Containerization Totally Explained

Containerization is a system of intermodal freight transport cargo transport using standard ISO containers (known as Shipping Containers or Isotainers) that can be loaded and sealed intact onto container ships, railroad cars, planes, and trucks. Containerization is also the term given to the process of determining the best carton, box or pallet to be used to ship a single item or number of items.

ISO container dimensions and payloads

There are five common lengths, 20-ft (6.1 m), 40-ft (12.2 m), 45-ft (13.7 m), 48-ft (14.6 m), and 53-ft (16.2 m). United States domestic standard containers are generally 48-ft and 53-ft (rail and truck). Container capacity is measured in twenty-foot equivalent units (TEU, or sometimes teu). An equivalent unit is a measure of containerized cargo capacity equal to one standard 20 ft (length) × 8 ft (width) × 8' 6' ft (height)'container. In metric units this is 6.10 m (length) × 2.44 m (width) × 2.59 m (height), or approximately 38.5 m³. These sell at about US$2,500 in China, the biggest manufacturer.
   Most containers today are of the 40-ft (12.2 m) variety and are known as 40-foot containers. This is equivalent to 2 TEU. 45-foot (13.7 m) containers are also designated 2 TEU. Two TEU are equivalent to one forty-foot equivalent unit (FEU). High cube containers have a height of 9 ft 6 in (2.9 m), while half-height containers, used for heavy loads, have a height of 4 ft 3 in (1.3 m). When converting containers to TEUs, the height of the containers typically isn't considered.
   The use of Imperial measurements (also still used in UK) to describe container size (TEU, FEU) despite the fact that much of the world uses the metric system reflects the fact that US shipping companies played a major part in the development of containers. The overwhelming need to have a standard size for containers, in order that they fit all ships, cranes, and trucks, and the length of time that the current container sizes have been in use, makes changing to an even metric size impractical.
   The maximum gross mass for a 20-ft dry cargo container is 24,000 kg, and for a 40-ft (including the 2.87 m (9 ft 6 in) high cube container), it's 30,480 kg. Allowing for the tare mass of the container, the maximum payload mass is there reduced to approximately 21,800 kg for 20-ft, and 26,680 kg for 40-ft containers.

Standard containers

The 20 foot container is the most common container worldwide, but the 40 foot container is increasingly replacing it, particularly since costs tend to be per container and not per foot. The longer container types are also becoming more common, and are especially common in North America. Shorter containers, for example 10 foot containers, also exist, but are rarely used.
The following table shows the weights and dimensions of the three most common types of containers worldwide. The weights and dimensions quoted below are averages. Different manufacture series of the same type of container may slightly vary in actual size and weight.

		imperial	metric	imperial	metric	imperial	metric
		20′ container		40′ container		45′ high-cube container
external dimensions	length	19' 10½"	6.058 m	40′ 0″	12.192 m	45′ 0″	13.716 m
	width	8′ 0″	2.438 m	8′ 0″	2.438 m	8′ 0″	2.438 m
	height	8′ 6″	2.591 m	8′ 6″	2.591 m	9′ 6″	2.896 m
interior dimensions	length	18′ 10 ″	5.758 m	39′ 5 ″	12.032 m	44′ 4″	13.556 m
	width	7′ 8 ″	2.352 m	7′ 8 ″	2.352 m	7′ 8 ″	2.352 m
	height	7′ 9 ″	2.385 m	7′ 9 ″	2.385 m	8′ 9 ″	2.698 m
door aperture	width	7′ 8 ⅛″	2.343 m	7′ 8 ⅛″	2.343 m	7′ 8 ⅛″	2.343 m
door aperture	height	7′ 5 ¾″	2.280 m	7′ 5 ¾″	2.280 m	8′ 5 ″	2.585 m
volume		1,169 ft³	33.1 m³	2,385 ft³	67.5 m³	3,040 ft³	86.1 m³
maximum gross mass		52,910 lb	24,000 kg	67,200 lb	30,480 kg	67,200 lb	30,480 kg
empty weight		4,850 lb	2,200 kg	8,380 lb	3,800 kg	10,580 lb	4,800 kg
net load		48,060 lb	21,800 kg	58,820 lb	26,680 kg	56,620 lb	25,680 kg

20′ heavy tested containers are available for heavy goods (for example heavy machinery). These allow a maximum weight of 67,200 lb (30,480 kg), an empty weight of 5,290 lb (2,400 kg) and a net load of 61,910 lb (28,080 kg).

Shipping container history

   The introduction of containers resulted in vast improvements in port handling efficiency, thus lowering costs and helping lower freight charges and, in turn, boosting trade flows. Almost every manufactured product humans consume spends some time in a container. Containerization was one of the important innovations in 20th century logistics.
   By the 1920s, railroads on several continents were carrying containers that could be transferred to trucks or ships, but these containers were invariably small by today's standards. From 1926 to 1947, the Chicago North Shore and Milwaukee Railway carried motor carrier vehicles and shippers' vehicles loaded on flatcars between Milwaukee, Wisconsin and Chicago, Illinois. Beginning in 1929, Seatrain Lines carried railroad boxcars on its sea vessels to transport goods between New York and Cuba. In the mid-1930s, the Chicago Great Western Railway and then the New Haven Railroad began "piggy-back" service (transporting highway freight trailers on flatcars) limited to their own railroads. By 1953, the CB&Q, the Chicago and Eastern Illinois and the Southern Pacific railroads had joined the innovation. Most cars were surplus flatcars equipped with new decks. By 1955, an additional 25 railroads had begun some form of piggy-back trailer service.
   The first vessels purpose-built to carry containers began operation in Denmark in 1951. Ships began carrying containers between Seattle and Alaska in 1951. The world's first truly intermodal container system used the purpose-built container ship the Clifford J. Rodgers, built in Montreal in 1955 and owned by the White Pass and Yukon Route. Its first trip carried 600 containers between North Vancouver, British Columbia and Skagway, Alaska on November 26, 1955; in Skagway, the containers were unloaded to purpose-built railroad cars for transport north to the Yukon, in the first intermodal service using trucks, ships and railroad cars. Southbound containers were loaded by shippers in the Yukon, moved by rail, ship and truck, to their consignees, without opening. This first intermodal system operated from November 1955 for many years.
   The U.S. container shipping industry dates to 1956, when trucking entrepreneur Malcom McLean put 58 containers aboard a refitted tanker ship, the "Ideal-X," and sailed them from Newark to Houston. What was new about McLean's innovation was the idea of using large containers that were never opened in transit between shipper and consignee and that were transferable on an intermodal basis, among trucks, ships and railroad cars. McLean had initially favored the construction of "trailerships" - taking trailers from large trucks and stowing them in a ship’s cargo hold. This method of stowage, referred to as roll-on/roll-off, wasn't adopted because of the large waste in potential cargo space onboard the vessel, known as broken stowage. Instead, he modified his original concept into loading just the containers, not the chassis, onto the ships, hence the designation container ship or "box" ship. See also pantechnicon van and trolley and lift van.
   During the first twenty years of growth containerization meant using completely different, and incompatible, container sizes and corner fittings from one country to another. There were dozens of incompatible container systems in the U.S. alone. Among the biggest operators, the Matson Navigation Company had a fleet of 24-foot containers while Sea-Land Service, Inc used 35-foot containers. The standard sizes and fitting and reinforcement norms that exist now evolved out of a series of compromises among international shipping companies, European railroads, U.S. railroads, and U.S. trucking companies. The bulk of the discussions occurred in the late 1960s and the first draft of the resulting ISO standards was prepared for publication in 1970.
   In the United States, at first, containerization grew despite the unfavourable regulatory structure of the 1960s. But the United States' present fully integrated systems became possible only after the Interstate Commerce Commission's regulatory oversight was cut back (and later abolished in 1995), trucking and rail were deregulated in the 1970s and maritime rates were deregulated in 1984.
   Containerization has revolutionized cargo shipping. Today, approximately 90% of non-bulk cargo worldwide moves by containers stacked on transport ships; 26% of all containers originate from China. As of 2005, some 18 million total containers make over 200 million trips per year. There are ships that can carry over 14,500 TEU ("Emma Mærsk", 396 m long, launched August 2006). It has even been predicted that, at some point, container ships will be constrained in size only by the depth of the Straits of Malacca—one of the world's busiest shipping lanes—linking the Indian Ocean to the Pacific Ocean. This so-called Malaccamax size constrains a ship to dimensions of 470 m in length and 60 m wide (1542 feet * 197 feet).. For instance, on November 30, 2006, a container washed ashore

on the Outer Banks of North Carolina, along with thousands of bags of its cargo of tortilla chips. Containers lost at sea don't necessarily sink, but seldom float very high out of the water, making them a shipping hazard that's difficult to detect. Freight from lost containers has provided oceanographers with unexpected opportunities

to track global ocean currents, notably a cargo of Friendly Floatees.

Numbering

Each container is allocated a reporting mark (ownership code) up to four characters long ending in the letter U, followed by a number up to 9 digits long.

Double-stack containerization

Most flatcars can't carry more than one standard 40 foot container, but if the rail line has been built with sufficient vertical clearance, a well car can accept a container and still leave enough clearance for another container on top. This usually precludes operation of double-stacked wagons on lines with overhead electric wiring (exception: Betuweroute).
Double stacking has been used in North America since American President Lines introduced this "double stack" principle under the name of "Stacktrain" rail service in 1984. It saved shippers money and now accounts for almost 70 percent of intermodal freight transport shipments in the United States, in part due to the generous vertical clearances used by US railroads.
Double stacking is also used in Australia between Adelaide, Parkes, Perth and Darwin.

ISO container types

Various container types are available for different needs:

General purpose dry van for boxes, cartons, cases, sacks, bales, pallets, drums in standard, high or half height
High cube palletwide containers for europallet compatibility
Temperature controlled from −25 °C to +25 °C reefer
Open top bulktainers for bulk minerals, heavy machinery
Open side for loading oversize pallet
Flushfolding flat-rack containers for heavy and bulky semi-finished goods, out of gauge cargo
Platform or bolster for barrels and drums, crates, cable drums, out of gauge cargo, machinery, and processed timber
Ventilated containers for organic products requiring ventilation
Tank containers for bulk liquids and dangerous goods
Rolling floor for difficult to handle cargo
Gas bottle
Generator
Collapsible ISO
Swapbody

Biggest ISO container companies

Company	TEU capacity	Market Share	Number of ships
A.P. Moller-Maersk Group	1,665,272	18.2%	549
Mediterranean Shipping Company S.A.	865,890	8.6%	299
CMA CGM	507,954	5.6%	256
Evergreen Marine Corporation	477,911	5.2%	153
Hapag-Lloyd	412,344	4.5%	140
China Shipping Container Lines	346,493	3.8%	111
American President Lines	331,437	3.6%	99
Hanjin-Senator	328,794	3.6%	145
COSCO	322,326	3.5%	118
NYK Line	302,213	3.3%	105

Other container systems

Haus-zu-Haus (Germany)

RACE (container) (Australia)

Hellenic Container Transport Ltd (Greece)

www.Uniteamcontainer.com (Norway)

Determining the best carton, box or pallet

While the creation of the best container for shipping of newly created product is called "Containerization", the term also applies to determining the right box and the best placement inside that box in order fulfillment. This may be planned by software modules in a warehouse management system. This optimization software calculates the best spatial position of each item within such constraints as their ability to stack and crush resistance.

Loss of jobs due to containerization

Although there can be no direct correlation made between the new technology and a loss of jobs, there are a number of texts that talk about the job loss associated in part with containerization. In his paper regarding the reaction to containerization, Andrew Herod offers some specific numbers on the employment impact.(External Link

) Herod says that during break bulk shipping days 11,000 tons of cargo could be moved by 126 longshoremen in 84 hours. He goes on to say that the same weight of cargo can be moved by 42 longshoremen in only 13 hours with the use of containers. The new system of shipping also allowed for freight consolidating jobs to move from the waterfront to far inland somewhere, which also decreased the number of waterfront jobs.

Hazards

Because of the value of their cargos, they raise the risk of container ships being subjected to piracy. The containers themselves are often used to smuggle contraband. In addition, due to the large numbers of essentially identical items, the vast majority never subjected to scrutiny, there are worries they might be used to introduce terrorists or bombs (including nuclear weapons) into ports undetected.

Empty container issues

A social cost arises as a result of the high cost of transporting the empty containers back to the original shipping point by agents. This cost is often greater than that of containers themselves and because it isn't often done, it results in large areas in ports and warehouses being occupied by empty containers left abandoned at their destination. However, empty containers may also be recycled in the form of shipping container architecture.

International

Before the International Standard Container appeared, various countries had their own containers. These containers were generally small, and not able to be stacked one upon another. Clearly the idea of containerisation isn't new, though the implementation of the ISO container was much better done.

Australia

Less than Car Load (LCL)

Germany

Von Haus zu Haus (from House to House)

United Kingdom

a small container.

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