Title
SYNAPS (Synchronous Analysis and Protection System)

CoPED ID
c61d4c3f-b8eb-4a40-b644-0e96533375d0

Status
Closed


Value
£996,475

Start Date
Nov. 1, 2015

End Date
Jan. 31, 2018

Description

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SYNAPS is an innovative project which brings together experts from the
power engineering, powerline communications, and statistical signal
processing communities to target the so-termed energy trilemma, namely
the challenge to improve energy security, reduce carbon emissions, and
reduce costs.
SYNAPS aims to develop a networked distribution automation platform for
low-voltage networks which will provide fault detection, classification
and location of faults, together with smart protection and
reconfiguration, at a significantly lower cost than has previously been
possible. In effect, this project will add a cost-efficient smart layer
across the national power grid which will not only solve long-standing,
industry-wide challenges but will also open up countless other
opportunities for stable, future-proofed growth as our cities and infrastructure become smarter and progress to the internet-of-things
future.
Since the low-voltage network was originally intended for one-way
distribution of energy, there has been little previous interest in
monitoring it. However, there is now a new imperative created by the
impact on network stability due to the growing deployment of consumer
operated renewable distributed generation equipment, electric
vehicles--- not to mention the 'exploding pavements' issue.
Currently, distributed generation amounts to only a small proportion of
the total network generating capacity, hence its impact on low-voltage
network performance is negligible. However, there is significant
industry concern about the effects of increased numbers of distributed
generation and electric vehicle installations, especially when these are
concentrated in co-located clusters.
The low-voltage electricity network needs to be able to support two way
electrical flow and real-time communication. About 9% of electricity is
lost in the distribution network, annually, and it has been reported
that 45% of Distribution Network Operator total network costs and 50% of
customer minutes lost are due to low-voltage cable faults.
Managing these new low carbon technologies present significant
challenges but early preparation and introduction of a Smart Grid should
make the transition easier and reduce overall costs. This project will
draw upon machine learning methodology to automatically monitor
low-voltage networks and detect and localise both known, and anomalous,
problem events. Furthermore, algorithms will also be progressed to
support software-based protection and reconfiguration of the network.
It is anticipated that such smart sensor networks will make a
significant contribution in network efficiency and future-proofing, and
have immense benefits for both consumers and EU/UK environmental and
energy policy targets.


More Information

Potential Impact:
This project will deliver economic and commercial impact throughout the
energy sector and beyond. Through close collaboration with Powerline
Technologies Ltd, Techna International Ltd, Akya Ltd, and other
stakeholders, including Distribution Network Operators (DNOs), it will
facilitate rapid pull-through and knowledge transfer of advanced machine
learning and statistical signal processing to deliver enhanced network
performance, decrease downtime, and increase reliability. In turn, this
will support a range of EU/UK environmental and energy policy targets.
Anticipated impacts include:
. Distribution Network Operators are worried about the effect of new
renewable technologies on the quality of their network service. The
deployment of the Synaps platform will enable them to detect such
issues rapidly taking remedial action in a much shorter timescale.
Hence, better detection and mitigation of issues related to introduction
of photovoltaic and electric vehicles into the network, facilitating
wider deployment with resultant reduction in carbon emissions.
. Reduce the need for expensive site visits to investigate circuit
failures and enabling DNOs to not only fix feeder faults proactively
before they cause a power outage but also to plan their maintenance more
effectively by concentrating on those cables estimated most probable to
fail.
. Increased reliability of low-voltage network with reduced network
downtime, providing a better service to electricity consumers.
. Better low-voltage asset management potentially contributing to lower
energy costs. DNOs are under great pressure to extract more value from
their assets.
. provide are a necessary prerequisite to the evolution of DNOs into a
more active role, going beyond mere distribution to take on a role as a
manager of "microgrids" balancing renewable energy generation and
consumption, leading to a more resilient, cost effective and greener
industry.
In wider terms, it is anticipated that a successful project will
showcase the possibilities afforded by embedding advanced statistical
signal processing and machine learning methodology into a physical,
real-world system. By forming a genuinely interdisciplinary team from
academia and industry, this project will make a genuine leap forward
into the future and bring the long anticipated smart cities and
internet-of-things concepts one step closer to realisation.

Sofia Olhede PI_PER
James Nelson PI_PER

Subjects by relevance
  1. Distribution of electricity
  2. Electrical power networks
  3. Networks (societal phenomena)
  4. Signal processing
  5. Energy policy
  6. Costs
  7. Renewable energy sources
  8. Data communications networks
  9. Machine learning
  10. Networking (making contacts)
  11. Power-line communication
  12. Energy production (process industry)
  13. Information networks

Extracted key phrases
  1. SYNAPS
  2. Distribution Network Operator total network cost
  3. Voltage electricity network
  4. Distribution network
  5. Voltage network
  6. Smart sensor network
  7. Synchronous Analysis
  8. Total network generating capacity
  9. Low cost
  10. Protection System
  11. New low carbon technology
  12. Network performance
  13. Network service
  14. Innovative project
  15. Energy cost

Related Pages

UKRI project entry

UK Project Locations