Powership

A powership, or power ship, is a special purpose marine vessel, on which a power plant is installed to serve as a power generation resource. Converted from existing bulk carriers, the powerships are self propelled, ready to go infrastructure for developing countries that plug into national grids where required.[1] They can be equipped with single or multiple gas turbines, reciprocating diesel and gas engines, boilers or nuclear reactors for electricity generation. Bureau Veritas, an international certification agency with experience in overseeing both shipbuilding and power plant development, classifies such floating power plants as "special service power plants".[1]

Unmotorised powerships, known as power barges, are simply conventional power plants installed on a deck barge. These are sometimes called "floating power plants" or "barge mounted power plants". They were initially developed during World War II by General Electric for the War Production Board as a transportable large scale power generation resource.

Contents

History

One of the earliest (if not the first) powership built was in 1931, the SS Jacona built by the Newport News, Virginia Shipyard and Drydock Company, for the New England Public Service Company of Augusta, Maine. The idea came to the president of the Augusta firm, when one winter a severe winter storm took out a lot of the New England major power transmission lines. The Jacona role would be to dock as near as possible to the affected area and hook into the local power grid restoring power. During the Summer months the Jacona would hook into vacation area power grids where power needs are extremely low during off season and extremely high during the Summer vacation season. The Jacona was fitted with steam boilers which drove two generators which could produce 100,000 kw each.[2]

At one time the US Navy used its submarines when disaster hit a local community bring down the commercial power grid, this led to the idea of powerships for the US Navy, and an early US Navy powership was the USS Saranac, a former US Navy naval ship. Saranac was a 1942 built fleet oiler before her conversion into a powership following the Second World War to serve in the US Navy and Army. In 1957, she was sold to Hugo Neu Corporation of New York City and was used then as a power facility abroad by the International Steel and Metal Corporation. In 1959, she was renamed Somerset.[3]

The first floating nuclear reactor ship was the MH-1A, in the Panama canal zone.

Powerships offer a number of advantages over other forms of power plants; due to their mobility, powerships can be connected to local power grids to temporarily cover demands whenever on site power plants are insufficient or the building of new power plants will take time,[4] while dual-fuel engines on board can be powered by either liquid fuels or gas. The powership is able to use any infrastructure available at the site on which she is required.[5][4]

Current usage

Newly built power ships are existing large bulk carriers, which are fitted with state-of-the-art, large-bore dual-fuel diesel engines that run on heavy fuel or natural gas to generate electricity,[5] relevant transformers and electric switchboards.

It is expected that a powership will moor at one place for an average duration of three to five years. For this reason, powerships are an ideal solution to bridge the gap for a certain time until a local power plant is built or the high demand in electricity supply is over.[4]

Karadeniz Powership Co. Ltd., a subsidiary of Karadeniz Energy Group based in Turkey, developed and carries out a project named "Power of Friendship" that aims to provide a total of 2,010 MW of electricity to more than ten shortage-stricken countries in the Middle East, northern Africa and southern Asia with ten different ships by the end of 2010.[6][7] The first powership of the project, which can supply 144 MW power, went into service at the beginning of 2010 off the shore near Basra in south-eastern Iraq,[8] and the second powership is on its to the same place.[9] The company signed also a contract with Pakistan.[4]

Power barges

Power barges are in demand for their short construction cycles, flexibility in deployment, minimal land requirements and unique maritime financing. The capital costs of constructing and operating power barges are very competitive with their land-based equivalents.

Construction and installation

Power barges are typically moored in protected harbors, and may be entirely self contained with step-up transformers or connected with land-based transformers that send electricity to domestic consumers. If the purchaser defaults, the manufacturer or intermediary can tow the barge(s) away and sell the plant to another customer. Floating power plants are usually constructed off-site at a shipyard, and then transported via dry tow to the end-use location.

Vibration and thermal growth

Gas turbines and diesels generate substantial amounts of vibration both during start-up and operations. The gas turbine generator coupling is very sensitive to alignment and therefore, controlling deflection is paramount. Foundation designs seek to either isolate the deck barge and the power island raft or to combine the structures of the power island and deck barge to gain the same structural rigidity. The difference is that the integrated structural approach yields a direct path for vibration, while the isolated structural approach seeks the rigidity in an independent foundation and utilizes spring mounts or other mat type vibration dampening.

The deck barge will tend to exhibit thermal growth during the diurnal cycles and possible out-of-trim conditions referred to as hogging and sagging caused by changes in ballast or fuel.

The power island design requires certain deflection limitations at the generator coupling and vibration dampening from start-up or out-of-phase operations, as well as significant trip loads mostly in the generator section. The power barge systems engineer must integrate power island engineering with naval architecture and marine engineering.

From New York City to Bangladesh

During the 1990s, power barges became a popular way of providing energy to developing nations, with companies including equipment suppliers like General Electric, Westinghouse, Wärtsilä, and MAN; by developers such as Smith Cogeneration, AES, GMR Vasavi, US Generation, which operate floating power plants for customers located in New York City (USA), Khulna (Bangladesh), the Dominican Republic, Effassu (Ghana), as well as in the Philippines, Jamaica, Kenya, and Malaysia. Engineering, procurement and construction companies such as Karadeniz Energy, Power Barge Corporation, Waller Marine Inc, Hyundai, IHI Corporation and Mitsui offer gas turbine power barge construction programs, and Karadeniz Energy, MAN and Wärtsilä offer medium speed engine power barges.

Today there are over 75 power barges deployed and operating around the world. The utilization rate of power barges is around 95% with only one or two power barges available in the global market at any one time.

New power barge projects range from RWE's recently announced foray into gas turbine peaker power barges to Karadeniz Energy's medium speed diesel engine power barge program for Iraq and Pakistan. Karadeniz Energy has delivered over 675 MW of power barges and power ships and builds the largest power barges/ships in the world.

In April 2011, Waller Marine finalized installation in Venezuela of two large floating power generation barges into a prepared basin at Tacoa. The two 171 MW barges, each supporting a GE 7FA dual fuel industrial gas turbine, will be connected to the grid and soon supply much needed power to Caracas.

As of July 4th 2011, Karadeniz Energy has over 400 MW of power barges/ship under construction with deliveries offered within 90 to 120 days from contract placement.

Powerships built

Year of conversion given in parenthesis.

Defunct

In use

Notable powerbarges

See also

References

  1. ^ a b c "Bureau Veritas classes powerships". Malta Maritime Directory. 2010-06-29. http://www.maritimedirectory.com.mt/newsread.asp?l=e&ID=794. Retrieved 2010-08-22. 
  2. ^ "A Floating Power Plant", February 1931, Popular Mechanics detailed article page 217 and 218
  3. ^ "T2 Tankers-Q-R-S". Mariners-The Wwbsite Of The Mariners Mailing List. http://www.mariners-l.co.uk/T2Q.html. Retrieved 2010-08-28. 
  4. ^ a b c d "MAN duel fuel diesel engines for powership". The Daily Engineer. 2010-03-11. http://www.lubricants.co.uk/20560/man-duel-fuel-diesel-engines-for-powership.html. Retrieved 2010-08-22. 
  5. ^ a b Nilsson, Christin (2009-10-30). "MAN Diesel wins 100-million € order". Metal Supply. http://www.metal-supply.com/portal-b2b/article/view.html?id=40836. Retrieved 2010-08-22. 
  6. ^ "Turkey launches 'powership' on Istanbul's Black Sea". energynews24.com. 2010-04-14. http://www.energynews24.com/2010/04/turkey-launches-powership-on-istanbuls-black-sea. Retrieved 2010-08-22. 
  7. ^ Patel, Sonal (2010-02-01). "Of Floating Power Barges and Ships". http://www.powermag.com/issues/departments/global_monitor/Of-Floating-Power-Barges-and-Ships_2449.html. Retrieved 2010-08-22. 
  8. ^ Sgt. Francis Horton, 367th MPAD, USD-S PAO (2010-08-11). "Power on the water". www.army.mil The Official Homepage of the United States Army. http://www.army.mil/-news/2010/08/11/43535-power-on-the-water/. Retrieved 2010-08-22. 
  9. ^ Öndeş, Osman (2010-08-13). "Karadeniz Powership Rauf Bey gemisi Irak'ta" (in Turkish). Referans. http://www.referansgazetesi.com/haber.aspx?HBR_KOD=142883. Retrieved 2010-08-22. 
  10. ^ "Kpsdoganbey". Vessel Tracker. http://www.vesseltracker.com/en/Ships/Melpomeni-8117031.html. Retrieved 2010-08-22. 
  11. ^ "Karadeniz Ps Raufbey". Vessel Tracker. http://www.vesseltracker.com/en/ShipPhotos/516253-Karadeniz-Ps-Raufbey-7925522.html. Retrieved 2010-08-22. 
  12. ^ "Dünyanın enerjisi' Irak'a yola çıktı" (in Turkish). İhlas Haber Ajansı. 2010-08-12. http://www.iha.com.tr/haber/detay.aspx?nid=133172&cid=11. Retrieved 2010-08-22. 
  13. ^ "Karadeniz P. kaya bey". Vessel Tracker. http://www.vesseltracker.com/en/Ships/Karadeniz-P.kaya-Bey-7925546.html. Retrieved 2010-08-22. 
  14. ^ "Dünyanın ilk ve tek yüzer elektrik santrali Jotun Boya ile korunuyor!" (in Turkish). Jotun Boya. http://www.jotun.com.tr/www/tr/20040053.nsf?OpenDatabase&db=/www/tr/20040054.nsf&v=14A6&e=tr&c=CDA29667E2E579D6C2257704003F8471. Retrieved 2010-08-22. 
  15. ^ "Pakistan to plug into the world's largest floating power station". The Guardian (London). 2010-11-19. http://www.guardian.co.uk/world/2010/nov/19/ship-power-station-pakistan. 
  16. ^ Popular Mechanics (February 1931), Floating Power Plant
  17. ^ NavSource Online: Service Ship Photo Archive, Jacona (YFP-1)