standardisation / business modelsict euw-3.pdf · project coordinator - edp distribuição european...

Paris, November 2019

Standardisation / Business ModelsICT

Ricardo Mendes André

Project Coordinator - EDP Distribuição

European Utility Week 2019

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 731218 1

Goals, Concept and Ambition

Grid Market-Hub at the Heart of the Energy Transition

InteGrid Demonstrators4

Status, Progress and Next Steps5

2

3

InteGrid at a Glance1

Goals, Concept and Ambition2

Agenda

Grid Market-Hub at the Heart of the Energy Transition3




InteGrid at a glance

InteGrid

IntelligentGrid

IntegrationRenewables

InteractiveConsumer

InteroperableSolutions

InterconnectedStakeholdersIn a nutshell:

• Coordinator: EDP Distribuição

• Budget: 15 M€

• From January 2017 to June 2020

• 14 Partners from 8 Member States


InteGrid at a glanceDemonstration of Intelligent grid technologies for renewables Integration and Interactive consumer participation enabling Interoperable market solutions and Interconnected stakeholders

Scope• DSO enabling integration of innovative technical solutions, leveraging

customer centric solutions and building disruptive business models

• Building an integrated grid driven marketplace where distribution grid stakeholders can share services within the energy ecosystem

Budget• 14,6/11,3M€ (budget/grant)• 70% funding for companies, 100% for R&D partners

Duration• 3,5 years• Jan-2017 to Jun-2020

Team• 14 partners from 8 EU countries, led EDP Distribuição• 3 demonstrators• Portugal –Advanced Distribution Management System enabling

flexibility management• Sweden – Customer engagement Strategies• Slovenia – Technical virtual power plant







2

3

Goals, Concept and Ambition2

Agenda



Demand

Response

Smartening

the distri-

bution grid

Storage &

Connection

between

networks

Transport

grid users

Main objective 1

Demonstrate how DSOs enable the different stakeholders

to actively participate in the energy market and implement

new business models

Specific objective 1

Feasibility of smart distribution

networks using available DER flexibility


Integrated concepts using the

complementarity of different

technologies


Demonstration of smartened

monitoring and automation

Main objective 2

Test and validate solutions in an integrated environment

enabling DSOs to plan and operate the network in a

stable, secure and economic way


Business models compatible

for solving conflicting

objectives


Functional validation of the

proposed solutions (large scale in a

real environment)


Investigation of potential for

replication and design of detailed

exploitation plan

Existing single solutions in the three demo regions


Market hub concept for solving

conflicting objectives



To demonstrate how can the DSO be a business enabler in a high challenge context, while ensuring quality-of-service andhigh grid resilience, promoting renewables integration and

novel grid management technology

InteGrid also aims to build the necessary technicaldevelopments, within the DSO environment, based on a

customer-centric and competitive market approach, fulfillingdata compliance requirements

Flexibility management is kew when dealing with an highcontext of unpredictable connected resources from

generation to customers’ behavior, where innovative anddisruptive technology is now present

On the core of InteGrid concept, a distribution grid marketenabler platform arises – a Grid-Market Hub• From technical flexibility requirements to flexibility

related services• Interconnecting distribution grid stakeholders

The Concept The Challenge


Key Innovations

Predictive management of MV and LV grids (including

flexibility pre-book)

Data-driven methods to improve MV and LV grid

observability (including ICT constraints)

Predictive traffic light system (ex-ante validation

of flexibility activation)

HEMS to boost energy savings and support grid operation (HCI +

advanced data analytics)

Behavioral DR via local social networks and contextualized feedback

Synergy between wastewater business and smart grids

(energy efficiency + flexibility provision)

Grid and market hubto enable a data economy

and standardize communication between all

stakeholders (*)

Aggregation of prosumers by “traditional” retailers

VPP for distribution grid support services

Grid technology Consumer-centered solutions






2

3

Agenda

Grid Market-Hub at the Heart of the Energy Transition3




•Stakeholder centric•Integrating distribution grid stakeholders through a shared platform that ensures information exchange and consumer data sharing consent

•Cost-effective guaranteed•The root cause is technical - Grid Constraints•A technical motivation solved in a competitive and open approach

•High-tech, multi-level and multi-purpose digital ecosystem•ADMS integrated flexibility management tools•AMI and EMS handling powerful data analytics•Enabling new and innovative services responding to grid technical requirements•GDPR compliant



InteGrid use cases and applications

HLUC01 – Operationalplanning of MV network to

pre-book available flexibility

HLUC02 – Monitoring andcontrol of LV network using

available flexibilities

HLUC03– Perform assethealth diagnostics for

preventive maintenance

HLUC04– Planning repair of unplannedoutages based on sensors and remote

diagnostics and historical data

HLUC05 – Manage the impact of flexibilityactivation connected to the distribution

network

HLUC06 – Data management and exchangebetween DSO and stakeholders

HLUC07 – Manage flexibilities from DER to optimize operation and costs

HLUC08 – Manage internal processes’ flexibility to minimize energy costs and sell flexibility to system operators

HLUC09 – Home Energy Management

HLUC10 – Aggregate and communicatemulti-period behind-the-meter flexibility

from LV prosumers

HLUC11 – Engage consumers in DSM programs considering contextualized

feedback mechanisms

HLUC12 – Aggregate geographicallydistributed resources to offer ancillary

services to TSO and DSO


InteGrid Network System: Project Tools

SecondarySubstation

PrimarySubstation

VH

V

HV

Hig

h V

olt

age

Med

ium

Vo

ltag

eLo

wV

olt

age

Prosumers:• Residential customers;• Services;

Electric Office

DSO TOOL VPP

IDP(Data Lake)

View4Grid

Load & RES Forecast

Multi-Period OPF

LV State Estimation

LV Control

ADMS

Traffic Light System

Prosumers:• Industrial facilities• RES Generation• Wastewater plant (AdTA)

EDPD Server Infrastructure

External Server Infrastructure

GM-HUBForecast

Local Life(social platf.)

HEMS

Data Ware House

MV Load Allocator

FlexIP

WRRFp-Optimizer







2

3

Agenda



InteGrid Demos

Lisbon District, Portugal: “From smart grid to disruptive business models”

• Large-scale, predictive and integrated management of the distribution grid aiming at combining new DER with existing assets, including customer’s flexibility

• Demonstration of the combined operation of DER and advanced grid automation

commercial

Stockholm, Sweden: “Consumer engagement towards sustainability”

• City environment with high load factor and demand on reliability• Generation 2 smart substations• DR with engaged prosumers by providing energy forecasts that

facilitate home automation and better decision (incl. contextualized feedback)

Ljubljana, Slovenia: “Self-sustainability facilitation”

• Integration of existing systems like demand response, EV management, batteries and SCADA into a micro-grid concept that will support self-sustainability of residential prosumers, business prosumers or communities

• Upgrade VPP with LV/MV optimization, control and forecasting algorithms and integration with market hub for exchange of flexibility and validation

http://www.bing.com/images/search?q=elektro+lubiljana&view=detailv2&&id=06F8DD80D50F570FC15C0B1B2672923067A920EC&selectedIndex=2&ccid=0jjp7Nhw&simid=608044572634909867&thid=OIP.Md238e9ecd870f3737ad0526dc0f94512H0


Demonstration Sites

In each of the selected sites we are testing interfaces and interactions

between different systems, operational crews, costumers and ESCOs.

VALVERDE

[LV]

Portuguese demonstration sites selection

SAMOUCO

[LV]

CALDAS DA RAINHA[LV]

MAFRA[MV]

Lisbon Cluster

Alentejo Cluster

Portugal


Mafra

MV

Operational planning of MV networks exploring forecasted information.

Mafra Primary Substation2 x 20 MVA – 60/10 kV

15,7 MVA

AdP Water Facilities2 PTC & 3 BTE

MV Renewables

Wind & Biogas

14 Industrial Costumers4 w/ generation10 Consumers


HLUC 1 HLUC 2 HLUC 6 HLUC 7 HLUC 8 HLUC 12


From smart grid to disruptive business models

Valverde

(Alentejo)

State estimator for LV; Voltage Control;User engagement;

14 customers engaged from44 customers engaged; 2 secondary substations;


HLUC 2 HLUC 6 HLUC 7 HLUC 8 HLUC 9 HLUC10 HLUC11



Alcochete

68 customers engaged;5 secondary substations;26 LED light Flux Regulation

State estimator for LV; Voltage Control;User engagement;District Lighting Optimizer (FlexIP)


HLUC 2 HLUC 6 HLUC 7 HLUC 8 HLUC 9 HLUC10 HLUC11



Caldas da Rainha

58 customers engaged (target 60);

5 secondary substations;

Flexibility;User engagement;

5

15

28

10

0

CALDAS DA RAINHA DEMO SITE


HLUC 6 HLUC 7 HLUC 8 HLUC 9 HLUC10 HLUC11


Slovenian demo covers 2 geographies, MV B2B customers in Domzale and Menges area and business building in center Ljubljana

Mai

nA

sse

tsU

se c

ase

s

• MV grid powered by 2 primary substations• 350 MV/LV substations with smart meters• Data from SCADA (switching manipulations, tab changes)• 7 MV industrial clients with potential flexibility load• 3 commercial buildings with CHP flexibility• 4 micro hydro power plants (<30 kW)

• HLUC 1• HLUC 5• HLUC 8• HLUC 12

• Small scale energy storage (20 kWh)• One private charging station for electric vehicle (22 kW)• One public charging station for electric vehicle (2 x 22 kW)• Flexibility with chiller on the roof (40 kW)

• HLUC 3• HLUC 8• HLUC 12

Slovenian demonstration sites selection


Sweden demonstration sites selection

Main Assets

Use

cas

es

• Smart Homes (154)• HEMS (154)• Smart Appliances (154)• SmartGrid (1 Sub. + 4 Sec. Subs.)• Reference installations for baselines: fault indicators (12) and households (400)• LocalLife (deployed to 700 users)

• HLUC03• HLUC04• HLUC11

Swedish demo covers 5 geographies, addresing LV grid scope in Ekerö and Kyrkviken, Customer engagement in Stockholm Royal Seaport (SRS), Hammarby Sjöstad, and Bagarmossen

Mai

nA

sse

ts


Demonstrators - Complementary main drivers

PORTUGAL

SLOVENIA

SWEDEN

CUSTOMER ENGAGEMENTCOMMUNITY ENPOWERMENT | DR

ELECTRIC MOBILITYDER AGREGATION| VPP

FORECASTING| LV STORAGEADMS | ENERGY SERVICES

From a Framework....• General architecture• High level use cases• Integrated

management of the different solutions

…to a Common Assessment• Scalability• Replicability• Cost-Benefit-Analysis• Business models

Replication of Forecasting and grid management tool

Replication of VPP / DER aggregation

DEMO Ljubljana

DEMO Lisbon District

DEMO Stockholm


Agenda





2

3




Status, Progress and Next Steps

2017

- Plan & Develop UCs

- Define Arquitechture

2018

- Prepare Demo Sites

- Engage Consumers

2019

- Perform Demonstrations

- Collect Data

2020

- Deliver CBA, SRA, BM

- Share Recommendations

• Most of developments ready• Demonstration to start next weeks


MV Consumer (AdTA) makes available flexibility Into tVPP platform

Identification of grid constraint and calculation of flexibility

DSO tool receives flexibility request Pre-book AdTA’s Flexibility

SMSSMS warning to

consumer who willadjust load

VPP Platform

Confirm grid constraint was solved

InteGrid - Medium Voltage demonstrator video presentation

DSO data (hist.+RT) as input Will feed forecast algorithms

Solving voltage constraint in the grid

1

2

3

4

Step

Step

Step

Step


MV Demo – Operator side


MV Demo – Consumer side


Collect data (wastewater intake, level, power, …)

Demonstration of HLUC08 – Pumping system energy optimization with AI

1

Step

p-Optimizer (Reinforcement learning + supervised learning)

2

Step

Send frequency set-points to wastewater pumps

3

StepMinimize electrical energy consumption

(1-min

continuous

control)


Demonstration of HLUC08 – Pumping system energy optimization with AI


Low Voltage Demonstrator

1

2

3

4

Step

Will feed forecast algorithms and technical constraints shown in ADMS

Activation Platform will properly pre-book flexibility and will communicate it through Gm-Hub to customers

By real- Time Flexibility Plan +ActivationFlexibility will be breakdown to customers Solving voltage constraint in the grid

DSO data (hist.+RT) as input

LV Consumer flexibility is available

Step

Step

Step

and is managed by the HEMS acting in smart appliances


InteGrid is now reaching the real demonstration stage where site equipment and ICT platform last open points are reaching the final maturity and are generally ready to be tested in real operation environment, proving that InteGrid


Street Lighting Control System - FlexIP

‒ Dimmable street lights can be a source flexibility and the use of a Street Lighting

Control System can take advantage of this capability, acting as an LV flexibility enabler .

‒ A Street Lighting Control System also allows the integration of innovative smart cities

services in the existing street lighting infrastructure, taking advantage of these assets’

ubiquitous presence and existing energy provisioning.

‒ The development of this system is based on open standards allowing the integration of

different type of devices/sensors in the ecosystem

Public lightening as a source of flexibility


Follow us:

http://www.integrid-h2020.eu/

@integridprojectThank you!Ricardo Mendes André

[email protected]

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