1. 1 Infrastructure and Society 2 Infrastructure Definition
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1.3 Historical Overview of Infrastructure Development The trend toward major infrastructure development in the industrial nations, especially in road and bridge construction, began in the 18th century- In the 19th century, major infrastructure development paralleled economic development. Street construction technology was improved by using asphalt and concrete to facilitate all-weather auto- The Big Picture 9 mobile traffic. Most modem roadways have been constructed since 1900. Prior .to that, railroads were the primary mode of long-distance surface transportation during the 19th century and early 20th century. Philadelphia was the first city to initiate the construction of a large-scale municipal water supply system in 1798, followed by New York and Boston by the mid" 19th century [Grigg 88]. A chronological summary listing of infrastructure milestones in the present century is presented below [Infra 92, Horonjeff94].
Oregon, San Francisco's Trans Bay Bridge; Golden Gate suspension bridges; the Blue Ridge Parkway; establishment of the Tennessee Valley Authority (TVA); 1938 Civil Aeronautics Act defining federal government role in aviation; Germany's invasion of Poland and start of World War II. 1940-1949. Creation of the Pentagon; construction of military air fields; construction of the 2270 km (1420 mi) Alaska Highway, the Pennsylvania Turnpike, the Grand Coulee Dam (concrete construction) and hydro-electric power station; nuclear research leading to the atomic bomb and later to nuclear power generation; end of the war in 1945; slip-form concrete paver introduced; Federal-Aid Highway Act of 1944 authorizing more than $1.6 billion over three years and the designation of a National System of Interstate Highways; Federal Airport Act of 1946; postwar construction of the Maine Turnpike and conversion of 500 military airports to civilian use. 1950-1959. Large-scale toll-road construction started with the 189-km (118-mi) $225 million New Jersey Turnpike; construction of the first prestressed concrete bridge (the Walnut Lane Bridge in Philadelphia) and the first segmented concrete bridge (the Griffith Road Bridge in New York State); start of hauling of truck trailers on rail flat-bed cars ; construction of the nation's first commercial nuclear power plant in Pennsylvania; the first transcontinental telephone cable in operation; Federal Aid Highway Act of 1956 authorizing 65,600 km (41,000 mi) of National System of Interstate and Defense Highways at an estimated $41 billion and establishment of the Highway Trust Fund; construction and testing of the $27 million AASHO Road Test to produce -data for improved highway design; Federal Aviation Act of 1958 establishing the Federal Aviation Agency. 1961-1969. Space Age initiated with the first American in orbit in 1962, the first moonwalk in 1969, and construction of National Aeronautical Space Administration (NASA) facilities; construction of the 28-km (17.6-mi) long, $200 million Chesapeake Bay Bridge-Tunnel; construction of the Oroville Dam (earthen fill dam) in Northern California; start of construction on 26 nuclear power plants; passage by Congress of the Water Quality Act in 1965, the National Environmental Protection Act in 1969, and creation of a cabinet-level U.S. Department of Transportation (DOT) in 1967, which included the Federal Highway Administration, the Urban Mass Transportation Administration, the Federal Aviation Administration, the Federal Railroad Administration and Maintenance Administration; collapse of the 39-year-old Silver Bridge over the Ohio River and, as a result, development of national bridge-inspection standards and conception of a bridge-replacement program. The Big Picture 11 1970-1979. Authorization by Congress of $250 million to start the bridge-replacement program; establishment of the Occupational Safety and Health Administration (OSHA), U.S. Environmental Protection Agency (EPA); Airport and Airway Development Act of 1970, Airline Deregulation Act of 1978, and Aviation Safety and Noise Abatement Act of 1979; passages by Congress of the Clean Air Act; Federal Water Pollution Act authorizing $18 billion for construction of waste-water treatment plants; authorization by Congress of the 1280-krp (800-mi) long Alaskan Oil pipeline and tanker terminal; construction of JFK Causeway in Corpus Christi, a cable-stayed bridge in Alaska and the first cast-in-place segmented Pine Valley bridge near San Diego; opening of the Bay Area Rapid Transit (BART) System in San Francisco; Federal Aid Highway Act permitting limited use of federal funds for urban mass-transit projects; first trial of asphalt recycling for road construction; first Earth Day in 1970. 1980-1989. Rebuilding highways without shutting down traffic; Congress expands the 4R program with the federal match of 90 percent; the Surface Transportation Assistance Act of 1982 raising the fuel tax on gasoline from 4 to 9 cents per gallon, with 1 cent earmarked for mass transit; 72,000-km (45,000-mi) long interstate system near completion; Airport and Airway Improvement Act of 1982; construction of the first roller-compacted Willow Creek Dam in Oregon; earthquakes creating major damage in Mexico and California.
Airway Safety and Capacity Expansion Act of 1990; the 1991 Intermodal Surface Transportation Efficiency Act (ISTEAt authorizing $155 billion over six years with emphasis on maintenance, service life analysis, and management systems; 1992 Chicago flood and Hurricane Andrew in South Florida; rebuilding infrastructure in Kuwait after the 1991 Gulf War, attracting U.S. and other international contractors; other significant global changes, including the collapse of the Berlin Wall, opening of East European countries to the West. breakup of Soviet Union into independent republics and end of Cold War. Post-1992. Recession in the US and world economies; increased emphasis to reduce federal spending, including the administrative cost in US DOT budget and Amtrak budget; continuation of highway rehabilitation projects and establishment of a high-quality national highway system (NHS) consisting of nearly 256,000 km (160,000 mi); opening of the new Denver International Airport; construction of Olympic facilities in Atlanta; the 1994 ice-storm damage to electric-power stations and water-supply systems in the Midsouth region; enormous infrastructure damages during the 1994 Los Angeles earthquake in the United States, and the 1995 Kobe earthquake in Japan. 1.4 Infrastructure Assets 1.4.1 Categories of infrastructure facilities Physical facilities and related services can be categorized in seven groups based on their primary functions and services, as shown in Table i table 1.1 Categories of infrastructure assets.
1. TRANSPORTATION
2. WATER AND WASTE WATER 
7. COMMUNICATION
The Big Picture 13 In the United States, most of the roads, airports, urban mass-transit infrastructure facilities, water and wastewater facilities, and waste-management facilities are built and maintained by public agencies- Both public agencies and private enterprises are involved in energy production and distribution infrastructure, buildings, and recreational facilities. Railroad facilities and communications infrastructure are historically built and managed by the private sector. The following subgroups of infrastructure assets include most of the publicly and privately owned and managed facilities used to provide the essential services to support and sustain the civilian life in a nation. 1.4.1.1 Transportation • Ground transportation (roads, bridges, tunnels, railroads) • Air transportation (airports, heliports, ground facilities, air-traffic control) • Waterways and ports (shipping channels, main terminals, dry docks, ports) • Intermodal facilities (rail-airport terminals, truck/rail/port terminals) " Mass transit (subways, bus transit, light rail, monorails, platforms/stations) 1.4.1.2 Water and waste water • Water supply (pumping stations, treatment plants, main water lines, wells, mechanical/ electric equipment) • Structures (dams, diversion, structures, tunnels, aqueducts) • Agricultural water distribution (canals, rivers, weir, gates, dikes) • Sewer (main sewer lines, septic tanks, treatment plants, storm-water drains)
• Solid waste • Hazardous waste • Nuclear waste 1.4.1.4 Energy production and distribution • Electric power production (hydro-electric power stations; gas-, oil-, and coal-fueled power generation) • Electric power distribution (high-voltage power transmission lines, substations, distribution systems, energy-control center, service and maintenance facilities) • Gas pipeline (gas production, pipeline, computer stations and control centers, storage tanks, service and maintenance facilities) • Petroleum/oil production (pumping stations, oil/gas separation plants, roads) • Petroleum/oil distribution (marine and ground tanker terminals, pipelines, pumping stations, maintenance facilities, storage tanks) • Nuclear power stations (nuclear reactors, power-generation stations, .nuclear waste disposal facilities, emergency equipment and facilities)
• Tall buildings—residential/commercial (structures, utilities, swimming pools, security, ground access, parking) " Public buildings (schools, hospitals, government offices, police stations, fire stations, postal offices, parking structures) • Multipurpose complexes (coliseums, amphitheaters, convention centers, religious congregation buildings) • Sports complexes (indoor, stadiums, golf courses) • Movie theaters (indoor, drive-in) • Housing facilities (public, private) • Manufacturing/warehouse facilities • Hotels/commercial properties (hotels, inns, time-sharing units, clubs, malls) 1.4.1.6 Recreational tactlrttes • Parks and playgrounds (roads, parking areas, recreational facilities, office buildings, rest rooms, ornamental fountains, swimming pools, picnic areaa) • Lake and water sports (roads, parking areas, picnic areas, marinas) • Theme parks/casinos (access roads, buildings, restaurants, security facilities, structures)
• Telecommunications network (telephone-exchange stations, cable distribution, power supplies, switching and data-processing centers, buildings, transmission towers, and repeat stations) The Big Picture 15 • Television/cable network (production stations, transmission facilities, cable distribution, power supply, buildings) • Wireless/satellite network (satellites, ground-control centers, communication systems, receivers, buildings, services and maintenance facilities) • Information highway network (computer networks, cable distribution, data-processing hardware/ software, on-line and off-line systems, information sources, buildings, backup and recording mediums) 1.4.2 Examples of infrastructure assets The road network in the United States exceeds 6 million km (3.9 million mi), as shown in Figure 1.4 by functional classification [Abstract 94]. While the interstate highway system is about 1 percent of the total road network, it carries over 20 percent of the heavy-truck traffic [Choate 81]. As a part of the ISTEA (Intermodal and Surface Transportation Efficiency Act) legislation. Congress has designated about 256,000 km (160,000 mi) of road as the National Highway System (NHS) in 1995, Although the NHS will comprise only 4 percent of the nation's roads, it carries 40 percent of auto travel and 75 percent of truck traffic, and connects 95 percent of the businesses and 90 percent of the households in the United States [FHWA 96]. The national bridge inventory contains 577,000 bridges of which 70 percent were constructed prior to 1935. Many of these bridges are more than 50 years old, and 40 percent are, by reasons of their condition or appraisal, eligible candidates for rehabilitation or replacement [Golabi 92]. Figure 1.5 shows the distribution of national transit ways by mode [Abstract 94]. A World Bank study [Faiz 87] provides an overview on the status of main roads in 85 developing countries that have received $9.4 billion in road-assistance programs from the World Bank during the years 1974 to 1985. The aggregate length of the main road systems in these countries is about 1.8 million km, of which slightly more than 1 million km are paved. The main roads carry about 70 to 80 percent of the interurban traffic. Historically, airports have been reliable and stable and have kept pace with the technological developments in air-traffic-control systems and aircraft fleet. Figure 1.6 shows the advances in aircraft fleet as a result of travel demand [Horonj'en'94]. Average passenger capacity per aircraft was 106 seats in 1969, which grew to 162 seats by 1978 and 181 seats by 1989. New wide-bodied aircraft have a capacity of 300-500 passengers. In 1978, about 250 million passengers in the United States traveled by air, and by 1989 this figure had already reached 445 million [Hamiel 92]. The worldwide airline fleet in 1975-1978 was somewhere in the vicinity of 3,500 to 4,000 aircrafts; by 1989 the fleet grew to 7,441 aircrafts as estimated by Boeing andAirmark. The railroad network in the United States has been used largely for bulk freight over long distance since the 1960s. Light-rail trains have become effective in some large urban areas. In Europe, Japan, and The Big Picture 17 ^ o o 0. *J ^
« n e y 454000kg Okg
1930 1940 1950 1960 1970 1980 Year of entry io icrvice
Figure 1.6 Trends in the gross weight of transport aircraft, [after Horonjeff 94]. other parts of the world, railroads are a popular mode of passenger travel. Major technological advances in speed and equipment have been made in Europe and Japan. The oil crisis of the early 1970s spurred new exploration of oil and gas all over the globe. Super oil-tanker fleets are being used to transport oil and liquefied gas across oceans. Figure 1.7 shows the US
PETROLEUM 4 0 50 100 150 200 250 THOUSAND MILES Figure 1.7 US national pipeline network mileage by mode, 1992. [Abstract 94]. pipeline infrastructure mileage of natural gas and petroleum [Abstract 94]. 1.4.3 Urban infrastructure There is a worldwide trend to increased urbanization. About 40 percent of the world population now lives in cities. In the United States, approximately 90 percent of the population inhabits 10 percent of the land [Bragdon 951. Urban infrastructure and related public services are therefore crucial to our society. For illustration, the following summary of New York City's infrastructure assets is presented [Wagner 84]: New York City's capital needs are enormous. The extent and variety of New York^s infrastructure are extraordinary: • Forty-seven waterway bridges and 2,057 highway bridges and elevated structures. • A water-supply system that delivers 1.45 billion gallons of water a day from a reservoir system of 1,956 sq. mi. It delivers water through two tunnels (a third is under construction), 32 billion linear feet of trunk and distribution mains, and 20,000 trunk valves. • 6,100 mi of sewers, 12 operating water-pollution-control plants and 450 combined sewer-overflow regulators. • 6,200 mi of paved streets that cover approximately 30 percent of the city's land. • 6,700 subway cars that ride on 232 mi of track (137 mi underground, 72 mi elevated, and 23 mi open bed) and 4,560 buses, • An estimated 3,500 acres of landfill, and nine marine transfer stations. • Over 25,000 acres of parkland. 1.5 Life-cycle Analysis in Planning and Design The infrastructure construction boom of the 1950s, 1960s, and 1970s m the United States, Europe, and other parts of the world resulted in numerous projects and advances in planning and design practices. Availability and use of computers and telecommunication facilities have helped in these accomplishments. Operational management of the facilities and services has also advanced. However, until recently, much of the infrastructure development did not consider maintenance, future rehabilitation/renovation, and replacement activities in overall planning and costing. Scheduled maintenance has been generally based on experience or on "crisis" urgency. Consequently, the quality of The Big Picture 19 Initial Construction Cost Life Cycle or
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