Smart Citizen-Centred Energy System · Active network management: procurement of services by...

#H2020Energy info days

H2020 Challenge Secure, clean and efficient energy :

Smart Citizen-Centred Energy System

Michela Marasco

Policy Officer

DG ENER – New Energy Technologies, Innovation & Clean Coal

H2020 Energy Challenge:Secure, clean and efficient energy system

#H2020Energy

#H2020Energy

#H2020Energy

Smart Citizen-Centred Energy System:Local and Islands

ES-3Integrated Local Energy Systems

2018 - 2020 Demo

ES-11Rapid Relief

through Transitions on

Islands

2020Demo

ES-4Decarbonising

Energy systems of Islands

2018-2020 Demo

ES-12Integrated Local Energy Systems:InternationalCoo

peration with India

(2018) - 2020 Demo

Common requirements

• Current regulations

• Available or emerging standards and interoperability issues (see work of the Smart Grid Task Force and its Experts Groups in the field of Standardization - CEN-CLC-ETSI M/490)

• Smart grid deployment, infrastructure and industrial policy

• A high level of cyber security; compliance with relevant EU security legislation, due regard of best available techniques

• Regulatory environment for privacy, data protection, data management and alignment of data formats (see “My Energy Data” and its follow-up, General Data Protection Regulation and industry standards, Data Protection Impact Assessment Template)

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Applicants should demonstrate a good knowledge and compatibility with:

#H2020Energy

EC-3 Consumer Engagement & Demand Response IA 5-8 4-6 € 16 M

ES-5 Innovative Grid services (DSO-TSO) IA 5-8 20-22 € 22 M

ES-10 DC – AC/DC hybrid grid IA 5-8 7 € 14 M

ES-3 Integrated local energy systems IA 5-8 5-6 € 15 M

ES-12 Integrated local energy systems: International Cooperation with India

IA 5-8 5-6 € 9 M

ES-4 Decarbonising energy system of islands IA 5-8 5-7 € 40 M

ES-11 Rapid Relief IA 6-8 2-3 € 4 M

#H2020Energy

Instrument

TRL EU funding per project (in M €)

Budget in 2020

ES+EC3 total budget 2020 € 120 M

#H2020Energy

EC-3-2020: Consumer engagement and demand response

EU funding per project: € 4-6 M

Total budget in 2020: € 16M

Deadline to apply: 29 Jan

2020

Instrument: Innovation

Action

TRL: between 5 and 8

The Challenge• Put consumers/prosumers at the heart of the energy market

• New cost-effective solutions for consumers based on the next generation of energy services:

– Beneficial to RES integration into an efficient operation of the power system

– Better predict and incentivise consumer behaviour

• Engaging consumers/prosumers in demand-response mechanisms and other energy services, bringing a fair share of benefits to consumers and the energy system.

• New ways for consumers to engage in the energy transition - energy cooperatives, peer-to-peer trading and citizen energy communities.

• Integration of services across different sectors, e.g. combining energy services with mobility and health.

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The Scope

• Using real consumption data to better predict consumer behaviour (digital twin)• Focus on households, other type of consumers may be included. Target one or

multiple type of loads, small-scale production, energy storage, aggregation• Preferably relying on advanced automation, ICT tools, communication protocols

and interoperability• Preferably including several energy vectors and sectors• Address privacy, data protection and cybersecurity

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Develop and test solutions and tools for demand response and energy services:

The Scope• Consumer perspective on the power system: social science and humanities-related

work is to be closely associated with the development of technological solutions • Services, customer information, engagement strategies should be designed and

demonstrated taking into account the different types of consumers (e.g. segmentation along different categories, e.g. social category, age, technology literacy, gender, etc.)

• Participation of local energy communities, energy cooperatives, aggregators and consumers associations is encouraged.

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The Scope

• Proposals are expected to include a task on developing a business model and a clear path to finance and deployment (delivery of affordable energy within 5 years)

• Proposals should include a task/work package on analysis of obstacles to innovation in the current context and in future market design context

• Proposals should foresee to coordinate with at least one project supported under topic ES-5 as well as with similar EU-funded project through the BRIDGE initiative (consider additional coordination effort and budget)

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EC-3-2020: Expected impact (1/2)

• Increased use of demand response across the European energy system• Increased number and types of consumers engaged in demand-response across

Europe• Demonstrated and improved viability of innovative energy services, best practices

and effective incentives that can be replicated at large scale• Increased uptake of services that combine energy efficiency with other energy

services, technologies and non-energy benefits• Increased reliability and accessibility of innovative energy services• Developed and demonstrated viable solutions for customers: best practices and

effective incentives that can be replicated at large scale

#H2020Energy

Contribute to at least seven elements:

EC-3-2020: Expected impact (2/2)

• Increased predictability of consumption patterns and consumer behaviour

• Increased data protection and privacy for customers

• Improved modelling of the flexibility levers from the new energy services

• Increased share of energy or power that can be mobilised to provide flexibility to the grid and increase the hosting capacity for RES

Include ad-hoc indicators to measure the progress against specific objectives that could be used to assess the progress during the project life

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Contribute to at least seven elements:

Thank you!#H2020Energy

EU Funding & Tenders Portalwww.ec.europa.eu/research/participants

#H2020Energy

http://www.ec.europa.eu/research/participants


Islands

Feilim O'Connor

Policy Officer

European Commission – DG ENER

@feilimoc

Why islands?

● 17.5 Million people (3.4% of the EU)

● 1000 islands > 10 inhabitants

● 100 islands > 10,000 inhabitants

● Electricity production > X10

● Installation costs > X4

Islands – Key for Europe

The Background

Introduces iSEAPs

Calls for a Strategic Framework

2011

2011

2014

2016Clean Energy Package

201714 Member States

sign the Malta Declaration

2018

Now

EU Island Secretariat

Island Assosications CPMR ESIN ANCIM DAFNI

InternationalSmall Island Developing

States (SIDS)

Horizon 2020The Island Facility

Horizon 2020 CallsEnergy Islands (X2)

Geographical IslandsRapid Relief

Presidents of theIslands

DG ENERIsland actions

DG ENER task forces

THE FRAMEWORK PROGRAMME FOR RESEARCH AND INNOVATION

Rapid Relief

Energy Islands (& with India)

Geographical Islands

4Island

calls

“Rapid relief islands”LC-SC3-ES-11

From zero to hero islands

- 90% fossil 90% Clean

- 5,000 – 100,000 people

- Local Energy Communities

2-3 Million Euro

“Energy Islands”LC-SC3-ES-3

& ES-12

• Local energy systems

• 4 impact criteria

(solutions, communities, strategies, replication)

• Ad-hoc indicators

5 - 6 Million

2018 Energy Islands

“Geographical Islands”LC-SC3-ES-4

2 ‘Follower Islands’

6 Scope criteria

4 Impact criteria

(solutions, communities, strategies, replication)

5 - 7 Million

Thank you for your time@feilimoc

#H2020Energy




H2020 Challenge Secure, clean and efficient energy system:


Mark van StiphoutDG ENER – New Energy Technologies, Innovation & Clean Coal

H2020 Energy Challenge:Secure, clean and efficient energy system

#H2020Energy


EC-3Consumer

Engagement / Demand

Response

2020 - Demo ES-10DC – AC/DC hybrid grid

2020 - Demo

EC-5Supporting

public authorities in

energy transition

2020CSA

ES-5Innovative

grid services(Consumers, DSO, TSO)

2018-2020 Demo

Energy Systems:

Grid

EC-1Role of

consumers in a changing market

2018-2019-2020

Support

EC-2Mitigating households

energy poverty2018-2019-

2020Support

Digitisation:Cyber-security

2018-2020

Sm

art

and C

lean E

nerg

y for

Consum

ers

EC-4Non-energy impacts and behavioural

insights on EE2020RIA

#H2020Energy

Digitisation to support the energy transition

Horizon2020 – key calls: work programme 2018-2020

Active network management: procurement of services by network operatorsin markets and on platforms

Optimise asset management through a toolbox for data analysis,management, processing

Interoperability for smart homes, buildings and grids

Develop, test and demonstrate Cyber-security technologies for theelectricity system; 5G

Rationale (why?): Demonstrate at a large-scale how markets and platforms enable electricity TSOs and DSOs to procureenergy services from large-scale and small-scale assets connected to the electricity network.

LC-SC3-ES-5-2018: TSO – DSO – Consumer: Largescale demonstrations of innovative grid services through demand response, storage and small-scale (RES) generation

Key objectives: • will lead to the development of a seamless pan-European electricity market that makes it possible

for all market participants (if necessary via intermediaries such as energy suppliers or aggregators) to provide energy services in a transparent and non-discriminatory manner;

• enables TSOs and DSOs to give incentives to connected consumers, buildings, devices (including small-scale generation) to improve predictability and anticipate problems, based on jointly developed grid-models;

• defines and tests 1) standardised products and key parameters for grid services; 2) the activation process for the use of assets for network services; 3) the settlement process for payment related to the services;

LC-SC3-ES-5-2018: TSO – DSO – Consumer: Largescale demonstrations of innovative grid services through demand response, storage and small-scale (RES) generation

Key issues:• The selected project should build on experience and best-practices from previous and

ongoing projects (in particular those supported under the call LC-SC3-ES-5-2018-2020 in 2018), and aim to deliver one set of protocols and standards with respect to platforms for the procurement of grid services

• Include a credible business plan to ensure that the tested and demonstrated platforms and markets will continue operation (and further will be further replicated/developed by as many other TSOs and DSOs as possible) in real-life after the project ends

• Design and develop ICT systems and infrastructure that will facilitate open (non-proprietary) standardised and interoperable multi-party data-sharing and facilitate scaling-up, including across borders (at least in the EU), between all actors that use the markets and platforms for grid services.

LC-SC3-ES-5-2018: TSO – DSO – Consumer: Largescaledemonstrations of innovative grid services through demand response,storage and small-scale (RES) generation

Expected impact: demonstrating cost-efficient & replicable model(s) for electricity network services that can bescaled up to include networks operated by other TSOs and DSOs.


Key conditions: • at least 2.5% of the EU contribution to the project for 3rd parties: developers (SMEs and start-

ups) of innovative energy services (in particular for household consumers).

• Cooperate in Bridge: at least 2% is recommended

• a dedicated work package for cooperation with other selected projects (EC3) and earmark appropriate resources (5-10% of the requested EU contribution).


Consortia shall involve: • at least 2 energy suppliers and at least 2 ESCOs or independent aggregators,

• Transmission System Operators (TSO) from at least 5 different Member States (this doesn't exclude participation of additional TSOs from non-Member States),

• 8 Distribution System Operators (DSO) from several Member States and/or Associated Countries, with at least 3 of those DSOs operating in the area covered by the transmission system of any of the participating TSOs.




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DC – AC/DC hybrid grid for a modular, resilient and high share of RES grid development

Mario DionisioProgramme OfficerDirectorate General for EnergyUnit C2 – Research and Innovation

Looking at horizon 2050: challenges

• Grid transformation and grid planning

• Faults and cybersecurity

• Increasing RES generation and decreasing inertia

#H2020Energy

1. Energy transition and grid planning

#H2020Energy

Scenario 1

Scenario 2

Scenario…

Grid solution 1

Grid solution 2

Grid solution…

Cost 1

Cost 2

Cost…

2. Faults and cybersecurity

#H2020Energy

Area 1

Area 2

Area 3

Area 4

Minor malfunction (triggering event)

Cascading effect

Area…

3. Increasing RES generation and decreasing inertia

• Increasing RES: volatile energy generation (but predictable)

• Increasing PE reduction of synchronous inertia

• ROCOF and frequency control

• May lead to curtailment

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The war of currents: AC vs DC

#H2020Energy

AC• Three-phase system• Power transformer

DC• Conversion technology

not reliable• Difficult to interrupt

The first networks were a combination of AC and DC

George Westinghouse and Nikola Tesla promoters of the use of alternating current

Edison, a pioneer in the realization of the first DC power grids

Looking at horizon 2050: which solution?

#H2020Energy

Reduce grid planning risks

Cybersecurity and fault protection

RES penetration constraints

One solution addressing these

issues?

DC – AC/DC Hybrid grid?

DC Electricity Distribution 52

Modularity

Firewall effect

High share of RES

DC – AC/DC hybrid solution

LC-SC3-ES-10-2020: DC – AC/DC hybrid grid for a modular, resilient and high RES share grid development• Challenges: increasing complexity of AC based grid architectures; multiple grid planning scenarios;

cascading effects due to faults/cyberattacks; the need to increase the share of renewables in the grid to meet the decarbonisation objectives.

• Scope: design, modelling, simulation, development, demonstration, test and validation of DC-based grid architecture(s). The modular grid planning and development, the “firewall” effect against faults or cyberattacks and the accommodation of higher shares of renewables in a DC-based system will be part of the demonstration and validation exercise.

• Expected Impact: facilitating planning and investments; increasing grid resilience; increasing penetration of RES; increasing the efficiency

• Opening: September 3, 2019

• Deadline: January 20, 2020

• Budget: EUR €14 million (2 projects)

• https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/home

#H2020Energy

LC-SC3-ES-10-2020: DC – AC/DC hybrid grid for a modular, resilient and high RES share grid development• Demonstration activities

– Demonstration in at least two MS or AC

– Different types of generation and loads (RES, battery storage and electric vehicle (EV), etc.)

– Tests in interconnected and isolated mode to/from the power grid

– TRL 5 ÷ 8

• Cross-cutting activities

– barriers to innovation and market uptake: (technical (including, low-cost DC breakers, WBG), regulatory, safety, acceptance and suitable business models)

– Pathways to overcome them: (e.g. standardisation, such as of voltage levels), including recommendations

• Coordination on policy relevant issues

– Regulatory framework, business models, data management, consumer engagement, etc. with similar EU-funded projects through the BRIDGE initiative

#H2020Energy



#H2020Energy



Cybersecurity & Digital Privacyin the Energy sector

Carmen IFRIM, Michaela Kollau, Mario Dionisio

European Commission

DG CNECT, DG ENER

Transformation of the energy system

Electrification (EV, smartcharging, etc.)

Decentralisation (demand response, PV, storage, etc.)

Digitalisation (network technologies, smart metering, beyond the meter measures, smart appliances, IoT, etc.)

INGREDIENTS TO IMPROVE PERFORMANCE AND ENABLE COST SAVINGS

Connectivity

57

State of the art

58

• It powers cities, transport, industries, hospitals, etc. Key importance

• Safe without interconnection, isolated from the

outside world

• Increasing digitalisation interconnected grid

advantages, but also risks

ELECTRICAL POWER AND ENERGY SYSTEM (EPES)

Risks

59

• Exposure to cyberattacks for:o Increased access pointso Evolving attacks complexity

• The grid was build when cyberattacks did not exist:o Vulnerabilities emerge (buffer overflows, use

of hard-coded credentials, cross-site scripting, etc.)

o Not all assets can be patched

DECENTRALISATION and DIGITALISATION

A European Energy UnionWhy does the energy sector require specific considerations in terms of cyber security?

60

Real-time requirements

…simply cannot be addressed by standard cyber security solutions like authentication or

encryption.

Cascading effects

…can trigger black-outs in other sectors and

countries.

Technology mix

…creates risks from legacy components

designed when cyber security was not an issue, and from new Internet-of-Things devices not

made with cyber securityin mind.

What is needed

61

•Defining cybersecurity design principles •Designing a cyber-secure system architecture • To make legacy assets (e.g. SCADA, ICS) resilient • Certification at system level• Keeping in mind that:

MAKE THE GRID RESILIENT

A high level of digitalisation can happen only if it will not endanger the EPES

Digital Single Market Strategy – COM(2015) 192 of 6.5.2015;

European Agenda for Security – COM(2015) 185 of 28.4.2015;

NIS Directive – Directive (EU) 2016/1148 of 6/7/2016 concerning measures for a high common level of security of network and information systems across the Union;

eIDAS – Regulation (EU) 910/2016 of 23.7.2014 on electronic identification and trust services for electronic transactions in the internal market and repealing Directive 1999/93/EC;

General Data Protection Regulation (GDPR) - Regulation (EU) 2016/679 of 27.4.2016 on the protection of natural persons with regard to the processing of personal data and on the free movement of such data, and repealing Directive 95/46/EC;

62

Policy context (1/3)

Communication on "Strengthening Europe's Cyber Resilience System and Fostering a Competitive and Innovative Cybersecurity Industry" – COM(2016) 410 of 5.7.2016;

e-Privacy - Proposal for a Regulation concerning the respect for private life and the protection of personal data in electronic communications - COM(2017) 10 of 10.1.2017;

Cybersecurity Package: Joint Communication on "Resilience, Deterrence and Defence: Building strong cybersecurity for the EU" – JOIN(2017) 450 of 13.9.2017;

Cybersecurity Act - Regulation on ENISA, the "EU Cybersecurity Agency", and on Information and Communication Technology cybersecurity certification (''Cybersecurity Act'') - COM/2017/0477 final

63


Proposal for a Regulation of the European Parliament and of the Council establishing the European Cybersecurity Industrial, Technology and Research Competence Centre and the Network of National Coordination Centres to support the development of the technological and industrial capabilities necessary to autonomously secure its digital economy and increase Europe's competitiveness with regard to cybersecurity and privacy - COM(2018) 630

64


Clean Energy for all Europeans Package Risk Preparedness Regulation (EU) 2019/941: mandates Member States to develop national

risk preparedness plans and coordinate their preparation at regional level, including measures to cope with cyber-attacks

Recast of the Electricity Regulation (EU) 2019/943: gives a mandate to the Commission to develop a network code on cyber security for the electricity sector in order to increase its resilience and protect the grid

Regulation of Security of Gas supply (EU) 2017/1938: includes provisions to consider cybersecurity as part of Member States' national risk assessments

Sector-specific guidance for the energy sector - Recommendation C(2019)240 final and Staff Working Document SWD(2019)1240 final

65

Energy Policy context (1/1)

Work Programme 2018-2020 - Societal Challenge 7 “Secure Societies – Protecting freedom and security

of Europe and its citizens”

Call: Digital Security

Topic: SU-DS04-2018-2020: Cybersecurity in the Electrical Power and Energy System (EPES): an armour against cyber and privacy attacks and data breaches

Type of action: Innovation Action (IA)

Budget: 20 MEUR (2020);

Proposed opening: mid-March 2020;

Proposed deadline: end-August 2020;

#H2020Energy

Cybersecurity in energy Main challenges: Digital technologies playing a more important role in the energy system, which is facing higher risks and

vulnerabilities, exposed to an increasing range of cyber threats;

With increased digitalisation, EPES faces an increasing range of threats requiring an attentive evaluation of thecyber security risk, allowing taking proper countermeasures;

Older technologies in legacy systems were designed in times when cybersecurity was not part of the technicalspecifications for the system design;

Control system in EPES that is under attack might not be easily disconnected from the network (potentially safetyissues, brownouts or even blackouts);

Micro grid operations and/or islanding could be further exploited against cyber-attacks and cascading effects inEPES;

Need for new security approaches in detecting and preventing threats, building protection against cyber andprivacy attacks;

Cybersecurity in energy Scope of action (1/2):

Develop solutions to make the energy sector more resilient to growing and more sophisticated cyber and privacy attacks, more cyber secure;

Demonstrate the resilience of EPES through design and implementation of adequate measures able to make assets and systems less vulnerable, reducing its expositions to cyber-attacks;

Develop scenarios for possible attacks, with appropriate counteracting measures, designed, described, tested on a demonstrator, to verify effectiveness;

Apply measures to new assets or to existing equipment where data flows were not designed to be cyber protected;

Develop security information and event management system collecting security-related documentation;

Cybersecurity in energy Scope of action (2/2):

Implement activities to make the electric system cyber secure:

assess vulnerabilities and threats in a collaborative manner;

design adequate security measures to ensure a cyber-secure system;

implement both organisational and technical measures in representative demonstrator to test the cyber resilience of the system with different types of attacks/severity;

demonstrate the effectiveness of the measures with a cost-benefit analysis;

Define cybersecurity design principles with a set of common requirements to inherently secure EPES;

Formulate recommendations for standardisation and certification in cybersecurity at component, system and process level;

Propose policy recommendations on EU exchange of information;

Cybersecurity in energy

Other specific conditions:

Dimension of a pilot/demonstrator: at large scale level (e.g. neighbourhood, city, regional), involving generators, one primary substation, secondary substations and end users;

Include types of entities such as: TSO, DSO, electricity generators, utilities, equipment manufacturers, aggregators, energy retailers, and technology providers;

Proposals may refer to Industry 4.0 and other proposals and/or projects dealing with cybersecurity in energy;

Foresee activities and envisage resources for clustering with other projects funded under this topic and other H2020 relevant projects in the field, in particular under the BRIDGE initiative (http://www.h2020-bridge.eu/);

Cybersecurity in energy

Impact expected:

Increased resilience against cyber and privacy attacks, and data breaches;

Ensured continuity of the critical business energy operations;

Energy sector better enabled to easily implement NIS Directive;

Cyber protection policy design and uptake;

Set of standards and rules for certification of cybersecurity components, systems and processes in the energy sector;

Disclaimer: The views are those of the services and may not in any circumstances be regarded as stating an official position of the Commission. Only the adopted work programme will have legal value. Information given in this presentation may not appear in the final work programme and likewise, new elements may be introduced at a later stage.

Thank you!

#H2020Energy


#H2020Energy


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