Here we see a marine motor
prototype that uses superconducting technology.
Slowly but surely each component of a superconducting energy system is
now been assembled. We start with the
big machines as de did with stem and we did with electrical and with fuel based
systems. They all take years of
incremental design improvement.
Combining this with generators and
the new thin superconducting cables and we have a technology package that can
be installed industrially in plants and ships.
The age of superconductivity is
almost here and will soon dominate new builds.
98% efficiency is pretty neat.
New Megawatt Superconducting Motor Tops Japanese Output Record
Nov. 01, 10
Tokyo, November 1, 2010 — Kawasaki Heavy Industries, Ltd. announced
today that its prototype superconducting motor has broken a new record. The
motor achieved Japan ’s
highest power output of 450 kW in a test conducted at Kawasaki’s Akashi
Technical Institute in Akashi , Hyogo Prefecture .
This achievement marks yet another breakthrough in Kawasaki ’s research and development into
space and energy-saving superconducting motors for large vessel propulsion
systems as well as large-scale industrial drive systems.
1.About the Breakthrough
Superconductivity is a unique phenomenon that has been observed in
specific materials. When these materials are cooled to ultralow temperatures,
they demonstrate absolutely no electrical resistance. If applied to various
devices and systems, this phenomenon can significantly boost efficiency.
Superconducting coils incorporated into the design of the prototype
motor’s rotor are cooled with cryogenic gas. Eliminating the need for an iron
core to generate a strong magnetic field, these coils have enabled Kawasaki to build a motor
that's half the size of conventional models. This most recent test was
conducted on a prototype motor with a designed output of 1 MW. When two out of
six coils were installed on each pole, the motor’s power output reached 450 kW with
an outstanding efficiency rate* of 98% to top the Japanese record. The test
results suggest that motor output will reach 1 MW when all coils are installed.
*Motor efficiency is the ratio of mechanical energy output to
electrical energy input.
2.Possible Applications
While ships are now starting to employ electric propulsion systems
designed to reduce environmental load and diversify energy sources, the
maritime industry is still looking for new ways to boost fuel efficiency as
well as cut emissions in order to combat climate change even further. It’s
against this backdrop that superconducting technology has fallen under the
spotlight as a sustainable solution to the world’s mounting energy and
environmental problems.
A vessel employing an electric propulsion system with a superconducting
motor will consume far less electricity than an ordinary diesel engine ship.
What’s more, the motor’s compact size makes room for optimal hull designs that
will reduce wave resistance. Another benefit is minimal energy loss since the
motor drives the ship’s propellers directly without the use of speed reducers.
Altogether these advantages of superconducting technology cut fuel consumption
by about 20%.
This year, Kawasaki
began development of a 3 MW commercial model for use with various types of
domestic cargo vessels that will boast the world’s highest efficiency and
smallest footprint. Kawasaki
is moving full speed ahead to put superconducting motors to use on medium and
large-sized merchant ships as well as industrial power generators and drive
systems for highly efficient products designed to shrink our carbon footprint.
Superconducting motors for liquefied natural gas carriers as well as tomorrow’s
liquefied hydrogen carriers are making the most of cold energy to bring
propulsion system efficiency to new heights.
Kawasaki has been developing a superconducting motor under a project
commissioned (and currently subsidized) by the New Energy and Industrial
Technology Development Organization (NEDO) since September 2007 in cooperation
with the Tokyo University of Marine Science and Technology, the National
Maritime Research Institute, Japan Superconductivity Organization, and Sumitomo
Electric Industries, Ltd.
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