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Utility tunnel

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(Redirected from Utility corridor) Passage carrying utility lines
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This utility tunnel in Prague is equipped with railway tracks for maintenance vehicles

A utility tunnel, utility corridor, or utilidor is a passage built underground or above ground to carry utility lines such as electricity, steam, water supply pipes, and sewer pipes. Communications utilities like fiber optics, cable television, and telephone cables are also sometimes carried. One may also be referred to as a services tunnel, services trench, services vault, or cable vault. Smaller cable containment is often referred to as a cable duct or underground conduit. Direct-buried cable is a major alternative to ducts or tunnels.

Usage

Utility tunnels are common in very cold climates where direct burial below the frost line is not feasible (such as in Alaska, where the frost line is often more than 18 ft (5.5 m) below the surface, which is frozen year round). They are also built in places where the water table is too high to bury water and sewer mains, and where utility poles would be too unsightly or pose a danger (like in earthquake prone Tokyo). Tunnels are also built to avoid the disruption caused by recurring construction, repair and upgrading of cables and pipes in direct burial trenches.

Utility tunnels are also often common on large industrial, institutional, or commercial sites, where multiple large-scale services infrastructure (gas, water, power, heat, steam, compressed air, telecommunications cable, etc.) are distributed around the site to multiple buildings, without impeding vehicular or pedestrian traffic above ground. Due to the nature of these services, they may require regular inspection, repair, maintenance, or replacement, and therefore accessible utility tunnels are preferred instead of direct burying of the services in the ground.

Utility tunnels range in size from just large enough to accommodate the utility being carried, to very large tunnels that can also accommodate human and even vehicular traffic.

Industrial, institutional, and municipal environments

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Utility tunnels are often installed in large industrial plants, as well as large institutions, such as universities, hospitals, research labs, and other facilities managed in common. Shared facilities, such as district heating, use superheated steam pipes routed through utility tunnels. On some university campuses, such as the Massachusetts Institute of Technology, many of the buildings are connected via large underground passages to allow easy movement of people and equipment.

Some municipalities, such as Prague in the Czech Republic, have installed extensive underground utility tunnels, to allow installation and maintenance of utility lines and equipment without disrupting the historic streets above.

Utility tunnels may attract urban explorers, who enjoy investigating hidden complex networks of spaces.

At Walt Disney World

Main article: Disney utilidor system

Some of the largest and most famous utility tunnels are at Disney theme parks. They were first built for Walt Disney World's Magic Kingdom in Florida. Smaller utilidor systems are built under the central section of Epcot's Future World, primarily beneath Spaceship Earth and Innoventions, and formerly at Pleasure Island. Disneyland also has a small utilidor through Tomorrowland. The utilidors are a part of Disney's "backstage" (behind-the-scenes) area. They allow Disney employees ("cast members") to perform park support operations, such as trash removal, out of the sight of guests.

Arctic towns

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Flin Flon (in Manitoba, Canada) is built on rock, making excavation costly. The utilidor in the foreground carries municipal sewer and water services and protects piping from freezing in the winter.

Utilidors are above-ground enclosed utility conduits that are used in larger communities in the northern polar region where permafrost does not allow the normal practice of burying water and sewer pipes underground. They can in particular be found in Inuvik, Northwest Territories and Iqaluit, Nunavut. Not all older homes are connected, and these must rely on trucks to deliver water and remove sewage. Most homes in rural Alaska (off the road system) are not equipped with plumbing and require fresh water and waste to be transported by personal vehicle such as snowmobile or four-wheeler ATV. Villages with utilidors are considered more advanced.

Utilidors may also be used to carry fuel lines, such as natural gas. They are not normally used to carry wiring for electric, telephone, and television service, which are usually suspended from poles.

Comparison with direct burial of utilities

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The advantages of utility tunnels are the reduction of maintenance manholes, one-time relocation, and less excavation and repair, compared to separate cable ducts for each service. When they are well mapped, they also allow rapid access to all utilities without having to dig access trenches or resort to confused and often inaccurate utility maps.

One of the greatest advantages is public safety. Underground power lines, whether in common or separate channels, prevent downed utility cables from blocking roads, thus speeding emergency access after natural disasters such as earthquakes, hurricanes, and tsunamis.

The following table compares the features of utility networks in single purpose buried trenches vs. the features of common ducts or tunnels:

Utility tunnels Direct burial
Higher initial capital cost for construction of tunnels Cheaper initial capital cost of burying individual infrastructure
Easy location of infrastructure Difficult location of infrastructure
Fast maintenance and replacement Slow maintenance and replacement
Less roadworks and traffic as maintenance can be done without disruption of traffic Increased roadworks and traffic
Reduced manholes on roads. Single manhole for all infrastructure Large numbers of manholes for various infrastructure types
Easy to coordinate between different infrastructure Hard to coordinate projects between infrastructure providers
Easy access for maintenance, upgrades and expansion of infrastructure Huge labour costs for regular re-burial
Easy access for maintenance Roads constantly need to be excavated for repair of various utilities.
Reduced future maintenance costs Increased risk of disruption
Shared initial capital costs between infrastructure providers (ie, water, gas, electric) Risk of damage to co-located infrastructure (eg: pipes, wiring & cables)
Reduced impact from outages due to increased maintenance speed
The low thermal conductivity of air in tunnels allows heat
transmission with less insulation and cheaper standoffs.
Reduced excavation and labour costs

Examples

Many examples of utility tunnels are found in Japan, where government officials have sought ways to reduce the catastrophic effects of earthquakes in their tectonically active country. Their use, however, is not limited to that country, and there are many examples of such utility tunnels. These include:

Gallery

See also

References

  1. "National Grid - Overview - Why a tunnel?". National Grid plc. Retrieved 2013-03-30.
  2. "Infrastructures: Common Utility Duct". MMA Group. 2006. Retrieved November 30, 2014.
  3. "Tokyo Underground". Big Empire. Retrieved November 30, 2014.
  4. . The Landmark Tower. Archived July 4, 2009, at the Wayback Machine
  5. Mitchell, Sandy (May 2006). "Prince Charles–not your typical radical". National Geographic
  6. "Archived copy" (PDF). Archived from the original (PDF) on 2013-10-17. Retrieved 2013-10-17.{{cite web}}: CS1 maint: archived copy as title (link)
  7. "Gujarat International Finance Tec-city: A Smart GIFT"
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