Four smart energy systems demonstrator projects across the
UK have been announced today by Energy and Clean Growth
Minister . From charging electric
vehicles and managing heating and power through machine
learning to storing power with lithium ion batteries and
using heat pumps, these projects show how the very latest
in energy innovation can be put together to provide
cheaper, cleaner energy for users.
The projects are:
-
The Energy Superhub, Oxford, led by Pivot Power LLP
-
ReFLEX Orkney, Orkney, led by the European Marine
Energy Centre
-
Project Leo (Local Energy Oxfordshire), led by Scottish
and Southern Electricity Networks
-
Smart Hub SLES, West Sussex, led by Cloud Infinity
Projects
These demonstrators will show how businesses can develop
local energy approaches at scale that will create better
outcomes for consumers and promote economic growth for the
UK. By the early 2020s, these demonstrators aim to prove
that smarter local energy systems can deliver cleaner and
cheaper energy services.
Energy and Clean Growth Minister said:
We are at the start of a green revolution, as we move to
more digital, data-driven smart systems that will bring
us cleaner and cheaper energy. These projects, backed by
government funding, are set to spark a transformation and
change the way we interact with energy for the better as
part of our modern Industrial Strategy.
We’re excited to see how these businesses and project
partners reveal how innovative tech, such as energy
storage, heat networks and electric vehicles, can set us
on the path to a smarter energy future. This is
tomorrow’s world, today.
Rob Saunders, Deputy Challenge Director, Prospering from
the Energy Revolution, UK Research and Innovation said:
We all need energy systems that are cheaper, cleaner and
consumer-friendly. We have a great opportunity with these
demonstrators to show just how innovation can deliver
this energy ambition for the future. Supported by the
Industrial Strategy Challenge Fund, these projects can
drive investment, create high-quality jobs and grow
companies with export potential.
As part of the Industrial Strategy Challenge Fund, the
£102.5 million Prospering from the Energy Revolution
Challenge will develop cutting-edge capabilities in local
systems that deliver cleaner, cheaper and more resilient
energy for consumers, while also creating high-value jobs
for the UK.
The challenge brings together businesses working with the
best research and expertise to transform the way energy is
delivered and used. This includes providing energy in ways
that consumers want by linking low-carbon power, heating
and transport systems with energy storage and advanced IT
to create intelligent local energy systems and services.
The funding is awarded competitively by UK Research and
Innovation, the new organisation that brings together the
UK Research Councils, Innovate UK and Research England into
a single organisation to create the best environment for
research and innovation to flourish.
Projects must demonstrate new, smarter, local energy
approaches at scale, which can:
-
provide cleaner, cheaper, more desirable energy
services for the end user
-
lead to more prosperous and resilient communities
-
prove new business models that are suitable for
investment and can grow and replicate in the 2020s
-
provide evidence on the impacts and efficiency of novel
energy system approaches by the early 2020s
Notes for editors
The projects in detail:
The funded projects are:
1. The Energy Superhub Oxford
Project lead – Pivot Power LLP
Consortia: Habitat Energy Limited, Kensa, Oxford City
Council, RedT Energy and the University of Oxford
-
The installation of the world’s first
transmission-connected lithium ion and redox-flow
hybrid battery – 41 other UK sites have already been
identified as potential sites for replication
-
A network of 320 ground source heat pumps, targeting
social housing premises and operating smart controls
with community engagement
Cloud hosted software and AI powered software taking an
algorithmic approach to forecasting and energy
demand/supply optimisation, management of battery
degradation
2. ReFLEX Orkney
Project lead – European Marine Energy Centre
Consortia: Aquatera, Community Energy Scotland,
Doosan-Babcock, Heriot-Watt University, Orkney Islands
Council and Solo Energy
-
The ReFLEX (Responsive Flexibility) Orkney project will
demonstrate a first-of-its-kind Virtual Energy System
(VES) interlinking local electricity, transport, and
heat networks into one controllable, overarching
system. The project aims to create a ‘smart energy
island’, demonstrating the energy system of the future,
which will reduce and eventually eliminate the need for
fossil fuels
-
Orkney has high levels of renewable penetration
relative to the rest of the UK, but struggles to
maximise usage of this generation amid limited grid
capacity. Whilst there is no shortage of renewable
generation assets in Orkney, demand-side flexibility
assets are only now developing and the ReFLEX project
will deliver an extensive new pool of flexible demand
technologies at regional scale, including domestic and
large-scale batteries, vehicle-to-grid chargers,
electric vehicles, flexible heating systems
-
Orkney has a well-established energy system in place
enabling a FlexiGrid software platform to be
implemented to charge flexible assets during periods of
peak local renewable generation, and release stored
energy during times of peak demand
-
This will inform the creation of a peer-to-peer trading
service and new business models that incentivise the
consumption or storage of energy when generation is
high, and encourage uptake of low carbon heating and
transport
3. Project Leo (Local Energy Oxfordshire)
Project lead – Scottish and Southern Electricity Networks
Consortia: EDF Energy, Nuuve, Open Utility, Origami Energy,
Oxford Brookes University, Oxford City Council, Oxfordshire
County Council, The Low Carbon Hub C.I.C. and the
University of Oxford
-
Project LEO will take a Distribution System Operator
approach to implementing new energy projects across the
city, and to facilitate future forecasting and planning
-
A local energy marketplace will be created which will
enable virtual aggregation of loads and the ability to
dispatch flexibility across a range of projects, as
well as execute local peer-to-peer trading. A data
interface with the DSO will enable better active
network management and visibility/forecasting of local
constraints
-
The project takes a very community centric approach and
has a large portfolio (~90) of low carbon energy
projects which could be on-boarding to the distribution
network. The local energy marketplace and the exchange
of information between that and the DSO will facilitate
this process. A collection of projects from the larger
portfolio will be used to demonstrate feasibility and
provide learning towards BAU. Priority projects as part
of WP3 will include a community hydro project, an EV
transport hub and heat network proposals
4. Smart Hub SLES
Project lead – Cloud Infinity Projects
Consortia: Connected Energy, Flexitricity, Honda Motor
Europe, ITM Power, ICAX, Moixa Technology, Passiv- Systems,
Switch2 Energy, The Carbon and Energy Fund and West Sussex
County Council
-
Smart Hubs SLES will be demonstrated in West Sussex and
the project will integrate energy management across
council housing, private residential properties,
transport infrastructure and commercial properties
-
The proposed project is will deploy a number of
innovative technologies (a hybrid hydrogen/electric
vehicle filling station and mesh networks for power
management) alongside more established but not widely
deployed technologies such as heat networks
-
A Virtual Power Plant will be established by
integrating several platforms which can dynamically
monitor and respond to energy demand and generation.
Another important element of the project is designing
an innovative procurement framework. This could be
widely replicated and could enable public sector
organisations to include flexible energy assets in, and
engage with local flexibility markets
About the Prospering from the Energy Revolution Challenge:
-
Smart systems can link energy supply, storage, and
demand patterns across power, heating and transport to
dramatically improve efficiency
-
New smart energy systems will be able to take advantage
of some of the $2 trillion a year that will be invested
in global energy infrastructure over the next decades
-
The scope of this challenge is to provide solutions
that integrate multiple technologies, infrastructures
and market, finance and societal systems in real-world
settings to create investable and scale-able models for
the future
-
This will create new high value local jobs across the
country, and export business associated with design,
testing, finance, installation, and operation of new
energy products, systems and services
-
The novel approach in this programme is to undertake
whole-system approaches at scale in real-world
settings. Government support is needed to coordinate a
very complex stakeholder and technology landscape
-
The winning projects will bring together the latest low
carbon power, transport and heating, with storage and
smart systems using advanced IT to create intelligent
local energy systems and services that cut bills,
improve system efficiency, reduce the need for
expensive new infrastructure and create high value
local jobs
About the Industrial Strategy:
-
The Industrial Strategy sets out the Government’s plan
to help businesses create better, higher-paying jobs
with investment in the skills, industries and
infrastructure of the future
-
The Industrial Strategy Challenge Fund is designed to
ensure that research and innovation takes centre stage
in the Industrial Strategy, bringing together the UK’s
world-leading research with business to meet the major
industrial and societal challenges of our time
About UKRI:
-
Operating across the whole of the UK with a combined
budget of more than £6 billion, UK Research and
Innovation brings together the seven Research Councils,
Innovate UK and Research England
-
We are an independent organisation with a strong voice
for research and innovation, both to government and
internationally, we are supported and challenged by an
independent chair and board
-
We are principally funded through the Science Budget by
the Department for Business, Energy and Industrial
Strategy (BEIS)
