The SHAR-Q project aims to design a decentralized collaboration framework to optimize renewable energy and energy storage sharing among participating actors across 6 European countries. It will connect distributed energy ecosystems into an interoperability network through an open API gateway. This will allow sharing of storage capacities to significantly reduce costs for renewable energy and storage ecosystems. The solution is being tested through 3 pilot projects demonstrating integrated local energy systems.
1. www sharqproject.eu
Storage capacity over virtual neighbourhoods of energy ecosystems
MOTIVATION
OBJECTIVES
SHAR-Q concept enables sharing of storage capacities, bringing significant
savings on them, in order to reduce the unit-cost of RES+EES ecosystems.
6
COUNTRIES
SHAR-Q aims to design and create a decentralized collaboration framework
of distributed energy ecosystems connecting them
into a peer-to-peer interoperability network,
in order to achieve the optimisation of
RES+EES through sharing capacities
among the participating actors.
The solution will be based on an
open interoperability gateway
with the corresponding open API
that connects the smart energy
resources operated by different
actors into the SHAR-Q collaboration
framework. The users will be provided
with an ability to manage their contribution
to the collaborative energy management models
on their own in a way that resembles the social web portals.
11
PARTNERS
36
MONTHS
3
PILOTS
4M€
BUDGET
@SHARQproject
Renewable Energy Sources (RES) / Electrical Energy Storages (EES)
BENEFITS FOR THE ENERGY SECTOR
PEER TO PEER CONCEPT
• Interoperability withinenergyassetsrelatedtomarketneeds,actingasanenablerformarketaccesstoalargevarietyofenergyrelatedproductsandservices.
• Motivation of end consumers for the purchase of EES, investing their own funds.
• A tool forcontrollingthefrequencyandvoltage,supportingcoldloadpickup,relievingtransmissionanddistributionsystemandtopostponeinvestments.
• Efficient EV integration intoelectricitygridsthroughtheinteroperabilityplatformaimingtoincreasetheEVhostingcapacityoftheexistinggridinfrastructure.
• Increased capacity for connecting volatile Distributed Energy Resources (DER).
• Distribution of consumption and reduction of peak network load.
• Next step toincreaseendconsumers’flexibility,animportantelementoffuturedemandresponsedeployment.
• Provision of trading capacity for resellers.
• Optimal energy management basedondistributed,multi-objectiveoptimizationtechniques.
Services forprosumers
Services for DSOs
Collaboration of distributed energy
resource owners & operators
Services by independent providers
Meteorological services for renewables.
ServicesforoptimalsharingofEESandREScapacities.
Adaptivechargingofe-vehicles(EVs)andV2Gservices.
Added-value services over
distributed energy ecosystems:
Prosumers DER
operators
DSOs
Providersofadded-valueservices
intheenergydomain
2. PARTNERS
PILOTS
The 3 demonstration sites of SHAR-Q:
ATOS Spain
bAvenir
UBIMET
ENERCOUTIM
EEE
Basque Energy Cluster
RWTH Aachen
ICCS
DEDDIE
Energie Güssing
ATOS CZ
PILOTS
PARTNERS
This Project has received funding from the European
Union’s Horizon 2020 research and innovation
Programme under grant agreement No 636427
LCE-01-2016/731285/SHAR-Q
CONTACT
ATOS Spain S.A. / Juan Rico (Project Coordinator)
Tel.: 0034–946 662 027 / Email: juan.rico@atos.net
www
STAKEHOLDER ADVISORY BOARD
Insufficient consideration of stakeholders’ motivations and concerns causes the failure of many R&D projects. For this
reason, SHAR-Q is supported by a Stakeholder Advisory Board which represents the majority of the value-chain involved
in EES operation and manufacturing. The Board will assist the SHAR-Q consortium providing expert advice to assure
consistency in the project outcomes in accordance with market expectations.
Solardemostrationplatform Self-supplied18municipalities