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Multibay and Multistory Buildings

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By far the most common form of building structure is the skeleton frame, which consists essentially of the vertical members, combined with a horizontal framing pattern. For tall buildings, the use of load-bearing walls with horizontal framing members has declined steadily; non load-bearing curtain walls are used most frequently.

The skeleton frame most often consists of multiples of the construction. For structures up to 40 stories high, reinforced concrete, steel, or composite-reinforced concrete and steel can be used in a variety of ways. The basic elements of the steel skeleton frame are vertical columns, horizontal girders spanning the longer distance between columns, and beams spanning shorter distances The frame is reinforced to prevent distortion and possible collapse because of uneven or vibratory loads. Lateral stability is provided by connecting the beams, columns, and girders; by the support given the structure by the floors and interior walls; and by diagonal bracing or rigid connections between columns, girders, and beams. Reinforced concrete can be used in a similar way, except that concrete shear walls would be used instead of diagonal bracing to provide lateral stability. Newer techniques of constructing moderately high buildings include inserting prefabricated units within the skeleton frame; cable hanging; and stacking.

For the insertion technique, a stable skeleton frame may be constructed with a utility core that includes fire stairs, elevators, plumbing, piping, and wiring. Prefabricated boxlike units then can be inserted in the openings between the horizontal and vertical framing. Removing and replacing the boxlike units could then make major changes in the future use of the building.

In hanging, a vertical utility core is built, and strong horizontal roof framing is anchored to the top of the core. All floors below, except at ground level, are supported by attaching them to the core and to tension members hung from the roof framing. After the core is complete, the floors are built from the top down.

Stacking is a construction technique in which prefabricated, boxlike units are raised by cranes and placed on top of and alongside each other and then are fastened together.

For buildings over 40 stories, typically steel had been considered the most appropriate material. However, recent advances in the development of high-strength concretes have made concrete competitive with steel. Tall buildings often require more sophisticated structural solutions to resist lateral loads, such as wind, and earthquake forces. One of the more popular structural systems is the exterior structural tube, which was used in the construction of the World Trade Center (411 m) in New York City. Here, closely spaced columns connected rigidly to the horizontal spandrel beams on the perimeter of the building provide sufficient strength to resist loads and the stiffness to minimize lateral deflections. The structural tube has now been used with concrete and with composite construction consisting of structural steel members encased in reinforced concrete.

For very tall buildings, the mixing of steel and concrete is becoming more popular. The high strength-to-weight ratio of steel is excellent for the horizontal spanning members. High-strength concretes can economically provide the compression resistance needed for vertical members. In addition, the mass and internal damping properties of the concrete assist in minimizing vibration effects, which are potential problems in very tall buildings

Communications and Power Systems

The growing use of power, telephone, and facsimile transmission equipment and of closed circuit television, intercommunication, and security and alarm systems has increased the amount of wiring that must be installed in buildings. Main cables run vertically in open shafts, with branches at each floor running through conduits located either in the hung ceiling space or embedded in the floor slab itself. The electrical power required in buildings has increased with the number and complexity of environmental systems in operation. Because a power outage cannot be tolerated, emergency power generators are installed in an increasing number of buildings. Some buildings, particularly in remote locations, are equipped with their own primary electrical generating systems Diesel and gas-turbine generators are used. The heat generated by these engines, instead of being wasted, is sometimes utilized for other purposes within the building.

Vertical Transportation

Elevators, especially high-speed, automatically controlled, cable-operated elevators, are the major form of vertical transportation in high-rise structures. Low-rise buildings and the lower floors of commercial buildings may also have escalators. For fire protection, it is necessary to provide at least two means of egress from every major space in a building. Therefore, in addition to elevators and escalators, all buildings, even the tallest, have two enclosed and protected stairways for their entire height.

Water Supply and Waste Disposal

Buildings must have a piped-in water supply for a variety of purposes: drinking, washing, cooking, waste disposal, internal fire fighting (either through standpipes and hoses or through automatic sprinklers), and service to air-conditioning systems or boilers.

Disposal of wet and dry wastes in buildings is accomplished by a variety of devices, such as incinerators, shredders, and garbage compactors. There are also devices that assist waste-pickup and disposal systems. The usual method of carrying away waterborne waste is through piping connected to the sewer system outside the building. New technology is aimed at recycling water to reduce waste and pollution.

 

 

UNIT 5

 

Text A


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