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Rail Freight in the U.S. Issues and Projects Emil Frankel PB March 2007
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Principal Characteristics Freight is the dominant element in the U.S. rail system –Less than 1% of gross ton-miles in U.S. is related to passenger service –That compares with 40% of gross ton-miles that is passenger traffic in Germany, 65% in Italy, 60% in U.K., and 35% in India –Only Russia and China compare to U.S. in the dominance of freight on their rail networks Almost all of the U.S. rail freight network is private- owned –Private RR companies set rates, decide where to provide service, and to begin/end it
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Historical Context A quarter-century ago, the industry was heavily regulated and declining –Reduced market share –9 railroads facing bankruptcy –Aging infrastructure Major deregulation and reform legislation was enacted –Staggers Rail Act of 1980 –Railroads given flexibility to reconfigure as needed
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Changes after Deregulation Railroads appropriately sized and capacity reduced to meet freight demand –U.S. rail network mileage decreased by 19% since 1990 Significant consolidation in rail industry Competition among railroads, and between railroads and other modes (particularly trucking) Rail traffic density increased more than 3 times between 1980 and 2006: less infrastructure carrying more freight Labor productivity (ton-km/employee) grew by 5 times between 1980 and 2006
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Current Conditions Major freight railroads are generally profitable Freight infrastructure is largely modernized Between 1987 and 1999, ton-mile traffic grew 52% and intermodal shipments grew 73% Lower rates accompany improved service U.S. CLASS I RAILROADS 2005 Freight RevenueUS$44.5 billion 2005 Net IncomeUS$4.9 billion Source: Association of American Railroads
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Role in U.S. Economy More than 30% of U.S. GDP is related to trade Increased trade = increased U.S. freight movement Efficient operations essential to economic growth –Gateway ports –Freight hubs –Freight network Rail freight will play an increasingly important role in overall economic performance
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Current Challenge How to provide capacity and operational efficiencies to meet projected demand? Some factors that produced financial success have become limitations –Excess rail freight capacity fully absorbed since deregulation; reserve capacity unavailable –In many places, traffic will exceed capacity Freight volume projections are challenging: –U.S. freight movement expected to double in 20 years –U.S. rail freight tonnage expected to grow 45% by 2020
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Key Issues Investment in new capacity is costly It competes with the need to maintain existing facilities/equipment –Trend in capital expenditures is 15-20% for expansion, remainder for maintenance Companies tend to prioritize capital projects that will maximize financial return –Crowded freight corridors or bottleneck configurations may not receive full investment needed Improved efficiencies at major hubs and at points of intermodal connection, and removing freight bottlenecks, are needed to assure economic growth
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Shared Projects Improvements at hubs and bottlenecks bring both private and public benefits, but neither sector, alone, is willing to bear full project costs Private benefits: –Increased operating efficiency; lower costs; better service Public benefits: –Energy efficiency (rail freight is 3-10 times more efficient than intercity trucking); reduced air and noise pollution; better coordination with commuter and intercity passenger rail service “Substituting rail for long distance trucks reduces highway congestion, road maintenance costs and truck Vehicle Miles Traveled.” - U.S. Federal Railroad Administrator Joseph Boardman, April 2006
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Shared Projects – Examples For such projects the costs should be shared, and public-private collaboration is necessary Examples: –The Alameda Corridor, Southern California –Freight Action Strategy for Everett-Seattle-Tacoma Corridor (FAST Corridor), Washington State –Chicago Region Environmental and Transportation Efficiency Program (CREATE), Chicago, Illinois –Heartland Corridor, Virginia/West Virginia/Ohio
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Alameda Corridor Originated 1981; construction began 1997; operations began 2002 Partnership: –Los Angeles Metropolitan Council of Governments –Federal, state and local government agencies –Ports of Long Beach and Los Angeles –Private rail freight companies Implemented by special purpose agency (Alameda Corridor Transportation Authority) Original goal to improve highway access to Ports Focus shifted to rail access to reduce road congestion, air pollution, and at- grade crossings
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Features Four rail lines consolidated; bridges and flyovers constructed; streets improved 32-km corridor double-tracked; 16km in trench to eliminate at-grade crossings Improved connections: more efficiency, speed and reliability in freight movement Project cost (US$2.4B) financed by: –Federal, state and local grants and loans –US$400M Federal loan –US$1.6B in bond financing Loans and bonds serviced/repaid from charges on loaded and empty containers going to and from Ports
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Outcomes Project regarded as a success, though congestion at ports is still a factor Traffic on the Alameda rail corridor doubled between 2002 and 2006 Significant reduction in rail congestion and environmental pollution Initial Federal loan repaid; other debt refinanced However: –Truck traffic is also increasing to serve the Ports –It is possible that the freight congestion is simply being moved away from the Ports and immediately adjacent communities to points further East
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FAST Corridor Partnership of 26 entities: –Local governments –Ports –Federal, state and regional agencies –Private rail and trucking interests Goals include: –Improving freight mobility and access to Ports of Everett, Seattle and Tacoma –Improving functionality, capacity and connectivity of regional maritime trade –Eliminating network bottlenecks –Providing safe at-grade crossings
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Features Individual corridor projects, some already completed: –Road improvements, traffic separation, grade separation, etc. Information exchange, financing and project activities coordinated to benefit program goals Private and public funding: –US$568M since 1998 to implement 9 strategic improvement projects and start 4 more Improvement projects would not have progressed without public-private cooperation
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CREATE Chicago is historic center of U.S. rail network –Connecting point for 6 of 7 Class I Railroads –Handles 1/3 of U.S. rail freight traffic, and significant commuter and intercity passenger rail operations Congestion and inefficiencies threaten rail freight operations in Chicago hub and on national network –Inadequate or outmoded track, switching, signaling systems; dangerous at-grade crossings “Chicago is in danger of becoming a bottleneck in the nation’s transportation system, and that would have serious consequences – not just for this city, but for the entire nation.” - Mayor Richard M. Daley, Chicago
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CREATE Project originated in 1990 Partnership: –City of Chicago –State of Illinois –U.S. Dept of Transportation –Metra (commuter rail operator) –6 Class I private freight Railroads –3 rail-switching companies Goals include: –Eliminating rail-highway conflicts –Improving safety –Reducing rail-to-rail congestion –Improving freight flows
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Features Includes scores of individual capital projects and operational improvements –Building flyovers; improving connections; modernizing and increasing rail freight capacity Estimated program cost US$1.5B–2B Class I Railroads to contribute US$232M (their estimated benefit) Federal, state and local grants of US$300M committed However … –Adequate financing for all necessary improvements not in place: private railroads reluctant to contribute more, and public financing subject to political pressures to divert funds to other projects –Cooperation between public and private sectors, and between hundreds of political jurisdictions, difficult to achieve and maintain
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Heartland Corridor Norfolk Southern (NS) is 1 of 2 main railroads serving ports on East Coast Port volume increasing; new mega terminals –Suez Canal traffic to eastern U.S. –Panama Canal expansion program Intermodal traffic is NS’s fastest growing commodity group for last 10 years –For North America rail industry, intermodal traffic now exceeds coal NS goal: –Improve rail freight connections to central U.S. and to rail connections in MidWest –Expected schedule 2007 – 2010
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Features Double-stack clearances, tunnel and bridge improvements, track realignments and relocations, and expansion of intermodal terminals Completed project will reduce mileage on existing routing, reduce transit times, improve efficiency, and allow for high- speed double-stack freight intermodal service Project cost US$151M –Federal funds –Virginia and Ohio state grants –NS investment
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Summary Private, deregulated U.S. rail industry, while financially sound, is no longer sized to meet freight traffic volume Inadequate capacity at ports, hubs, bottlenecks Public or private sector not ready to undertake needed investments alone—but together they can implement needed programs and realize mutual benefits Some current programs suggest U.S. rail freight network can meet demands of expanding world trade and associated freight movement Many similar opportunities exist that require public-private cooperation for implementation T H A N K Y O U
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