A tank car (International Union of Railways (UIC): tank wagon) or tanker is a type of railroad car (UIC: railway car) or rolling stock designed to transport liquid and gaseous commodity.
History
Timeline
The following major events occurred in the years noted:
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1863: Samuel J. Seely, an inventor from Brooklyn, New York, patented the very first railroad cylindrical body petroleum tank car in the United States, which is a predecessor of the railroad tank car that we see today. On June 2, 1863, he received patent number 38,765 for the "Improved car for carrying petroleum." In his invention, the tank is a cylinder made of metal, and it is positioned horizontally, parallel to the tracks. Exactly like in modern tank cars.
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1865: with banded wooden planks or decking mounted on top are employed for the first time to transport crude oil from the fields of Pennsylvania during the Pennsylvanian oil rush. Laurence Myers of Philadelphia invented the Rotary Oil Car, as he named it. It was an improvement on a patent from 1851 of a freight car for transporting coal. The new invention patented on July 18, 1865, was for the transportation of crude oil and petroleum. It was the first appearance of an oil tank on a railroad flatcar. Three books mention his invention.
[ Fuel Oil in Industry][ The Petroleum Industry][ The Petroleum Handbook]
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1869: Wrought iron tanks, with an approximate capacity of per car, replace wooden tanks.
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1888: Tank-car manufacturers sell units directly to the oil companies, with capacities ranging from .
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1903: Tank-car companies develop construction safety standards. More than 10,000 tank cars are in operation.
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1915: A classification system is developed by the tank-car industry to ensure the correct match of car type to product being shipped. Some 50,000 tank cars are in use.
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1930: 140,000 tank cars transport some 103 commodities.
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1940s: Virtually every tank car is engaged in oil transport in support of the war effort.
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1945–1950: Welding replaces in car construction (both underframes and tanks) for the major manufacturers, including American Car & Foundry and GATX.
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1950: Pipelines and begin to compete for liquid transport business.
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1963: The Union Tank Car Company introduces the "Whale Belly" tank car.
Usage
North America
Many variants exist due to the wide variety of
and gases transported. Tank cars can be
pressurized or non-pressurized, insulated or non-insulated, and designed for single or multiple commodities. Non-pressurized cars have various fittings on the top and may have fittings on the bottom. Some of the top fittings are covered by a protective housing. Pressurized cars have a pressure plate, with all fittings, and a cylindrical protective housing at the top. Loading and unloading are done through the protective housing.
Tank cars are specialized pieces of equipment. As an example, the interior of the car may be lined with a material, such as glass, or other specialized coatings to isolate the tank contents from the tank shell. Care is taken to ensure that tank contents are compatible with tank construction.
As a result of this specialization, tank cars have generally been "one-way" cars. Other cars, like , can easily be reloaded with other goods for the return trip. Combinations of the two types were attempted, such as boxcars with fluid tanks slung beneath the floors. While the car could certainly carry a load in both directions, the limited tank size made this unsuccessful.
A large percentage of tank cars are owned by companies serviced by railroads instead of the railroads themselves. This can be verified by examining the on the cars. These marks invariably end in X, meaning that the owner is not a common carrier.
Within the rail industry, tank cars are grouped by their type and not by the cargo carried. Food-service tank cars may be lined with stainless steel, glass, or plastic. Tank cars carrying dangerous goods are generally made of different types of steel, depending on the intended cargo and operating pressure. They may also be lined with rubber or coated with specialized coatings for tank protection or product purity purpose. The tank heads are also stronger to prevent ruptures during accidents. The whale-belly type is giving way to higher-capacity (longer), yet standard-width, AAR Plate "C", cars.
All tank cars undergo periodic inspection for damage and corrosion. Pressure relief valves are inspected at every loading. Pressurized cars are pressure-tested regularly to ensure the integrity of the tank.
All tank cars operating throughout North America today feature AAR Type E double shelf couplers that are designed to prevent disengaging in event of an accident or derailment. This reduces the chance of couplers puncturing adjacent tank cars. However, if cars are prevented from disengaging in a derailment, the torsional forces of a derailing car can be transferred to other cars, resulting in the derailment of the adjacent cars.
Insulated cars (which may also incorporate heating or refrigeration systems) are used when the contents must be kept at a certain temperature. For example, the Linde tank car depicted below carries liquefied argon. Cars designed for multiple commodities are constructed of two or more tanks (compartments). Each compartment must have separate fittings. The lower capacity and added complexity of multicompartment cars means that they make up a small percentage of the tank car inventory.
Specialized applications
DOT-111
The DOT-111 tank car, designed to carry liquids such as denatured
Ethanol fuel, is built to a US standard. The design has been criticized on safety grounds.
The train in the Lac-Mégantic derailment of 2013 was made up of 72 of these cars.
DOT-112
DOT-112 tank cars are used in North America to carry pressurized gases. One of these tank cars exploded in Waverly, Tennessee, killing 16, when a Louisville & Nashville train derailed. While the clean up efforts were under way, the tank car, UTLX 83013, ended up exploding from a
BLEVE.
DOT-114
DOT-114 tank cars are used in North America to carry pressurized gases.
Milk cars
for bulk loading at the Illinois Railway Museum.]]A milk car is a specialized type of tank car designed to carry raw
milk between farms,
creamery, and processing plants.
Milk is now commonly chilled, before loading, and transported in a glass-lined tank car. Such tank cars are often as "Food service use only".
Liquid hydrogen tank car
Tank cars of this type are designed to carry
cryogenic liquid Hydrogen (LH
2). North American cars are classified as DOT113, AAR204W, and AAR204XT
[ NOAA's Office of Response and Restoration: Chemical Response Tool ]
Pickle cars
A pickle car was a specialized type of tank car designed to carry
Pickled cucumber. This car consisted of several wooden or metal vats (typically three or four) and was often roofed. Pickles which are preserved in salt brine were loaded through hatches in the roof.
Tank containers
A tank container, also known as ISO tank, is a specialized type of container designed to carry bulk liquids, such as chemicals,
liquid hydrogen,
Industrial gas and food grade products. Both hazardous and non hazardous products can be shipped in tank containers. A standard tank container is long, high and wide. The tank, which is made from stainless steel, is held within a box-shaped frame with the same shape as an intermodal container. This allows it to be carried on multiple modes of transport, such as truck, rail and ship.
Torpedo car
A
torpedo car or
bottle car is a type of railroad car used in
to haul
molten pig iron from the
blast furnace to begin the process of primary
steelmaking.
The thermally-insulated vessel is mounted on , and designed to endure extremely high temperatures, as well as keeping the metal in a molten state over extended periods of time. The vessel can be pivoted along its longitudinal axis to empty the pig iron into a ladle. The name is derived from the vessel's resemblance to a torpedo.
Vinegar cars
A vinegar car is a specialized type of tank car designed to transport
vinegar. The largest such car built was built by Morrison Railway Supply Corporation in 1968. The car's underframe included all of the modern facets of freight car design including
roller bearing Bogie and cushioning devices built by FreightMaster, while the tank that rode on it, made of
Douglas fir, had a capacity of . The car, in what has been called 'the largest wooden tank car ever built', took 18 months to build.
The Reinhart Vinegar Car can be seen at the Toronto Harbourfront Museum.[ Vinegar car]
Vinegar is now moved in ordinary tank cars lined with glass, plastic, or alloy steel.
"Whale belly" cars
In the early 1960s, the Union Tank Car Company introduced a series of "whale belly" tank cars which offered increased capacity. These cars carried from in CSOX #31084
to as much as in GATX #96500, which had been conceived as a 'rolling experiment'. The largest tank car ever placed into regular service,
UTLX #83699, was rated at . It entered service in 1963 and was used for over 20 years. GATX 96500 is now on display at the National Museum of Transportation in Saint Louis, Missouri. This car is long, weighs empty and rides on four two-axle
Bogie for weight distribution. It transported diverse substances, such as liquefied petroleum gas (LPG) and anhydrous
ammonia.
Safety
Where
Janney coupler are fitted, the AAR type "F" coupler
is preferred as these are less likely to become separated in a derailment and become a puncture hazard for other tank cars. A type "E" coupler that has shelves over and under the coupler that prevent the coupler sliding out of position after a
derailment is used on some hazardous materials tank cars.
In addition, some types of tank cars have a second end plate visible from the exterior, to further avoid end punctures.
It is also preferable if each tap (valve) is recessed within the body of the tank so as to present a reduced knock-off hazard during a derailment.
Tank cars have been involved in many rail disasters, including the Lac-Mégantic derailment in Quebec in 2013, the Nishapur train disaster in Iran in 2004, and the Viareggio train derailment in Italy in 2009.
Outside North America
Outside of
North America, tank cars are also known as
tank wagons or
tanker wagons. In the
United Kingdom tank wagons were traditionally four-wheel vehicles. Some long-wheelbase four-wheelers are still in use but
bogie vehicles are now used as well.
File:Esso Tanker.JPG|An old Esso Tanker, at the Nene Valley Railway, England
File:BTM-tankerwagons-04.jpg|Long-wheelbase four-wheel tank wagon in England
File:Beeston railway station MMB 34.jpg|Modern British tank wagons, photographed in 2013
File:Consett-tankwagon41.jpg|Consett tank wagon #41 in the Beamish Museum
See also
Notes
External links
