Union Rotoiti

Last updated

History
NameUnion Rotoiti
OwnerUnion SSCo 1977–99, ANZDL 1999–2005, CP Ships 2005–06
Port of registryNew Zealand
RouteTrans Tasman
BuilderBroken Hill Pty, Whyalla Steelworks
Cost$30 million
Yard number61
Laid down19 September 1975
Launched12 November 1976
Completed22 June 1977
Identification IMO number:  7366233
FateBroken up Chittagong, Bangladesh 2007
General characteristics
TypeContainer and Ro-Ro
Tonnage23,971  GRT
Length203.2 m LOA
Beam26.3 m
Propulsion1977–86 1 × General Electric MM5262RB gas turbine 1986–2007 2 × Wärtsilä diesel
Speed19 knots

Union Rotoiti was a large roll-on/roll-off vessel operated on the trans Tasman route by the Union Steam Ship Company of New Zealand (USSCo.). Along with her sister ship Union Rotorua , she was unusual in that she originally had turbo-electric transmission.

Contents

Construction

Union Rotoiti was built by Broken Hill Pty (BHP) at the Whyalla Steelworks in South Australia. She was completed on 22 June 1977. Delivery was delayed by a year and costs went over budget by $8 million dollars bringing the total cost to $30 million dollars. It was subsequently acknowledged that Rotoiti and her sister ship Rotorua could have been built for half the price if they had been built outside Australia. [1]

Union Rotoiti was unusual in that she was powered by gas turbine. The ship's main gas turbine / electric machinery consisted of a single General Electric MM5262RB gas turbine operating on a regenerative cycle. This was coupled to an AC generator to provide a maximum designed continuous rating of 18822 kW for a motor propeller speed of 200 rpm. The turbine speed of 4670 rpm was reduced to 1500 rpm for the generator by a reduction gearbox. The generator output 6.6 kV 3-phase at 50 Hz to the ships motors. There were four closed air circuit water cooled synchronous AC motors, arranged with two per shaft. [2] Previous USSCo vessels had traditionally had twin outward turning fixed pitch propellers, however Union Rotoiti has twin inward turning controllable pitch propellers. This decision was made in the interests of manoeuvrability, since the center of thrust is in the outer part of the disk thus giving a larger turning moment arm. [3] In normal running configuration the whole system could be controlled by a single lever from the bridge. The speed of the gas turbine was controlled by a solid state control and safety system integrated with the propulsion controls. [2] Because of high fuel use it was subsequently converted to diesel power at Newcastle NSW in 1986. [4]

Union Rotoiti was also interesting in its use of ro-ro for the Trans Tasman route. The cargo did not necessarily just contain truck and trailer units, but also had cargo stacked in the decks using forklifts. This necessitated the vehicle decks of the ship being built to withstand the loading of up to 39 t per axle that could be exerted by a heavy forklift. Union Rotoiti was built with a large angled stern ramp that allowed her to unload her cargo at any wharf without the need for a specialist linkspan as required by most ro-ro ships. She also had a bow door which could be used if a linkspan was present in a port, thus allowing cargo to be worked both forward and aft speeding up turn around time. [3]

Incidents

In May 1980 Union Rotorua was on passage from Tauranga to Sydney when she broke down 200 miles west of Cape Maria van Diemen. Union Rotoiti was only 80 miles away and the two masters agreed to attempt a tow. Captain Andrew Keyworth, one of the most senior masters of the USSCo, was the master of Union Rotoiti. With much skill on his part, and while the ships were sometimes only 25 metres apart, a line was made fast between the two ships by use of a line-carrying rocket. Once the tow began 422 nm were covered in just over 56 hours at an average speed of 7.5 knots. It was a feat never before accomplished with two ships of this size, and Captain John Warren of the Union Rotorua later exclaimed: ‘If anyone had previously tried to tell me it was possible … I would have thought them quite barmy’. [5]

On 23 April 1999, New Zealand Transport Accident Investigation committee reported Union Rotoiti as losing power in the Tasman Sea.

Related Research Articles

Gas turbine Type of internal and continuous combustion engine

A gas turbine, also called a combustion turbine, is a type of continuous and internal combustion engine. The main elements common to all gas turbine engines are:

Electric generator Device that converts other energy to electrical energy

In electricity generation, a generator is a device that converts motive power into electric power for use in an external circuit. Sources of mechanical energy include steam turbines, gas turbines, water turbines, internal combustion engines, wind turbines and even hand cranks. The first electromagnetic generator, the Faraday disk, was invented in 1831 by British scientist Michael Faraday. Generators provide nearly all of the power for electric power grids.

Icebreaker Special-purpose ship or boat capable of maneuvering through ice-covered water

An icebreaker is a special-purpose ship or boat designed to move and navigate through ice-covered waters, and provide safe waterways for other boats and ships. Although the term usually refers to ice-breaking ships, it may also refer to smaller vessels, such as the icebreaking boats that were once used on the canals of the United Kingdom.

Diesel–electric transmission Propulsion system for vehicles

A diesel–electric transmission, or diesel–electric powertrain is a transmission system for vehicles powered by diesel engines in road, rail, and marine transport. Diesel–electric transmission is based on petrol–electric transmission, a very similar transmission system used for petrol engines.

Engine room

On a ship, the engine room (ER) is the compartment where the machinery for marine propulsion is located. To increase a vessel's safety and chances of surviving damage, the machinery necessary for the ship's operation may be segregated into various spaces. The engine room is generally the largest physical compartment of the machinery space. It houses the vessel's prime mover, usually some variations of a heat engine. On some ships, there may be more than one engine room, such as forward and aft, or port or starboard engine rooms, or may be simply numbered.

Combined diesel and gas Compression-ignition engine plus turbine connected to one drive shaft

Combined diesel and gas(CODAG) is a type of propulsion system for ships that need a maximum speed that is considerably faster than their cruise speed, particularly warships like modern frigates or corvettes.

USS <i>Makin Island</i> (LHD-8)

USS Makin Island (LHD-8), a Wasp-class amphibious assault ship, is the second ship of the United States Navy to be named for Makin Island, target of the Marine Raiders' Makin Island raid early on in the United States' involvement in World War II.

Combined diesel-electric and gas Modification of the combined diesel and gas propulsion system for ships

Combined diesel-electric and gas (CODLAG) is a modification of the combined diesel and gas propulsion system for ships. A variant, called the combined diesel-electric or gas (CODLOG) system, contains the same basic elements but will not allow simultaneous use of the alternative drive sources.

Turbo-electric transmission

A turbo-electric transmission uses electric generators to convert the mechanical energy of a turbine into electric energy and electric motors to convert it back into mechanical energy to power the driveshafts.

Folsom Powerhouse State Historic Park United States historic place

Folsom Powerhouse State Historic Park is a historical site preserving an 1895 alternating current (AC) hydroelectric power station—one of the first in the United States.

<i>Sapphire Princess</i> Cruise ship owned by Princess Cruises

Sapphire Princess is a cruise ship owned by Princess Cruises that entered service in 2004 as the sister ship of Diamond Princess. At the time she was one of the world's largest cruise ships, with a capacity of 2,670 passengers and is the second Gem-class ship built by Princess Cruises. Sapphire Princess was christened on 10 June 2004, in Seattle—the first cruise ship ever to be christened in that port.

Marine propulsion Systems for generating thrust for ships and boats on water

Marine propulsion is the mechanism or system used to generate thrust to move a ship or boat across water. While paddles and sails are still used on some smaller boats, most modern ships are propelled by mechanical systems consisting of an electric motor or engine turning a propeller, or less frequently, in pump-jets, an impeller. Marine engineering is the discipline concerned with the engineering design process of marine propulsion systems.

E-Ship 1

The E-Ship 1 is a RoRo cargo ship that made its first voyage with cargo in August 2010. The ship is owned by the third-largest wind turbine manufacturer, Germany's Enercon GmbH. It is used to transport wind turbine components. The E-Ship 1 is a Flettner ship: four large rotorsails that rise from its deck are rotated via a mechanical linkage to the ship's propellers. The sails, or Flettner rotors, aid the ship's propulsion by means of the Magnus effect – the perpendicular force that is exerted on a spinning body moving through a fluid stream.

Integrated electric propulsion (IEP) or full electric propulsion (FEP) or integrated full electric propulsion (IFEP) is an arrangement of marine propulsion systems such that gas turbines or diesel generators or both generate three-phase electricity which is then used to power electric motors turning either propellers or waterjet impellors. It is a modification of the combined diesel-electric and gas propulsion system for ships which eliminates the need for clutches and reduces or eliminates the need for gearboxes by using electrical transmission rather than mechanical transmission of energy, so it is a series hybrid electric propulsion, instead of parallel.

MV <i>Yulius Fuchik</i>

Yulius Fuchik was a Soviet and later Ukrainian barge carrier. Derivatives of the Seabee system, she and her sister ship, Tibor Szamueli, were built in the late 1970s by the Finnish state-owned shipbuilder Valmet in Vuosaari shipyard. As the demand for lighter transport fell in the 1990s, she was sold and eventually broken up in Alang in 2003.

TEV Rangatira was a roll-on/roll-off vehicle and passenger ferry launched in 1971 for the Union Steam Ship Company of New Zealand. She is significant for having been the World's last surviving passenger ship with steam-powered turbo-electric transmission.

Union Rotorua was a large ro-ro vessel operated on the trans Tasman route by the Union Steam Ship Company of New Zealand (USSCo). Along with her sister ship Union Rotoiti, she was unusual in that she originally had turbo-electric transmission.

<i>Sisu</i> (1938 icebreaker)

Sisu was a Finnish state-owned icebreaker. Built in 1939 at Wärtsilä Hietalahti Shipyard in Helsinki, she was one of the world's first diesel-electric icebreakers. In addition to icebreaking duties, she served as a submarine tender for the Finnish Navy during the summer months until the end of the Continuation War.

SS <i>Otaki</i> (1908)

SS Otaki was a New Zealand Shipping Company refrigerated cargo steamship that was built in Scotland in 1908 and sunk by a German merchant raider in 1917.

SS <i>Rotorua</i> (1910) New Zealand Shipping Company steam ocean liner and refrigerated cargo ship

SS Rotorua was a New Zealand Shipping Company steam ocean liner and refrigerated cargo ship that was built in Scotland in 1910 and sunk by a U-boat in 1917.

References

  1. "Ship's cost seen as a 'disaster'". The Sydney Morning Herald . Retrieved 6 February 2016.
  2. 1 2 "Investigation: 61 – Fire on board the Union Rotorua". www.atsb.gov.au. Australian Transport Safety Bureau. Retrieved 6 February 2016.
  3. 1 2 Taylor, GR (October 1976). "RO/RO Ships - State of the Art in Australasia". Marine Technology. 13 (4). Retrieved 7 February 2016.
  4. "Union Rotoiti 1977–1999". New Zealand Ship and Marine Society. Retrieved 5 February 2016.
  5. Taonga, New Zealand Ministry for Culture and Heritage Te Manatu. "Keyworth, Andrew Stanley". www.teara.govt.nz. Retrieved 6 February 2016.