interplan - integrated operation planning tool towards the ... · interplan - integrated operation...

© The INTERPLAN Consortium

EU H2020 Programme GA No. 773708

INTERPLAN - INTEgrated opeRation PLANning

tool towards the pan-European network

IRED 2018 - Side Event Workshop: “Grid control for inverter dominated

power systems”

Vienna, Austria, 17th October 2018

INTERPLAN Project Coordinator Dr. Giorgio Graditi &

Dr. Maria Valenti / ENEA

17/10/2018 1



SUMMARY

2 17/10/2018 IRED 2018

Background

The INTERPLAN Idea

INTERPLAN in a nutshell

General information

The INTERPLAN Advisory Board

Technical objectives

Methodology

Pert Chart

Mindmap

Project Timeline

Impacts



BACKGROUND

The operation of the internal electricity

markets is becoming ever more

connected with neighboring ones.

Stability, security and efficiency must

be ensured at a higher hierarchical level

than at national one, managing the local

grid as part of a wider interconnected

network.

3 17/10/2018 IRED 2018

Moving towards a pan-European electricity network

introduces new challenges for the networks.



Novel solutions are required to support

the network operation in order to ensure

the security of supply.

New rules and management/control

systems are necessary to interface the

many European TSOs and DSOs.

Best practices become necessary to

integrate emerging technologies (e.g.

renewables) to support the EU in reaching

the expected low-carbon targets while

maintaining network security and

reliability.

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BACKGROUND



TSOs will have to evolve progressively

from a “business as usual approach” to a

“proactive approach”.

DSOs will need to actively manage and

operate a smarter grid through

appropriate system control logics, by

using the grid’s and consumers’ flexibility

potential.

A closer cooperation between TSOs

and DSOs is needed to address several

operational challenges such as congestion

of transmission-distribution interface.

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BACKGROUND



THE INTERPLAN IDEA

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The increasing complexity of the grids requires control and

operation planning tools even more advanced and homogenous

among European nations

With these beliefs, the idea was born


EU H2020 Programme GA No. 773708 7 17/10/2018 IRED 2018




THE INTERPLAN IDEA






THE INTERPLAN IDEA


EU H2020 Programme GA No. 773708 10

Innovative grid operation planning tool for the novel pan-European grid

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INTERPLAN IN A NUTSHELL




A tool for all network control levels from transmission to distribution with a focus on TSO-DSO interfaces

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EU H2020 Programme GA No. 773708 17/10/2018 IRED 2018 12



Innovative approach for the future low-carbon electricity grid






Innovative approach for the future low-carbon electricity grid

Technical and regulatory assessment of the European electricity grid

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GENERAL INFORMATION

Call: H2020 – LCE – 05 -2017

Type of Action: RIA

Number: 773708

Duration: 36 months

Starting date: 1 November 2017

Total Budget: € 2,964,362.50

Partners: 6 from 5 European

countries: Austria, Cyprus, Germany,

Italy and Poland

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Targeted Area: Novel European grid and end-to-end energy system planning

tools, including foreseeable features such as storage, aggregation, demand-

response and integrating cost aspects;



Call: H2020 – LCE – 05 -2017

Type of Action: RIA

Number: 773708

Duration: 36 months


Total Budget: € 2,964,362.50



Italy and Poland

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GENERAL INFORMATION



Call: H2020 – LCE – 05 -2017

Type of Action: RIA

Number: 773708

Duration: 36 months


Total Budget: € 2,964,362.50



Italy and Poland

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A MULTI-DISCIPLINARY, MULTI-

OBJECTIVE CONSORTIUM,

REPRESENTATIVE OF THE CROSS-

CUTTING SECTORS ON THE ELECTRICITY

AND SMART GRID VALUE CHAIN.

ALL MEMBERS OF THE EUROPEAN

ENERGY RESEARCH ALLIANCE –

JOINT PROGRAMME ON SMART

GRIDS

GENERAL INFORMATION



The AB provides a space

for external members to

participate in the

INTERPLAN project

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ADVISORY BOARD & STAKEHOLDERS





participate in the

INTERPLAN project

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Would you like to contribute to enhancing Europe's future grid

operation?

Then contact us!

[email protected]

INTERPLAN exercises the novel approach of actively involving external

stakeholders in a series of targeted workshops in order to validate and

complement project recommendations on regulations and grid rules. This

strategy is the key to actual adoption and further exploitation in the market.


mailto:[email protected]









participate in the

INTERPLAN project

17/10/2018 IRED 2018

INTERPLAN exercises the novel approach of actively involving external

stakeholders in a series of targeted workshops in order to validate and

complement project recommendations on regulations and grid rules. This

strategy is the key to actual adoption and further exploitation in the market.


DSO

INDUSTRY

DSO/

INDUSTRY

PUBLIC

RESEARCH

ALLIANCE

UNIVERSITY

& RESEARCH

GROUP



Provide a methodology for proper representation of a

“clustered” model of the pan-European network

Generate grid equivalents as a growing library able to

cover all relevant system connectivity possibilities

occurring in the real grid

Address operation planning issues at all network

levels (transmission, distribution and TSO-DSO

interfaces)

Investigate novel control strategies and operation

planning approaches in order to ensure the security

of supply and flexibility of the interconnected EU

electricity grids, based on a close cooperation

between TSOs and DSOs

25

TECHNICAL OBJECTIVES

EQU

IVA

LENT

MO

DELS

CO

NTR

OL TO

OLS

CLUSTERING

GRID EQUIVALENTING

USE CASES

SIMULATING

TESTING

VALIDATING

17/10/2018 IRED 2018



I

Scenarios describe the future

situation of the European electric

network, typically including grid

topology, generation mix, loads

and diffusion of EV, RES and

storages.

26

METHODOLOGY

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Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project



I

INTERPLAN SCENARIOS:

1) Big market

2) Small & Local

3) Large scale RES

4) 100% RES

27

METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project



SCENARIO 1

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USE CASE

Specification of a set of actions

performed by a system, which yields

an observable result that is, typically,

of value for one or more actors or

other stakeholders of the system.

[ISO/IEC 19505-2:2012].

PLANNING CRITERIA Examples:

1) minimizing losses

2) minimizing costs

3) maximize DG/DRES contribution

to ancillary services

4) minimizing energy interruptions

METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria



METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria



Showcase is the presentation of

use case(s) in the frame of chosen

scenario. Different showcases will

be established based on operation

planning criteria and varying

behavior of power system objects

subject to planning.

METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria

Definition of show cases



Semi-dynamic simulations of grid

equivalents will be performed for

each identified showcase to detect

operation challenges.

METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria


Identification of operation

challenges



Semi-dynamic simulations of grid

equivalents will be performed for

each identified showcase to detect

operation challenges.

METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria



challenges



A controller will be developed to

solve each operation challenge in

the specific show case, applying

adequate intervention measures

through cluster controllers and/or

interface controllers.

METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria



challenges

Controllers development



METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria



challenges




METHODOLOGY

17/10/2018 IRED 2018

Surveying the

future Energy

scenarios

Identification of

scenarios fitting

the concept of

the project

Identification

of use cases

Identification of

requirements

Identification of

planning criteria



challenges


DEVELOPMENT, SIMULATION & TESTING

VALIDATION



Grid equivalenting is the process to

generate a grid equivalent model

encompassing a large part of

network substituted by a smaller

counterpart having the same

relevant properties.

A Grid Equivalent approximately

behaves like an associated complex

physical network or a group of

physical networks. The grid

equivalent thus is a representation of

the physical network(s), which is

typically used for a simulation

experiment.

Cluster is a part of a grid OR a

group of grids which are represented

by a specific grid equivalent.

GRID EQUIVALENTING

17/10/2018 IRED 2018



Taking into account all voltage levels in an integrated top-

down approach.

Building a bridge between static, long-term planning, and

the operation planning.

Focusing the attention on specific issues occurring at TSO-

DSO interfaces.

Developing control system logics which suit the complexity

of the integrated grid through cluster and/or interface

controllers.

Managing all relevant flexibility resources as “local active

elements” involving DSOs in the balancing process.

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GRID EQUIVALENTING



INTERPLAN works in integrated way at different voltage levels.

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GRID EQUIVALENTING



Strong interrelation among Tasks and WPs

In some cases, results come back to previous WPs to improve and correct the tool

components development

PERT CHART

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MINDMAP

41

WP2 WP4

WP3

WP5

WP6

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PROJECT TIMELINE

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Handling efficiently and effectively intermittent RES, and

emerging technologies (Storage, Demand Response, EVs).

Planning, development and operation from a technology neutral

view, allowing active contributions throughout the network hence in

support of the ongoing policy developments.

Via effective cluster and interfacing controllers INTERPLAN

contributes to the objectives for building one single energy

network within the interconnected Europe allowing the

contributing benefits of complementary energy networks to the

electricity network

Planning and operation of an integrated grid from the European

perspective without losing the myriad benefits of distributed

resources.

IMPACTS

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Dr. Maria Valenti, Ph.D Researcher @ ENEA Research Centre, Italy [email protected]

17/10/2018 IRED 2018




Dr. Maria Valenti, Ph.D Researcher @ ENEA Research Centre, Italy [email protected]

17/10/2018 IRED 2018

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