Smart Grid Contract
Embargoed Release: 07:00hrs Monday 20 April 2009
Zenergy Power plc
(`Zenergy')
Con Edison Working with Zenergy Power to Develop `Smart Grid' Device
to Protect New York City's Electrical System from Power Interruptions
Zenergy Power plc (AIM:ZEN.L), the superconductor energy technology company, is
pleased to announce that its wholly owned subsidiary, Zenergy Power Inc., has
been contracted by The Consolidated Edison Company of New York (`Con Edison')
to build and test a "Smart Grid" device for improving the stability and
reliability of New York City's electrical system. The equipment, known as a
Fault Current Limiter (`FCL'), instantly detects and absorbs spikes in power
that, left unmanaged, could damage electrical equipment or trigger power
outages.
Con Edison, a subsidiary of Consolidated Edison, Inc. [NYSE: ED], authorised a
project to design, build and test a single-phase FCL of a type that would be
applicable to a number of substations within the utility's electrical systems.
Zenergy expects to deliver the prototype by the end of August.
Common events, such as storms or accidents, can produce large spikes in current
on the grid. These surges are termed "faults" and may damage electrical
equipment or cause partial or total power failures on an electrical network. In
part due to steadily increasing electricity demands of New York City, Con
Edison has been active in studying new technologies to manage the impact of
these "faults" and maintain its system's reliability.
Pat Duggan, Project manager and FCL specialist, Con Edison, commented:
"Fault current limiters will be an essential element of the smart grid to
maintain reliability and improve its resilience and flexibility. This is
especially important as the load grows, including the move to electricity as a
preferred source for new uses such as plug-in hybrids."
In practice, Zenergy's FCL is electrically connected to the grid it protects.
It allows normal current to pass through unimpeded but, when it senses a fault
current, instantly counters the electrical flow. This reaction, created in part
by the superconductor in the device, chokes off a potentially damaging
electrical spike. Once the fault current subsides, the FCL again allows
standard levels of current to flow, protecting the electrical system
automatically without human intervention.
Tests that Zenergy conduct in its development of the FCL for Con Edison will
ensure the device is able to protect equipment from the damaging effects of
fault currents that occur on the utility's 13.8 kilovolt (kV) "feeder system" -
an electrical distribution network that delivers power to customers. At the
conclusion of testing, Zenergy expects to extend its designs to other FCLs that
are customised for protecting Con Edison's and other utilities' equipment on
higher voltage lines of up to 138kV and beyond.
Today, power disruptions from faults and related issues are estimated by the
U.S. Department of Energy (DOE) to cost the U.S. economy more that $100 billion
per year. Under its mandate to lead the modernisation of the electric grid, the
DOE partially funded Zenergy's development of the FCL to address these issues.
Nationally, a major effort is underway to develop and deploy "Smart Grid"
devices to help the present infrastructure meet the country's growing energy
requirements. Devices like Zenergy's FCL greatly improve grid reliability and
security, which is necessary to establish a more stable service, fewer outages
and more rapid power restoration following electrical interruptions.
-Ends-
Further information
Andrew Tan Zenergy Power Plc + 49 2226 9060 668
Vikki Krause/Kirsty Corcoran Hansard Group + 44 207 245 1100
Andrew Godber/Katherine Roe Panmure Gordon & Co + 44 207 459 5742
Kam Bansil/Rory Scott Mirabaud Securities + 44 207 866 0244
Limited
About Con Edison
Con Edison is a subsidiary of Consolidated Edison, Inc. [NYSE: ED], one of the
nation's largest investor-owned energy companies, with approximately $14
billion in annual revenues and $33 billion in assets. The utility provides
electric, gas, and steam service to more than 3 million customers in New York
City and Westchester County, New York. For additional financial, operations,
and customer service information, visit Con Edison's Web site at http://
www.ConEd.com/.
About Zenergy Power plc
Zenergy Power plc is a superconductor energy technology company, listed on the
AIM market of the London Stock Exchange and comprising three operating
subsidiaries located in Germany, USA and Australia. By innovating
superconductor based technology solutions, the Group provides patented clean
energy devices that greatly improve the efficiency with which customers
generate, distribute and use electrical energy.
To date, the incredibly energy efficient superconductive components at the
heart of Zenergy's products have successfully delivered industrial customers
significant reductions in energy consumption and provided utility companies
with cutting-edge smart gird solutions. Looking to the near future, the Group
is also developing a range of highly-energy efficient superconductor components
for electricity generators capable of greatly reducing the cost of producing
offshore wind power. All of which leads to the production of fewer carbon
emissions in the world and a more sustainable economic growth path. In 2007
Zenergy achieved the world's first sale of an industrial scale commercial
application incorporating superconductor technology and has subsequently
developed products capable of addressing multi-billion dollar global markets.
About superconductivity
Superconductive materials are capable of conducting electricity without any
resistance and were first discovered in 1911 in what was to prove to be one of
the most significant scientific breakthroughs of the 20th century.
Superconductors enable:
(a) Induction Heaters to be twice as efficient for the metals industry
(b) Fault Current Limiters to protect power grids from blackouts
(c) Direct-drive wind generators to be significantly reduced in size and weight
allowing the operation of wind generators in excess of 8 MW
(d) Existing hydro-power sites to increase energy efficiency and electrical
power output