanges accommodate high volume turning movements where two freeways intersect. Direct ramp movements reduce travel distance, increase speed and capacity, eliminate weaving and avoid the need for “out-of-direction” travel on a loop.  These interchanges are costly to construct due to the increased number and length of ramps and the number of bridge crossings.


Single-point urban interchanges (SPUI) were first constructed in the early 1970’s.  Their primary feature is all four turning movements intersect at a common point.  Therefore, the number of signals needed to control traffic is reduced.  Furthermore, opposing left turn movements pass to the left of each other
Single-point urban interchanges (SPUI) were first constructed in the early 1970s.  Their primary feature is all four turning movements intersect at a common point.  Therefore, the number of signals needed to control traffic is reduced.  Furthermore, opposing left turn movements pass to the left of each other


Cloverleaf interchanges can be used where two high volume freeways intersect.  Loop-ramps are used to accommodate left-turning movements.  However, this configuration provides short weaving areas for traffic entering or leaving the interchange.  A cloverleaf interchange occupies a relatively large area of right of way.
Cloverleaf interchanges can be used where two high volume freeways intersect.  Loop-ramps are used to accommodate left-turning movements.  However, this configuration provides short weaving areas for traffic entering or leaving the interchange.  A cloverleaf interchange occupies a relatively large area of right of way.
{|style="padding: 0.3em; margin-left:9px; border:2px solid #a9a9a9; text-align:center; font-size: 95%; background:#f5f5f5" width="160px" align="right"
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|'''Additional Information'''
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|[http://www.fhwa.dot.gov/publications/research/safety/09060/ FHWA's Alternative Intersections/Interchanges Report]
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Diverging diamond interchanges (DDI) are diamond interchanges that more efficiently facilitates heavy left-turn movements. While the ramp configuration is similar to a traditional diamond interchange, traffic on the crossroad moves to the left side of the roadway for the segment between signalized ramp intersections.


[[Image:234.2 DDI.jpg|thumb|left|<center>[https://epg.modot.org/documents/234.2_DDI_Animation.mpg '''Diverging Diamond Interchange Animation''']'''</center>]]
In some circumstances, a “basic” interchange may not be the appropriate choice to satisfy the needs of the traveling public.  The interchange that is designed may be a combination of the basic types or incorporate [[Media:234.2 Creative Diamnond Interchange Arrangements.pdf|creative modifications]].  A Diverging Diamond Interchange (DDI) is one example.
In some circumstances, a “basic” interchange may not be the appropriate choice to satisfy the needs of the traveling public.  The interchange that is designed may be a combination of the basic types or incorporate [[Media:234.2 Creative Diamnond Interchange Arrangements.pdf|creative modifications]].  A Diverging Diamond Interchange (DDI) is one example.


The high cost of construction restricts the use of an interchange to those situations where the expenditure is justified. An interchange “warrants” construction based on consideration of the roadway’s design designation, traffic volume and safety of operation.
The high cost of construction restricts the use of an interchange to those situations where the expenditure is justified. An interchange “warrants” construction based on consideration of the roadway’s design designation, traffic volume and safety of operation.

Latest revision as of 11:53, 25 October 2021

Diamond Interchange
Directional Interchange
Single Point Interchange
Cloverleaf Interchange
Diverging Diamond Interchange

Interchanges are considered where conflicting high traffic volumes exceed those that can be handled efficiently and safely with at-grade intersections. They are also used to control access to the main highway. The location study for a proposed improvement recommends the type and location of a proposed interchange necessary to address these concerns. A precise analysis of traffic movement that justifies the necessity for an interchange is required. Depending on the complexity, appropriate modeling can include microsimulation or analysis using the Highway Capacity Manual. Access management guidelines are considered in analysis of operational and safety concerns.

MoDOT intends to provide access for all traffic movements at an interchange on the state highway system. In some cases, traffic volumes may not warrant the provision of ramps at the time of initial construction. However, right of way should be purchased to provide for the future ramps. The plans for initial construction of the interchange will show the location of future ramps for these traffic movements.

The selection of an appropriate interchange is influenced by such factors as highway classification, composition of traffic, anticipated operating speed, economics, terrain, available right of way and the degree of access control. An interchange is to be considered when warranted by the 20-year design traffic projection or safety concerns. The desired spacing between interchanges is two miles in current and projected urban areas and five miles in rural areas. Access Management Guidelines are also considered to determine the spacing of interchanges.

At times it may be necessary to construct a new interchange or revise an existing interchange on an interstate highway. When this occurs, access approval for new or revised access must be provided to FHWA for approval during the project development process and prior to making any changes to the interstate access.

Basic types of interchanges are:

Chapter 10 of the AASHTO Green Book provides examples of these interchange types. Controlling factors in the selection of an interchange type are: right of way requirements, vehicle speed, traffic volume, terrain, access control and cost. Interchanges are designed to fit specific local conditions and meet driver expectations.

Diamond interchanges are suitable in both rural and urban areas when the traffic on the minor crossroad is light to moderate. The greatest impediment to smooth operation is the volume of left-turning movements on the crossroad. Signal operations must be considered when designing a diamond interchange. Spacing between the ramps is critical for efficient movement of traffic through the interchange.

Directional interchanges accommodate high volume turning movements where two freeways intersect. Direct ramp movements reduce travel distance, increase speed and capacity, eliminate weaving and avoid the need for “out-of-direction” travel on a loop. These interchanges are costly to construct due to the increased number and length of ramps and the number of bridge crossings.

Single-point urban interchanges (SPUI) were first constructed in the early 1970s. Their primary feature is all four turning movements intersect at a common point. Therefore, the number of signals needed to control traffic is reduced. Furthermore, opposing left turn movements pass to the left of each other

Cloverleaf interchanges can be used where two high volume freeways intersect. Loop-ramps are used to accommodate left-turning movements. However, this configuration provides short weaving areas for traffic entering or leaving the interchange. A cloverleaf interchange occupies a relatively large area of right of way.

Additional Information
FHWA's Alternative Intersections/Interchanges Report

Diverging diamond interchanges (DDI) are diamond interchanges that more efficiently facilitates heavy left-turn movements. While the ramp configuration is similar to a traditional diamond interchange, traffic on the crossroad moves to the left side of the roadway for the segment between signalized ramp intersections.

Diverging Diamond Interchange Animation

In some circumstances, a “basic” interchange may not be the appropriate choice to satisfy the needs of the traveling public. The interchange that is designed may be a combination of the basic types or incorporate creative modifications. A Diverging Diamond Interchange (DDI) is one example.

The high cost of construction restricts the use of an interchange to those situations where the expenditure is justified. An interchange “warrants” construction based on consideration of the roadway’s design designation, traffic volume and safety of operation.