in
Tokyo, Japan The first tugboat,
Charlotte Dundas, was built by William Symington in 1801. It had a steam engine and paddle wheels and was used on rivers in Scotland.
Paddle tugs proliferated thereafter and were a common sight for a century. In the 1870s schooner hulls were converted to screw tugs. Compound steam engines and scotch boilers provided 300
Indicated Horse Power. Steam tugs were put to use in every harbour of the world towing and ship berthing. However the word 'tug' was not applied to such boats until 1817 when John Wood launched "TUG" at
Port Glasgow,
Scotland. Tugboat diesel engines typically produce 500 to 2,500
kW (
~ 680 to 3,400
hp), but larger boats (used in deep waters) can have power ratings up to 20,000 kW (~ 27,200 hp). Tugboats usually have an extreme
power:
tonnage-ratio; normal
cargo and passenger ships have a P:T-ratio (in kW:
GRT) of 0.35 to 1.20, whereas large tugs typically are 2.20 to 4.50 and small harbour-tugs 4.0 to 9.5. The engines are often the same as those used in railroad
locomotives, but typically drive the
propeller mechanically instead of converting the engine output to power electric motors, as is common for diesel-electric locomotives. For safety, tugboat engines often feature two of each critical part for redundancy. Some tugboats operate mainly on battery power. A tugboat is typically rated by its engine's power output and its overall
bollard pull. The largest commercial harbour tugboats in the 2000s–2010s, used for towing container ships or similar, had around of bollard pull, which is described as above "normal" tugboats. Tugboats are highly manoeuvrable, and various propulsion systems have been developed to increase manoeuvrability and increase safety. The earliest tugs were fitted with
paddle wheels, but these were soon replaced by propeller-driven tugs.
Kort nozzles (see below) have been added to increase thrust-to-power ratio. This was followed by the nozzle-rudder, which omitted the need for a conventional
rudder. The
cycloidal propeller (see below) was developed prior to
World War II and was occasionally used in tugs because of its maneuverability. After World War II it was also linked to safety due to the development of the Voith Water Tractor, a tugboat configuration that could not be pulled over by its tow. In the late 1950s, the
Z-drive or (
azimuth thruster) was developed. Although sometimes referred to as the Aquamaster
or Schottel system, many brands exist:
Steerprop,
Wärtsilä,
Berg Propulsion, etc. These propulsion systems are used on tugboats designed for tasks such as ship docking and marine construction. Conventional propeller/rudder configurations are more efficient for port-to-port towing.
Kort nozzle The Kort nozzle is a sturdy cylindrical structure around a special propeller having minimum clearance between the propeller blades and the inner wall of the Kort nozzle. The thrust-to-power ratio is enhanced because the water approaches the propeller in a linear configuration and exits the nozzle the same way. The Kort nozzle is named after its inventor, but many brands exist.
Cyclorotor The cycloidal propeller is a circular plate mounted on the underside of the hull, rotating around a vertical axis with a circular array of vertical blades (in the shape of
hydrofoils) that protrude out of the bottom of the ship. Each blade can rotate itself around a vertical axis. The internal mechanism changes the angle of attack of the blades in sync with the rotation of the plate, so that each blade can provide thrust in any direction, similar to the collective pitch control and cyclic in a helicopter. ==Fenders==