Press Release

“Inovelis™” Pump Jet Signals a Technological Breakthrough in Electrical Thruster Propulsion Technology for Offshore
May 06, 2013
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  • Podded Thruster Design Allows Fuel Savings of up to 10 Percent over Conventional Azimuth Propulsion with Less Emissions
  • Designed to be More Efficient for Transit Mode and for Dynamic Positioning
  • Compact Design for Improved Hull Integration Enables Increased Payload

PARIS—May 6, 2013—In a move that could change the way the maritime industry views propulsion technology, GE’s Power Conversion business (NYSE: GE) has increased its offshore systems portfolio with Inovelis™, a podded thruster with unmatched fuel efficiency and overall performance.

Inovelis incorporates an electrically powered propeller with its motor housed within a steerable pod mounted beneath the hull of an offshore vessel. It incorporates all the assets of a podded thruster, including maneuverability, responsiveness and excellent fuel economy. Based on pump jet principles, it features fixed stator vanes and a nozzle that act together to guide the water flow across the impeller blades, substantially enhancing propulsion efficiency. Its compactness enables an even greater degree of integration between the hull and the propulsion unit, further influencing the ships’ fuel economy and emissions.

Pump jet technology was originally used in submarines and is already used for high-speed surface vessels. Now GE is applying it to offshore platform support vessels (PSVs). The Inovelis solution has higher thrust capability than a more conventional propulsion system, as well as improved hydrodynamics, providing higher efficiency over a wider range of operations, in dynamic positioning (DP) and in transit. A traditional propulsion setup for a PSV has a large propeller with a nozzle, which has reduced performance when the speed of the ship increases.

Whereas a vessel with a traditional propulsion system has a propeller pushing on the water, a pump jet draws in water and then forcibly ejects it out through a nozzle. It is the marine equivalent of a jet engine, except that while jet engines are fixed, Inovelis can be pointed in any direction on a horizontal plane.

“Inovelis is a new concept that brings better performance—both improved thrust capability as well as improved hydrodynamics—combined maximize performance of pod technology and will bring fuel efficiency,” says Paul English, marine leader of GE Power Conversion.

He cites a PSV driven by two 2.5-megawatt Inovelis pods, operating 30 percent of the time in transit at full speed. “The benefit in terms of fuel savings could be, based on our estimates, up to $250,000 in one year,” English says.

“There is a clear trend towards larger, more capable offshore support vessels and a second trend towards the search for oil and gas taking these vessels ever further from home ports,” says English. “Ship operators are looking for systems that support cost-effective, fuel-efficient, rapid transit without sacrificing the capability to operate effectively and efficiently once on site in DP mode. This raises a dilemma as many current designs are a compromise between these two differing requirements.”

Inovelis is different. It’s a system designed to best suit the performance and fuel efficiency needs of both modes of operation, transit and DP.

English says that the Inovelis advantage is so significant that it has the potential to permit ship designers to incorporate reduced capacity power plant—fewer cylinders or smaller engines—when designing offshore vessels.

Inovelis uses GE’s innovative induction motor technology, which brings further reliability and helps reduce maintenance requirements. In fact, the pod has a “no man access” design, which helps reduce overall size and provides an additional differentiation from other designs.

Inovelis exemplifies GE’s expertise across electrical propulsion and power technology. “When the combination of engines, electrical power plant, Inovelis thruster and control systems such as DP are correctly designed and optimized as a system, there can be massive advantages in terms of initial cost and lifetime cost,” says English. “Great components become great systems, and the benefits endure for the lifetime of the ship.”

GE already has received a number of orders all destined for large PSVs. The first is scheduled for delivery in the second quarter of this year, with ship commissioning around the end of the year.GE Power Conversion’s product and system portfolio for offshore vessels includes power generation, electric propulsion, drilling systems, DP and ship automation systems.

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About GE Power Conversion

GE’s Power Conversion business applies the science and systems of power conversion to help drive the electrification of the world’s energy infrastructure by designing and delivering advanced motor, drive and control technologies that evolve today’s industrial processes for a cleaner, more productive future. Serving specialized sectors such as energy, marine, oil and gas, renewables and industry, through customized solutions and advanced technologies, GE Power Conversion partners with customers to maximize efficiency. Follow GE’s Power Conversion business on Twitter @GE_PowerConvers and on Linkedin.

About GE

GE (NYSE: GE) works on things that matter. The best people and the best technologies taking on the toughest challenges. Finding solutions in energy, health and home, transportation and finance. Building, powering, moving and curing the world. Not just imagining. Doing. GE works. For more information, visit the company's website at www.ge.com.

Follow GE’s Energy Connections business on Twitter @GE_EnergyMgmt.

 

Contact Information
Name GE news
Divison Masto Public Relations
Email information@mastopr.com
   
Name Paul Floren, GE
Division Power Conversion, External Affairs
Phone +33 1 53 59 28 44
Email paul.floren@ge.com
   
Name Carsten Ritter
Division Power Conversion, Communications
Phone +49 30 76 22 31 73
Email carsten.ritter@ge.com

 

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