Intermodal freight transport

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Containers being transferred to a cargo ship at the container terminal in Bremerhaven, Bremen, Germany Cranes ct4-bhv hg.jpg
Containers being transferred to a cargo ship at the container terminal in Bremerhaven, Bremen, Germany
Intermodal ship-to-rail transfer of containerized cargos at terminals in Portsmouth, Virginia, United States APM Terminals WJ Grimes.JPG
Intermodal ship-to-rail transfer of containerized cargos at terminals in Portsmouth, Virginia, United States

Intermodal freight transport involves the transportation of freight in an intermodal container or vehicle, using multiple modes of transportation (e.g., rail, ship, aircraft, and truck), without any handling of the freight itself when changing modes. The method reduces cargo handling, and so improves security, reduces damage and loss, and allows freight to be transported faster. Reduced costs over road trucking is the key benefit for inter-continental use. This may be offset by reduced timings for road transport over shorter distances.

Contents

Origins

A stagecoach transferred to a railroad car with a gantry crane, an example of early intermodal freight transport by the French Mail in 1844; the drawing is exhibited in Deutsches Museum Verkehrszentrum in Munich. Maschine zum Ubersetzen der Diligencen auf Eisenbahnwaggons.JPG
A stagecoach transferred to a railroad car with a gantry crane, an example of early intermodal freight transport by the French Mail in 1844; the drawing is exhibited in Deutsches Museum Verkehrszentrum in Munich.

Intermodal transportation has its origin in 18th century England and predates the railways. Some of the earliest containers were those used for shipping coal on the Bridgewater Canal in England in the 1780s. Coal containers (called "loose boxes" or "tubs") were soon deployed on the early canals and railways and were used for road/rail transfers (road at the time meaning horse-drawn vehicles).

Wooden coal containers were first used on the railways in the 1830s on the Liverpool and Manchester Railway. In 1841, Isambard Kingdom Brunel introduced iron containers to move coal from the vale of Neath to Swansea Docks. By the outbreak of the First World War the Great Eastern Railway was using wooden containers to trans-ship passenger luggage between trains and sailings via the port of Harwich.

The early 1900s saw the first adoption of covered containers, primarily for the movement of furniture and intermodal freight between road and rail. A lack of standards limited the value of this service and this in turn drove standardisation. In the U.S. such containers, known as "lift vans", were in use from as early as 1911.

Intermodal container

Early containers

Transferring freight containers on the London, Midland and Scottish Railway in 1928 LMS freight containers on lorry and rail wagon (CJ Allen, Steel Highway, 1928).jpg
Transferring freight containers on the London, Midland and Scottish Railway in 1928

In the United Kingdom, containers were first standardised by the Railway Clearing House (RCH) in the 1920s, allowing both railway-owned and privately-owned vehicles to be carried on standard container flats. By modern standards these containers were small, being 1.5 or 3.0 meters (4.9 or 9.8 ft) long, normally wooden and with a curved roof and insufficient strength for stacking. From 1928 the London, Midland & Scottish Railway offered "door to door" intermodal road-rail services using these containers. This standard failed to become popular outside the United Kingdom.

Pallets made their first major appearance during World War II, when the United States military assembled freight on pallets, allowing fast transfer between warehouses, trucks, trains, ships, and aircraft. Because no freight handling was required, fewer personnel were needed and loading times were decreased.

Truck trailers were first carried by railway before World War II, an arrangement often called "piggyback", by the small Class I railroad, the Chicago Great Western in 1936. The Canadian Pacific Railway was a pioneer in piggyback transport, becoming the first major North American railway to introduce the service in 1952. In the United Kingdom, the big four railway companies offered services using standard RCH containers that could be craned on and off the back of trucks. Moving companies such as Pickfords offered private services in the same way.

Containerization

In 1933 in Europe, under the auspices of the International Chamber of Commerce, The Bureau International des Containers et du Transport Intermodal (BIC; English: International Bureau for Containers and Intermodal Transport) was established. In June 1933, the BIC decided about obligatory parameters for container use in international traffic. Containers handled by means of lifting gear, such as cranes, overhead conveyors, etc. for traveling elevators (group I containers), constructed after July 1, 1933. Obligatory Regulations:

Obligatory norms for European containers since 1 July 1933[ citation needed ]
CategoryLength [m (ft in)[m (ft in)][m (ft in)]Total mass [tons]
Heavy types
Close type 623.25 m (10 ft 8 in)2.15 m (7 ft 58 in)2.20 m (7 ft 2+58 in)5 t (4.92 long tons; 5.51 short tons)
Close type 422.15 m (7 ft 58 in)2.15 m (7 ft 58 in)2.20 m (7 ft 2+58 in)
Open type 613.25 m (10 ft 8 in)2.15 m (7 ft 58 in)1.10 m (3 ft 7+14 in)
Open type 412.15 m (7 ft 58 in)2.15 m (7 ft 58 in)1.10 m (3 ft 7+14 in)
Light Type
Close type 222.15 m (7 ft 58 in)1.05 m (3 ft 5+38 in)2.20 m (7 ft 2+58 in)2.5 t (2.46 long tons; 2.76 short tons)
Close type 2012.15 m (7 ft 58 in)1.05 m (3 ft 5+38 in)1.10 m (3 ft 7+14 in)
Open type 212.15 m (7 ft 58 in)1.05 m (3 ft 5+38 in)1.10 m (3 ft 7+14 in)

In April 1935, BIC established a second standard for European containers: [1]

Obligatory norms for European containers since 1 April 1935
CategoryLength [m (ftin)]Width [m (ftin)]High [m (ftin)]Total mass [tons]
Heavy types
Close 623.25 m (10 ft 8 in)2.15 m (7 ft 58 in)2.55 m (8 ft 4+38 in)5 t (4.92 long tons; 5.51 short tons)
Close 422.15 m (7 ft 58 in)2.15 m (7 ft 58 in)2.55 m (8 ft 4+38 in)
Open 613.25 m (10 ft 8 in)2.15 m (7 ft 58 in)1.125 m (3 ft 8+516 in)
Open 412.15 m (7 ft 58 in)2.15 m (7 ft 58 in)1.125 m (3 ft 8+516 in)
Light Type
Close 321.50 m (4 ft 11 in)2.15 m (7 ft 58 in)2.55 m (8 ft 4+38 in)2.5 t (2.46 long tons; 2.76 short tons)
Close 221.05 m (3 ft 5+38 in)2.15 m (7 ft 58 in)2.55 m (8 ft 4+38 in)
Highway semi-trailers in piggyback service in Albuquerque, New Mexico Roadrailers.jpg
Highway semi-trailers in piggyback service in Albuquerque, New Mexico

In the 1950s, a new standardized steel Intermodal container based on specifications from the United States Department of Defense began to revolutionize freight transportation. The International Organization for Standardization (ISO) then issued standards based upon the U.S. Department of Defense standards between 1968 and 1970.

The White Pass & Yukon Route railway acquired the world's first container ship, the Clifford J. Rogers, built in 1955, and introduced containers to its railway in 1956. In the United Kingdom the modernisation plan, and in turn the Beeching Report, strongly pushed containerization. British Railways launched the Freightliner service carrying 8-foot (2.4 m) high pre-ISO containers. The older wooden containers and the pre-ISO containers were rapidly replaced by 10-and-20-foot (3.0 and 6.1 m) ISO standard containers, and later by 40-foot (12 m) containers and larger.

In the U.S., starting in the 1960s, the use of containers increased steadily. Rail intermodal traffic tripled between 1980 and 2002, according to the Association of American Railroads (AAR), from 3.1 million trailers and containers to 9.3 million. Large investments were made in intermodal freight projects. An example was the US$740 million Port of Oakland intermodal rail facility begun in the late 1980s. [2] [3]

Since 1984, a mechanism for intermodal shipping known as double-stack rail transport has become increasingly common. Rising to the rate of nearly 70% of the United States' intermodal shipments, it transports more than one million containers per year. The double-stack rail cars design significantly reduces damage in transit and provides greater cargo security by cradling the lower containers so their doors cannot be opened. A succession of large, new, domestic container sizes was introduced to increase shipping productivity. In Europe, the more restricted loading gauge has limited the adoption of double-stack cars. However, in 2007 the Betuweroute, a railway from Rotterdam to the German industrial heartland, was completed, which may accommodate double-stacked containers in the future. Other countries, like New Zealand, have numerous low tunnels and bridges that limit expansion for economic reasons.

Since electrification generally predated double-stacking, the overhead wiring was too low to accommodate it. However, India is building some freight-only corridors with the overhead wiring at 7.45 m above rail, which is high enough. [4]

Containers and container handling

Intermodal ship-to-rail transfer of containerized cargos at the port in Long Beach, California Intermodal ship-to-rail transfer.JPG
Intermodal ship-to-rail transfer of containerized cargos at the port in Long Beach, California
Small intermodal terminal in Chippewa Falls on the Canadian National line Small intermodal terminal in Chippewa Falls on the Canadian National line.jpg
Small intermodal terminal in Chippewa Falls on the Canadian National line

Containers, also known as intermodal containers or ISO containers because the dimensions have been defined by ISO, are the main type of equipment used in intermodal transport, particularly when one of the modes of transportation is by ship. Containers are 8-foot (2.4 m) wide by 8-foot (2.4 m) or 9-foot-6-inch (2.90 m) high. Since introduction, there have been moves to adopt other heights, such as 10-foot-6-inch (3.20 m). The most common lengths are 20 feet (6.1 m), 40 feet (12 m), 45 feet (14 m), 48 and 53 feet (15 and 16 m), although other lengths exist. The three common sizes are:

In countries where the railway loading gauge is sufficient, truck trailers are often carried by rail. Variations exist, including open-topped versions covered by a fabric curtain are used to transport larger loads. A container called a tanktainer , with a tank inside a standard container frame, carries liquids. Refrigerated containers (reefer) are used for perishables. Swap body units have the same bottom corners as intermodal containers but are not strong enough to be stacked. They have folding legs under their frame and can be moved between trucks without using a crane.

Handling equipment can be designed with intermodality in mind, assisting with transferring containers between rail, road and sea. These can include:

Load securing in intermodal containers

According to the European Commission Transportation Department "it has been estimated that up to 25% of accidents involving trucks can be attributable to inadequate cargo securing". [7] Cargo that is improperly secured can cause severe accidents and lead to the loss of cargo, the loss of lives, the loss of vehicles, ships and airplane; not to mention the environmental hazards it can cause. There are many different ways and materials available to stabilize and secure cargo in containers used in the various modes of transportation. Conventional Load Securing methods and materials such as steel banding and wood blocking & bracing have been around for decades and are still widely used. In the last few years the use of several, relatively new and unknown Load Securing methods have become available through innovation and technological advancement including polyester strapping and -lashing, synthetic webbings and Dunnage Bags, also known as air bags.

Transportation modes

Container ships

The 300-meter (984-foot) long container ship Balzac in Zeebrugge port in Belgium CMA CGM Balzac.jpg
The 300-meter (984-foot) long container ship Balzac in Zeebrugge port in Belgium

Container ships are used to transport containers by sea. These vessels are custom-built to hold containers. Some vessels can hold thousands of containers. Their capacity is often measured in TEU or FEU. These initials stand for "twenty-foot equivalent unit," and "forty-foot equivalent unit," respectively. For example, a vessel that can hold 1,000 40-foot containers or 2,000 20-foot containers can be said to have a capacity of 2,000  TEU. After the year 2006, the largest container ships in regular operation are capable of carrying in excess of 15,000  TEU. [8] [9]

On board ships they are typically stacked up to seven units high.

A key consideration in the size of container ships is that larger ships exceed the capacity of important sea routes such as the Panama and Suez canals. The largest size of container ship able to traverse the Panama canal is referred to as Panamax, which is presently around 5,000  TEU. A third set of locks is planned as part of the Panama Canal expansion project to accommodate container ships up to 12,000  TEU in future, comparable to the present Suezmax. [10]

Very large container ships also require specialized deep water terminals and handling facilities. The container fleet available, route constraints, and terminal capacity play a large role in shaping global container shipment logistics. [11] [12]

Railways

40 foot containers on the BNSF line through La Crosse Intermodal train 01.jpg
40 foot containers on the BNSF line through La Crosse
Spine cars with semi trailers on them Spine car 02.jpg
Spine cars with semi trailers on them
The top 15 intermodal train terminal markets Top 15 intermodal train terminal markets.jpeg
The top 15 intermodal train terminal markets

Increasingly, containers are shipped by rail in container well cars. These cars resemble flatcars but have a container-sized depression, or well, in the middle of the car between the bogies or trucks. Some container cars are built as an articulated "unit" of three or five permanently coupled cars, each having a single bogie rather than the two bogies normally found on freight cars.

Containers can be loaded on flatcars or in container well cars. In North America, Australia and Saudi Arabia, where vertical clearances are generally liberal, this depression is sufficient for two containers to be loaded in a "double-stack" arrangement. In Europe, height restrictions imposed by smaller structure gauges, and frequent overhead electrification, prevent double-stacking. Containers are therefore hauled one-high, either on standard flatcars or other railroad cars – but they must be carried in well wagons on lines built early in the Industrial Revolution, such as in the United Kingdom, where loading gauges are relatively small.

610 mm (2 ft) narrow-gauge railways have smaller wagons that do not readily carry ISO containers, nor do the 30-foot (9.14 m) long and 7-foot (2.13 m) wide wagons of the 762 mm (2 ft 6 in) gauge Kalka-Shimla Railway. Wider narrow gauge railways of e.g. 914 mm (3 ft) and 1,000 mm (3 ft 3+38 in) gauge can take ISO containers, provided that the loading gauge allows it.

It is also common in North America and Australia to transport semi-trailers on railway flatcars or spine cars, an arrangement called "piggyback" or TOFC (trailer on flatcar) to distinguish it from container on flatcar (COFC). Some flatcars are designed with collapsible trailer hitches so they can be used for trailer or container service. [13] Such designs allow trailers to be rolled on from one end, though lifting trailers on and off flatcars by specialized loaders is more common. TOFC terminals typically have large areas for storing trailers pending loading or pickup. [14]

Thievery has become a problem in North America. Sophisticated thieves learn how to interpret the codes on the outside of containers to ascertain which ones have easily disposable cargo. They break into isolated containers on long trains, or even board slowly moving trains to toss the items to accomplices on the ground. [15]

Trucks

A truck transporting a container on Interstate 95 in South Florida Intermodal Transport by Truck.JPG
A truck transporting a container on Interstate 95 in South Florida

Trucking is frequently used to connect the "linehaul" ocean and rail segments of a global intermodal freight movement. This specialized trucking that runs between ocean ports, rail terminals, and inland shipping docks, is often called drayage, and is typically provided by dedicated drayage companies or by the railroads. [16] As an example, since many rail lines in the United States terminate in or around Chicago, Illinois, the area serves as a common relay point for containerized freight moving across the country. Many of the motor carriers call this type of drayage “crosstown loads” that originate at one rail road and terminate at another. For example, a container destined for the east coast from the west will arrive in Chicago either via the Union Pacific or BNSF Railway and have to be relayed to one of the eastern railroads, either CSX or Norfolk Southern.

Barges

Barges utilising ro-ro and container-stacking techniques transport freight on large inland waterways such as the Rhine/Danube in Europe and the Mississippi River in the U.S. [5]

Land bridges

The term landbridge or land bridge is commonly used in the intermodal freight transport sector. When a containerized ocean freight shipment travels across a large body of land for a significant distance, that portion of the trip is referred to as the "land bridge" and the mode of transport used is rail transport. There are three applications for the term.

The term reverse land bridge refers to a micro land bridge from an east coast port (as opposed to a west coast port in the previous examples) to an inland destination.

Planes and aircraft

A U.S. Army CH-47 Chinook helicopter carries a sling-loaded 20 foot shipping container during retrograde operations and base closures in the Wardak province of Afghanistan A U.S. Army CH-47 Chinook helicopter carries a sling-loaded shipping container during retrograde operations and base closures in the Wardak province of Afghanistan 131026-A-SM524-737.jpg
A U.S. Army CH-47 Chinook helicopter carries a sling-loaded 20 foot shipping container during retrograde operations and base closures in the Wardak province of Afghanistan
Tri-con being loaded onto a C-130 in Afghanistan Retrograde Operations, Afghanistan 130922-F-YL744-210.jpg
Tri-con being loaded onto a C-130 in Afghanistan

Generally modern, bigger planes usually carry cargo in the containers. Sometimes even the checked luggage is first placed into containers, and then loaded onto the plane. [19] [ unreliable source? ] Of course because of the requirement for the lowest weight possible (and very important, little difference in the viable mass point), and low space, specially designed containers made from lightweight material are often used. Due to price and size, this is rarely seen on the roads or in ports. However, large transport aircraft make it possible to even load standard container(s), or use standard sized containers made of much lighter materials like titanium or aluminium.

Biggest shipping liner companies by TEU capacity

Top 20 container shipping companies in order of TEU capacity, 6 January 2016
CompanyTEU capacity [20] Number of ships [21]
A.P. Moller-Maersk Group 2,996,188585
Mediterranean Shipping Company 2,678,779496
CMA CGM 1,819,351460
Evergreen Marine Corporation 931,849195
Hapag-Lloyd 930,398174
COSCO 870,222162
CSCL 684,640134
Hamburg Süd 645,889136
Hanjin Shipping 626,217104
OOCL 561,522104
MOL 554,42598
Yang Ming Marine Transport Corporation 538,912102
APL 535,00786
UASC 512,78557
NYK Line 495,723104
K Line 386,26566
Hyundai Merchant Marine 379,39257
Pacific International Lines 362,131147
Zim 358,26482
Wan Hai Lines 215,24485

See also

Related Research Articles

<span class="mw-page-title-main">Containerization</span> Intermodal freight transport system

Containerization is a system of intermodal freight transport using intermodal containers. Containerization, also referred as container stuffing or container loading, is the process of unitization of cargoes in exports. Containerization is the predominant form of unitization of export cargoes today, as opposed to other systems such as the barge system or palletization. The containers have standardized dimensions. They can be loaded and unloaded, stacked, transported efficiently over long distances, and transferred from one mode of transport to another—container ships, rail transport flatcars, and semi-trailer trucks—without being opened. The handling system is mechanized so that all handling is done with cranes and special forklift trucks. All containers are numbered and tracked using computerized systems.

<span class="mw-page-title-main">Intermodal container</span> Standardized reusable steel box used for transporting goods

An intermodal container, often called a shipping container, or cargo container, (or simply “container”) is a large metal crate designed and built for intermodal freight transport, meaning these containers can be used across different modes of transport – such as from ships to trains to trucks – without unloading and reloading their cargo. Intermodal containers are primarily used to store and transport materials and products efficiently and securely in the global containerized intermodal freight transport system, but smaller numbers are in regional use as well. It is like a boxcar that does not have wheels. Based on size alone, up to 95% of intermodal containers comply with ISO standards, and can officially be called ISO containers. These containers are known by many names: freight container, sea container, ocean container, container van or sea van, sea can or C can, or MILVAN, or SEAVAN. The term CONEX (Box) is a technically incorrect carry-over usage of the name of an important predecessor of the ISO containers: the much smaller steel CONEX boxes used by the U.S. Army.

<span class="mw-page-title-main">Railroad car</span> Vehicle used for carrying cargo or passengers on rail transport system

railroad car, railcar, railway wagon, railway carriage, railway truck, railwagon, railcarriage or railtruck, also called a train car, train wagon, train carriage or train truck, is a vehicle used for the carrying of cargo or passengers on a rail transport network. Such cars, when coupled together and hauled by one or more locomotives, form a train. Alternatively, some passenger cars are self-propelled in which case they may be either single railcars or make up multiple units.

<span class="mw-page-title-main">Piggyback (transportation)</span> One transportation unit carried on another

Piggyback transportation refers to the transportation of goods where one transportation unit is carried on the back of something else. It is a specialised form of intermodal transportation and combined transport.

Container ship Ship that carries cargo in intermodal containers

A container ship is a cargo ship that carries all of its load in truck-size intermodal containers, in a technique called containerization. Container ships are a common means of commercial intermodal freight transport and now carry most seagoing non-bulk cargo.

<span class="mw-page-title-main">Boxcar</span> Enclosed railroad car used to carry freight

A boxcar is the North American (AAR) and South Australian Railways term for a railroad car that is enclosed and generally used to carry freight. The boxcar, while not the simplest freight car design, is considered one of the most versatile since it can carry most loads. Boxcars have side sliding doors of varying size and operation, and some include end doors and adjustable bulkheads to load very large items.

<span class="mw-page-title-main">Twenty-foot equivalent unit</span> Unit of cargo capacity

The twenty-foot equivalent unit is a general unit of cargo capacity, often used for container ships and container ports. It is based on the volume of a 20-foot-long (6.1 m) intermodal container, a standard-sized metal box that can be easily transferred between different modes of transportation, such as ships, trains, and trucks.

<span class="mw-page-title-main">Loading gauge</span> Maximum dimensions for railway vehicles and their loads

A loading gauge is a diagram or physical structure that defines the maximum height and width dimensions in railway vehicles and their loads. Their purpose is to ensure that rail vehicles can pass safely through tunnels and under bridges, and keep clear of platforms, trackside buildings and structures. Classification systems vary between different countries, and loading gauges may vary across a network, even if the track gauge is uniform.

<span class="mw-page-title-main">Sidelifter</span>

A sidelifter is a specialised vehicle or semi-trailer used to hoist and transport ISO standard intermodal containers over longer distances.

<span class="mw-page-title-main">Autorack</span> Railway rolling stock used to transport automobiles

An autorack, also known as an auto carrier, is a specialized piece of railroad rolling stock used to transport automobiles and light trucks. Autoracks are used to transport new vehicles from factories to automotive distributors, and to transport passengers' vehicles in car shuttles and motorail services, such as Amtrak's Auto Train route.

Terra Transport (TT) was the name for the Newfoundland Transportation Division, a wholly owned subsidiary of Canadian National Railway (CN), created in 1979 as a means to organize the company's operations on Newfoundland.

<span class="mw-page-title-main">Flatcar</span> Type of railroad car for transporting large objects, containers, or machinery

A flatcar (US) is a piece of rolling stock that consists of an open, flat deck mounted on trucks (US) or bogies (UK) at each end. Occasionally, flat cars designed to carry extra heavy or extra large loads are mounted on a pair of bogies under each end. The deck of the car can be wood or steel, and the sides of the deck can include pockets for stakes or tie-down points to secure loads. Flatcars designed for carrying machinery have sliding chain assemblies recessed in the deck.

<span class="mw-page-title-main">Container crane</span> Type of dockside gantry crane

A container crane is a type of large dockside gantry crane found at container terminals for loading and unloading intermodal containers from container ships.

<span class="mw-page-title-main">Rail freight transport</span> Practice of transporting cargo by rail

Rail freight transport is the use of railways and trains to transport cargo as opposed to human passengers.

<span class="mw-page-title-main">Well car</span> Type of railroad car

A well car, also known as a double-stack car, is a type of railroad car specially designed to carry intermodal containers used in intermodal freight transport. The "well" is a depressed section that sits close to the rails between the wheel trucks of the car, allowing a container to be carried lower than on a traditional flatcar. This makes it possible to carry a stack of two containers per unit on railway lines wherever the structure gauge assures sufficient clearance.

<span class="mw-page-title-main">Rolling highway</span> Process of shipping loaded trucks on railway cars

In rail transportation, a rolling highway or rolling road is a form of combined transport involving the conveying of road trucks by rail, referred to as Ro-La trains. The concept is a form of piggyback transportation.

SECU, Stora Enso Cargo Unit, is a type of intermodal container built to transport bulk cargo like paper on railway and ship. They were invented and used by Stora Enso. The ports used are mainly in production countries like Finland and Sweden (Gothenburg) and in consumer countries Belgium (Zeebrugge), UK and Germany (Lübeck).

<span class="mw-page-title-main">Trailer-on-flatcar</span> Practice of carrying truck semi-trailers on railroad freight cars

Trailer on flatcar, also known as TOFC or piggyback, is the practice of carrying semi-trailers on railroad flatcars. TOFC allows for shippers to move truckloads long distances more cheaply than can be done by having each trailer towed by a truck, since one train can carry more than 100 trailers at once. The trailers will be moved by truck from their origin to an intermodal facility, where they will then be loaded onto a train, typically by a rubber tired gantry crane, for the bulk of their journey. Alternatively, trailers may be driven onto the flatcars via ramps by a terminal tractor. Near the destination, the trailers are unloaded at another facility and brought to their final destination by a tractor unit.

<span class="mw-page-title-main">Flat wagon</span> Railway goods wagon

Flat wagons, as classified by the International Union of Railways (UIC), are railway goods wagons that have a flat, usually full-length, deck and little or no superstructure. By contrast, open wagons have high side and end walls and covered goods wagons have a fixed roof and sides. Flat wagons are often designed for the transportation of goods that are not weather-sensitive. Some flat wagons are able to be covered completely by tarpaulins or hoods and are therefore suitable for the transport of weather-sensitive goods. Unlike a "goods wagon with opening roof", the loading area of a flat is entirely open and accessible once the cover is removed.

<span class="mw-page-title-main">Double-stack rail transport</span> Railroad cars carrying two layers of intermodal containers

Double-stack rail transport is a form of intermodal freight transport in which railroad cars carry two layers of intermodal containers. Invented in the United States in 1984, it is now being used for nearly seventy percent of United States intermodal shipments. Using double stack technology, a freight train of a given length can carry roughly twice as many containers, sharply reducing transport costs per container. On United States railroads, special well cars are used for double-stack shipment to reduce the needed vertical clearance and to lower the center of gravity of a loaded car. In addition, the well car design reduces damage in transit and provides greater cargo security by cradling the lower containers so their doors cannot be opened. A succession of larger container sizes have been introduced to further increase shipping productivity in the United States.

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