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Post Info TOPIC: High Temperature Superconductor motors
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High Temperature Superconductor motors



What a terrific combo HTS motors powered by high-performance mini-nukes would make !  ....wonder how much lighter the HTS motors could be made if aerospace-type materials (titanium drive shaft, etc.) were to be used to replace the heavy-duty marine-type steel construction currently used ? (anyone interested in monster-size nuke helicopters powered by a spaceship-style 80MWe VCR-MHD reactor ?)


http://www.spacedaily.com/news/energy-tech-04zzn.html


American Superconductor Achieves Full Power Of 5MW Ship Motor


Westborough MA (SPX) Sep 28, 2004


American Superconductor Corporation, an electricity solutions company, today announced that its prototype 5-megawatt (MW) High Temperature Superconductor (HTS) ship propulsion motor has been demonstrated successfully at full load, under steady state operational conditions, at the Center for Advanced Power Systems (CAPS) at Florida State University in Tallahassee.


The motor was developed under contract with the U.S. Navy's Office of Naval Research (ONR) to prove the viability of HTS technology for both military and commercial marine propulsion. After the 5-MW motor completes load and ship mission profile simulation tests at CAPS, it will undergo additional performance testing at the Naval Surface Warfare Center, Carderock Division in Philadelphia. The Navy will then define further land-based and at-sea testing for this motor.


"We continue to be pleased with these new test results on the 5-MW superconductor motor," said Rear Admiral Jay Cohen, Chief of Naval Research. "The HTS ship propulsion motors we have been developing continue to perform above our expectations and are providing an important new option for future Navy propulsion systems."


HTS motors are ultra-compact, measuring as little as one-third the weight and one-half the size of copper-based motors of the same power and torque rating, which means Navy ships can carry more fuel and munitions and have more room for crew's quarters and weapons systems, and commercial ship owners and operators can carry more passengers and cargo.


In addition, HTS motors operate with higher fuel efficiency and will have lower maintenance costs than their conventional copper counterparts. These substantial advantages offered by HTS ship propulsion motors are expected to be provided at a cost equivalent to conventional motors of the same power and torque rating.


The Navy marked the occasion with an event at the newly-opened CAPS facility last week with senior representatives from the U.S. Navy, American Superconductor, Florida State University, and others in attendance. At the event, David Paratore, AMSC's president and chief operating officer said that momentum is building in the commercialization process for HTS ship propulsion motors.


"In addition to continuing the demonstration of all technical aspects of our new HTS motors, we are continuing to strengthen and develop business relationships with ship builders, ship propulsion integrators and ship owners and operators to accelerate the adoption of HTS ship propulsion motors for both commercial and military applications," he said. "The successful development of these business relationships is a next crucial step in the commercialization of our HTS motor products."


Technical Background


Load testing demonstrates how a motor performs under the stresses and operating conditions it undergoes when powering a vessel at sea. This final development stage of the motor provides engineers and ship propulsion integrators with vital information regarding design options and the operating characteristics of the new superconductor motors. An important aspect of the new results obtained at CAPS on the 5-MW motor is the validation of AMSC's electromagnetic, mechanical and thermal analytical models for HTS ship propulsion motors -- a vital step in the development cycle for advanced electrical machines.


Significantly, the HTS motors being developed by AMSC involve no major changes in fundamental motor technology. The machines operate in the same manner as conventional motors, gaining their substantial advantages by replacing copper rotor coils with HTS rotor coils. The rotors of HTS motors run "cold," so they avoid the thermal stresses experienced by conventional machines during normal operation. The inability to achieve proper thermal management has been a key impediment in developing power dense, high torque motors required for naval and commercial marine applications. Stresses caused by heat in other advanced, high power motors often necessitates costly motor repair and refurbishment.


AMSC's 5-MW (6,667 shaft horsepower) HTS propulsion motor rotates at 230 revolutions per minute (rpm) and generates 200,000 Newton-meters of torque at full power. This power and speed rating are typical for copper-based electric propulsion motors currently used in ferries and small cargo ships around the world. This class of superconductor motor also is expected to become a standard power rating for certain military ships.


The 5-MW HTS motor is a subscale version of the 36.5-MW (49,000 horsepower), 120 rpm HTS motor currently being built by AMSC and Northrop Grumman under a $70M three-year contract from ONR. The 36.5-MW motor, which will produce 2.9 million Newton-meters of torque, is due to go through a Detailed Design Review with the Navy in October -- the next major step in its development.


On schedule to be delivered in the spring of 2006, the 36.5-MW motor is being specifically designed to provide propulsion power for the next generation of Navy warships. A motor of this scale also has direct commercial application in large cruise ships and merchant vessels.


As an example, two 44-MW conventional motors are used to propel the famous Queen Elizabeth 2 cruise ship. These motors each weigh over 400 metric tons; the 36.5-MW HTS motor will weigh approximately 75 metric tons. Newer vessels, such as the QE2's sister ship Queen Mary 2, which sailed on her maiden voyage in January 2004 and has a total propulsion requirement of 84-MW, are ideal candidates for HTS motors.


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Under the ONR program, American Superconductor will deliver a factory-tested AC synchronous HTS motor, integrated with a commercially available power electronic drive system that will be suitable for shipboard at-sea trials. The 5 MW rotor shown here developed under this contract will operate at 230 revolutions per minute (rpm) and represents a ten-fold increase in torque over the 5,000-hp, 1,800 rpm HTS motor AMSC built and tested during 2001. The low-speed, high-torque 5 MW HTS motor is a critical development milestone on the path to 25 MW and 36 MW motors, which are the power ratings expected to be utilized on electric warships and on large cruise and cargo ships. HTS motors of these power ratings are expected to be as little as one-fifth the volume of conventional motors.


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Related Links


FSU's Center for Advanced Power Systems http://www.caps.fsu.edu/


AMSC's marine propulsion HTS motor development program


http://www.amsuper.com/products/motorsGenerators/shipPropulsion.html


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http://www.amsuper.com/products/library/001-HTS_machines.pdf


Development Status of Superconducting Rotating Machines


Advances in High Temperature Superconductors (HTS) are enabling a new class of synchronous rotating machines (SuperMotors and SuperGenerators) that can generically be categorized as SuperMachines. Compared to conventional machines of equivalent rating, these SuperMachines are expected to be less expensive, lighter, more compact, efficient, and provide significantly superior stable operation in a power system. The field windings are made with HTS conductor material (BSCCO, or Bi-2223) which operates at 35-40 K and can be cooled with inexpensive, off-the-shelf cryocoolers available from a number of manufacturers throughout the world. As will be discussed, these advanced SuperMachines are attractive for use in industrial as well as naval and commercial maritime industry applications. This paper discusses recent SuperMachine work at AMSC and other companies. HTS rotating machine technology is maturing rapidly, and electricity producers as well as the end-users will undoubtedly benefit enormously from these advancements.



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