# Tonnage

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**Lua error in package.lua at line 80: module 'strict' not found.** **Tonnage** is a measure of the cargo-carrying capacity of a ship. The term derives from the taxation paid on *tuns* or casks of wine, and was later used in reference to the weight of a ship's cargo; however, in modern maritime usage, "tonnage" specifically refers to a calculation of the volume or cargo volume of a ship. Tonnage should not be confused with displacement, which refers to the actual weight of the vessel.

Measurement of tonnage can be complicated, not least because it is used to assess fees on commercial shipping.

## Contents

## Tonnage measurements

**Gross tonnage** (**GT**) is a function of the volume of all of a ship's enclosed spaces (from keel to funnel) measured to the outside of the hull framing. The numerical value for a ship's GT is always smaller than the numerical values for both its *gross register tonnage* and the GRT value expressed equivalently in cubic meters rather than cubic feet (for example, 0.5919 GT = 1 GRT = 2.8316 m^{3}; 200 GT = 274 GRT = 775,88 m^{3}; 500 GT = 665 GRT = 1,883.07 m^{3}; 3,000 GT = 3,776 GRT = 10,692.44 m^{3}), though by how much depends on the vessel's design (volume). There is a sliding-scale factor. Gross tonnage is therefore a kind of capacity-derived index that is used to rank a ship for purposes of determining manning, safety, and other statutory requirements and is expressed simply as GT, which is a unitless entity, even though its derivation is tied to the cubic meter unit of volumetric capacity.

Tonnage measurements are now governed by an IMO Convention (International Convention on Tonnage Measurement of Ships, 1969 (London-Rules)), which applies to all ships built after July 1982. In accordance with the convention, the correct term is now GT, which is a function of the moulded volume of all enclosed spaces of the ship.

GT is calculated by using the formula : , where *V* = total volume in m^{3} and *K* = a figure from 0.22 to 0.32, depending on the ship's size (calculated by : ). For a ship with a total volume of 10,000 m^{3}, the gross tonnage would be 0.28 × 10,000 = 2,800 GT. GT is consequently a measure of the overall size of the ship. For a ship with a total volume of 80,000 m^{3},the gross tonnage would be 0.2980617 × 80,000 = 23,844.94 GT.

**Net tonnage** (**NT**) is based on a calculation of the volume of all cargo spaces of the ship. It indicates a vessel's earning space and is a function of the moulded volume of all cargo spaces of the ship.

A commonly defined measurement system is important, since a ship's registration fee, harbour dues, safety and manning rules, and the like may be based on its gross tonnage (GT) or net tonnage (NT).

**Gross register tonnage** (**GRT**) represents the total internal volume of a vessel, where one register ton is equal to a volume of 100 cubic feet (2.83168 m^{3}), a volume that, if filled with fresh water, would weigh around 2,800 kg or 2.8 tonnes. The definition (and calculation) of the internal volume is complex; for instance, a ship's hold may be assessed for bulk grain (accounting for all the air space in the hold) or for bales (omitting the spaces into which bulk, but not baled cargo, would spill). If *V* stands for the total internal volume in m^{3}, then the GRT equals *V* / 2.83168, so for a ship of 10,000 m^{3} total internal volume, the gross register tonnage is 10,000 / 2.83168 = 3531.47 GRT. Gross register tonnage was replaced by *gross tonnage* in 1994 under the Tonnage Measurement convention of 1969, and is no longer a widely used term in the industry.^{[1]}^{[2]}

**Net register tonnage** (**NRT**) is the volume of cargo the vessel can carry—that is, the gross register tonnage less the volume of spaces that do not hold cargo (e.g., engine compartment, helm station, and crew spaces, again with differences depending on which port or country does the calculations). It represents the volume of the ship available for transporting freight or passengers. It was replaced by *net tonnage* in 1994, under the Tonnage Measurement convention of 1969.

The **Panama Canal/Universal Measurement System (PC/UMS)** is based on *net tonnage*, modified for Panama Canal purposes. PC/UMS is based on a mathematical formula to calculate a vessel's total volume; one PC/UMS net ton is equivalent to 100 cubic feet of capacity.^{[3]}

**Suez Canal Net Tonnage (SCNT)** is derived with a number of modifications from the former net register tonnage of the Moorsom System and was established by the International Commission of Constantinople in its Protocol of 18 December 1873. It is still in use, as amended by the *Rules of Navigation* of the Suez Canal Authority, and is registered in the Suez Canal Tonnage Certificate.

**Thames measurement tonnage** is another volumetric system, generally used for small vessels such as yachts; it uses a formula based on the vessel's length and beam.

## Weight measurements

While not tonnage in the proper sense, the following methods of ship measurement are often incorrectly referred to as such:

**Lightship or lightweight** measures the actual weight of the ship with no fuel, passengers, cargo, water, and the like on board.

**Deadweight tonnage** (often abbreviated as **DWT**, for deadweight tonnes) is the displacement at any loaded condition minus the lightship weight. It includes the crew, passengers, cargo, fuel, water, and stores. Like displacement, it is often expressed in long tons or in metric tons.

**Metric tonnes per centimetre immersion** (usually abbreviated to **TPC** or **TPCMI**) is the number of metric tonnes (1,000 kg) that need to be loaded on the ship for the salt water draft (draught) to increase by one centimetre. The TPCMI is used to calculate the draft of the vessel with a given deadweight tonnage of cargo loaded. For a typical Panamax bulk carrier with a TPCMI of 80, the ship will sink (i.e., its draft will increase) by one centimetre for every 80 tonnes of cargo loaded.

**Imperial tons per inch immersion** (usually abbreviated to **TPI**) is the number of imperial long tons (2,240 lb) that need to be loaded on a vessel for the draft to increase by one inch. Old imperial TPI measurements are still occasionally used within the United States and the Panama Canal. As no ship has been measured by a classification society since the 1950s using imperial measures, modern TPI figures are therefore a conversion from the original metric measurements and should not be relied upon to be accurate.

## Non-maritime usage of the term *tonnage*

Tonnage can refer to the quantity of a mineral or the mineral ore extracted from a mine. It may refer to the production of any commodity that is normally expressed in tons or tonnes. The term can also apply to the total weight drawn by a railway locomotive, or the total weight of freight passing over a railway line or road.

The tonnage may be expressed in short tons (2,000 lb), metric tons or tonnes (1,000 kg), or in long tons (2,240 lb). Often this distinction is not of any importance, however sometimes it is critical to define the exact units in which the tonnage is expressed.

## Origins

Historically, tonnage was the tax on *tuns* (casks) of wine that held 954 litres (252 gallons) of wine and weighed 1016 kilograms (2,240 pounds). This suggests that the unit of weight measurement, the long ton (1,016 kg or 2,240 lb), and tonnage share the same etymology. The confusion between weight-based terms (deadweight and displacement) stems from this common source and the eventual decision to assess dues based on a ship's deadweight rather than counting the tuns of wine. In 1720 the Builder's Old Measurement Rule was adopted to estimate deadweight from the length of keel and maximum breadth or beam of a ship. This overly simplistic system was replaced by the Moorsom System in 1854 and calculated internal volume, not weight. This system evolved into the current set of internationally accepted rules and regulations.

When steamships came into being, they could carry less cargo, size for size, than could sailing ships. In addition to spaces taken up by boilers and steam engines, steamships carried extra fresh water for the boilers and coal for the engines. Thus, to move the same volume of cargo as a sailing ship, a steamship would be considerably larger than a sailing ship.

Harbour dues are based on tonnage. In order to prevent steamships operating at a disadvantage, various tonnage calculations were established to minimise the disadvantage presented by the extra space requirements of steamships. Rather than charging by length, displacement, or the like, charges were calculated based on the viable cargo space. As commercial cargo sailing ships are now largely extinct, gross tonnage is becoming the universal method of calculating ships' dues, and is also a more straightforward and transparent method of assessment.

## See also

- Builder's Old Measurement
- Displacement (fluid)
- Displacement (ship)
- Ton
- Short ton
- Long ton
- Metric tonne
- List of world's largest ships by gross tonnage

## Notes

- ↑
*CWP Handbook of Fishery Statistical Standards*. Retrieved May 10, 2006. - ↑
*International Convention on Tonnage Measurement of Ships, 1969*, International Maritime Organisation. Retrieved May 10, 2006. - ↑
*Panama Canal Tolls*, from the Panama Canal Authority. Retrieved May 10, 2006.

## References

*The Oxford Companion To Ships & The Sea*, by I. C. B. Dear and Peter Kemp. Oxford University Press, 1979. ISBN 0-19-860616-8*Ship Design and Construction, Volume II*; Thomas Lamb, Editor. Society of Naval Architects and Marine Engineers, 2004. ISBN 99909-0-620-3