smart substation for res integration - gridplusstorage.eu filecontrol, metering, automation all the...

Thierry Buhagiar

Smart Substation Project Manager

Smart Substation for RES Integration

GRID+STORAGE 25/11/15

The Flow of Energy: a European Concern

The Flow of Energy – also a Local Concern

Increasing mix of less

predictable and more

intermittent sources

TRANSMISSION SYSTEM DISTRIBUTION SYSTEMConsumers

Consumers

Producers

TRANSMISSION BALANCING/

SETTLEMENTDISTRIBUTION

New uses, need for

interactive response

to demand and

embedded generation

A five layers project

Agenda – Today and Tomorrow

New Technologies • Primary Equipment

Optical CT, Neelogy CT

Low power VT

Ester transformers

Digital breakers, power transformers

and disconnectors

• Secondary EquipmentProcess Bus

Optical communication

Full monitoring

New universal HMI

Point on wave switching

Redundancy, cybersecurity,

interoperability

IEC 61850 Global Solution • Control, protection, zone voltage

control, metering, automationAll the equipment at the site

Utilities monitoring/control (electrical,

water, heating, weather, fuel tank…)

Condition monitoring, Ambient

monitoring

• Access control, virtual fence…

• Dynamic Line Rating

• Fault Analysis and Location

• Settings management

• Teleprotection, Wide Area

Automation

Poste Intelligent – Blocaux 225 kV / 90 kV AIS

Challenge• Refurbishment of existing protection & control system for two large

substations (10 Bays 225 kV, 12 Bays 90 kV)

• Innovative solutions bringing new functionality, complete substation digitizing (electrical, mechanical, environmental data)

• Manage redundancy, move away from hardwiring

• Manage inter-substation automation

Solution• Full DCS and protection system (DS Agile), process bus 1Gb/s

• Condition monitoring, real time situational awareness

• Wide Area Control Scheme, security system

• COSI-CT + COSI-VT

Key benefits• Minimized outage time, improved equipment availability

• Increased safety, prevent cyber-security attacks

• Improved inter-changeability, enhanced flexibility and grid operability

• Increased reliability with inherent system redundancy

• Optimized maintenance, remote substation monitoring

• Reduced relay footprint 80 TE -> 40 TE, for smaller panels

What’s New at Blocaux? Detailed View

• Virtual busbar VT

• Optical CT technology, compact CT and VT footprints

• No more copper hardwiring for command and control

• Flexibility in physical separation of instrument transformers and IEDs

• New approach for redundancy and reliability issues – self-healing

• Harmonised protection scheme for 225 and 90 kV

• External kiosks for digitising only in the yard, intelligence is centralised

• Multifunction IEDs subscribing to multiple SV streams

• New distribution of the LN in the LD for fewer devices and failure tolerance

• Permanent SV generator for remote commissioning and testing

• Permanent spare parts for automatic reconfiguration in case of failure

• Containerised substation methodology – System A, System B

Monitoring

What’s New at Blocaux? Operational Benefits

• Local state estimator

• Redundancy controller

• Weather-based dynamic rating for transformers and OHL

• Data historian for long term analysis (asset management)

• Digital Paralleling Voltage Regulation

• WACU and 61850 WAN for extended benefits across neighbour substations

• Automatic fault analysis and location

Fault analysis - location converted to geographical data (GPS) with tower identificationCorrelation with lightning activityRelay tripping time and autoreclosure delay compared to technical specificationsHealthy OHL identificationHelp for rapid restoration plan and relay failure identification

Extended perimeter WACU 2 based solution :Total situational awareness and commandcapacities

• + 12 substations

• 1000 MW RES (80 windfarms)

• 600 MW max consumption

• 21 OHL (500 km)

• Distant mixed 104/61850 gatewayswith local automation and emergency restoration capacities

90 km

70 km

Smartsubstatio

Extended

Poste raccordé au réseau horizontal

French perspectives for RES integration in 2020

Building permits for wind farms

OVERLOAD RISK

Démonstrateurs PI

RES CAPACITY 552 MW (2014) ->866 (2017)

CONSUMPTION MAX 538 MVA

CONSUMPTION MIN 116 MVA

A HIGH DENSITY WIND FARMS AREA

Wind and power correlation

0

2

4

6

8

10

12

14

16

Vitesse du vent à BEAUVAIS en moyenne 1h lorsque Pmoy 10mn > 90 % PmaxValeur moyenne = 9,46 m/s

Année 2012 - 95 h/an = 1% du temps

valeur moyenne 1h en m/s

0

2

4

6

8

10

12

14

16

Vitesse du vent à BEAUVAIS en moyenne 1h lorsque Pmoy 10mn > 80 % PmaxValeur moyenne = 8,22 m/s

Année 2012 - 347 h/an = 4 % du temps

valeur moyenne 1h en m/s

0

2

4

6

8

10

12

14

16

Vitesse du vent à BEAUVAIS en moyenne 1h lorsque Pmoy 10mn > 70 % PmaxValeur moyenne = 4,3 m/s

Année 2012 - 542 h/an = 6,1 % du temps

valeur moyenne 1h en m/s

Wind influence on ampacity

1000900800700600

500400

300200

1000

800

1000

1200

1400

1600

1800

2000

2200

2400

2600

2800

01

23

45

67

8910

Evolution de l'intensité permanente admissible dans un câble ASTER 570 mm2

en fonction de l'ensoleillement et de la vitesse du ventTempérature extérieure = 5°C et angle du vent à 45 '

Amp.

W/m2m/s

DLR simulations on BLOCAUX AREA

0

20

40

60

80

100

120

140

160

180

200

0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%

Pareto d'Augmentation (modèle actif)

AraiL41Argoe AraiL41Croi5 BlocaL41Croi5 ArgoeL61Bloca AlleuL41Bloca AlleuL42ZFoui

BlocaL41Fouil BlocaL42ZFOUI ArgoeL61BXCH5 BlocaL41BZBEL BXCH5L41BZBEL BXCH5L41SAUCO

BXCH5L42TREPO BXCH5L41ZNEUF NEUF5L41ZNEUF Neuf5L42ZAUMA SAUCOL41TREPO AUMALL41BLOCA

AUMALL41ZAUMA BLOCAL42ZAUMA FOUILL42ZFOUI

-100%

-50%

0%

50%

100%

150%

200%

0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%

Pareto de l'augmentation (actif + non actif)

AraiL41Argoe AraiL41Croi5 BlocaL41Croi5 ArgoeL61Bloca AlleuL41Bloca AlleuL42ZFoui

BlocaL41Fouil BlocaL42ZFOUI ArgoeL61BXCH5 BlocaL41BZBEL BXCH5L41BZBEL BXCH5L41SAUCO

BXCH5L42TREPO BXCH5L41ZNEUF NEUF5L41ZNEUF Neuf5L42ZAUMA SAUCOL41TREPO AUMALL41BLOCA

AUMALL41ZAUMA BLOCAL42ZAUMA FOUILL42ZFOUI

RTE develops its own DLR system including the congestion management

tools and risk mitigation without any sensor on the cables

Congestion management

• Today :

−maintaining all the interconnections inside the perimeter ishighly risky by windy days (N-1 probability high and loadtransfer on 90 kV needs a fast response in a time notcompatible with scada abilities)−Clustering the area is the only solution to avoid the risk and

guarantee the security for electrical risk -> weakened gridresilience (N-1 not guaranteed, shutdown for the cluster,consumers and producers are impacted)

• Tomorrow :

−Local tools for fast response : acceptable durationestimation, load flow for topology optimisation, «surgical »load shedding plan activation and emergency shutdowntools, potentially storage management (not market oriented)−Interconnections maintained all the time, no need to

anticipate de N-1, the system does it in real time

Poste Intelligent Conclusion

• A project dedicated to global enhanced performances(reliability, maintainability, fault tolerance, self healing,OPEX and CAPEX, sustainability,…)

• Delivering extended capacities for RES integration

• Future proof using the latest state of art technologies andopen to the IP world (IoT, Big Data…) in a secured privatenetwork

• Giving the substation strong decision tools and commandabilities on a large area

• Real time oriented solutions, with a local treatment for alocal problem, integrating thousands external parameters

• Tools for overload detection and load shedding or storagecapacities activation

The substation in one container…

Preassembled container -> Power and optical

connection

-> Plug And Play

->Remote testing capabilities (test generator

integration)

The new shelters

Central system bays for one system

Outdoor shelters (convertor bay for one feeder)

•MU 320 (classical CT/VT) or NXMU (optical CT et LPVT)

•SCU C266 based (CPU4) (idem BCU and switch…)

•RPH3 for breaker synchronisation

•Full redondancy

•Full remote control

Primary Equipments Testing the optical CT 245 kV

Testing the LP VT 245 kV

Optical CT/VT 100 kV prototype

Thanks for your attention

Any questions?