What will I learn from this course?

  • Obtain the compulsory certification to manage any fluoride gas recovery in conformity with EC 517-2014 regulation adapted to the French law
  • Perform theoretical and practical tests, according to the official texts

SF₆ gas recovery regulation EC 517-2014 Evaluation & certification (V0039)

What will I learn from this course?

  • Obtain the compulsory certification to manage any fluoride gas recovery in conformity with EC 517-2014 regulation adapted to the French law
  • Perform theoretical and practical tests, according to the official texts

What will I learn from this course?

  • Know the general characteristics of SF₆ gas
  • Control its environmental impact, emissions and the greenhouse effect
  • Use the SF6 gas in total safety
  • Carry out the best practices related to the use of SF₆ according to the equipment involved
  • Understand the functions of equipment used for the recovery, control and measurement of SF6 gas

SF₆ gas recovery regulation EC 517-2014 For experienced personnel (V0033)

What will I learn from this course?

  • Know the general characteristics of SF₆ gas
  • Control its environmental impact, emissions and the greenhouse effect
  • Use the SF6 gas in total safety
  • Carry out the best practices related to the use of SF₆ according to the equipment involved
  • Understand the functions of equipment used for the recovery, control and measurement of SF6 gas

What will I learn from this course?

  • Know the general characteristics of SF₆ gas
  • Control its environmental impact, emissions and the greenhouse effect
  • Use the SF₆ gas in total safety
  • Carry out the best practices related to the use of SF₆ according to the equipment involved
  • Understand the functions of equipment used for the recovery, control and measurement of SF6 gas

SF₆ gas recovery regulation EC 517-2014 For inexperienced personnel (V0032)

What will I learn from this course?

  • Know the general characteristics of SF₆ gas
  • Control its environmental impact, emissions and the greenhouse effect
  • Use the SF₆ gas in total safety
  • Carry out the best practices related to the use of SF₆ according to the equipment involved
  • Understand the functions of equipment used for the recovery, control and measurement of SF6 gas

SFC for railway traction power supply in Mannheim

First name
Sawan
Last name
COEME GILLARD

Member for

1 year 5 months
Body

Challenge

The customer required a converter station capable of converting the energy from a public 220 kV 50 Hz grid to a level required for the railway-operated 110 kV 16.7 Hz distribution grid. The key objectives of the project were to achieve the highest conversion efficiency, reliability and system availability at the lowest possible cost.

System overview

The Mannheim station consists of a single independent converter block. It connects to the 220 kV 50 Hz 3-phase grid through an oil-immersed transformer (ONAN cooling system) and feeds the German Railway owned and operated 110 kV 16.7 Hz single phase distribution network via a step up single phase transformer.

Converter system

The power part of the converter block consists of one converter system based on the proven MV 7000 converter type. The converter is rated at 150 MVA and is located in a single building. A single converter includes 3 x 5 medium voltage inverter units, each with the following main components:

  • An input 3-phase pulse controlled sub-inverter
  • A DC link with a 33.4 Hz filter
  • An output 1-phase 4QS sub-inverter 

The core components in each sub-inverter are the press-pack IGBT modules organised in two phase-segments and fitted with a patented pull-out mechanism including the IGBT control amplifiers.

Providing the interface to the distribution grid

Circuit diagram of one converter block
Circuit diagram of one converter block
Cooling system

The converter block has its own dedicated cooling system with a mix of glycol and water. The power electronics as well as other components of the inverter units are directly cooled with this fluid. The advantage here is compact design and small space requirements. The heat is then dissipated in a water-air heat exchanger. Two water pumps are installed (100% redundancy) to provide continuous circulation. All systems are monitored and the pumps are switched over every 24 hours. To reduce the space required, the heat exchangers are located on the roof of each converter block.

Additional air-conditioning is provided for the house premises.

Control system

Internal converter control enables the following operation modes:

  • Standard control in all 4 quadrants (according to the P/f, Q/U characteristic)
  • Phase shift operation (supply of reactive power to the railway grid only)
  • Parallel operation with rotary frequency converter
  • Black Start-Up of rail grid

The control system allows for either local or remote operation via a user-friendly HDM interface.

Our SFC technology brings multiple advantages to the operator

Benefits and Key data

Static frequency converter for railway application

Static frequency converter for railway application

 

SFC for railway traction power supply in Lohsa

First name
Sawan
Last name
COEME GILLARD

Member for

1 year 5 months
Body

Challenge

To increase speed and capacity on a segment of ca. 50 km along the European Corridor CE30 from Knappenrohde, Germany to the system interface at the polish border, Deutsche Bahn extends and electrifies an existing rail line. As part of this project, a static converter station to feed the 16.7 Hz 15 kV overhead catenaries was contracted as a turn-key project in Lohsa, Germany to a consortium lead by Power Conversion & Storage. The key objectives of the project were to achieve the highest conversion efficiency, reliability and system availability at the lowest possible cost.

System overview

The Lohsa station consists of three independent blocks operating fully redundantly. It connects to the 110 kV 3-phase grid through an oil- immersed transformer (ONAN cooling system) and feeds the 15 kV 16.7 Hz overhead catenary system directly as well as through a system of auto transformers. For maximum efficiency, each block employs air-core reactors on the 15 kV rail electrification side (transformer-less design). Connection of a 50 Hz filter is not necessary thanks to the innovative converter concept and control algorithm. On the 15 kV rail side, only a small passive filter is required to meet the strict harmonics requirements of DB.

Converter system

Each block employs three converters based on the proven MV 7000 type, with the main components being:

  • An input 3-phase pulse controlled sub-inverter
  • A DC link with an integrated 33.4 Hz filter and a fast discharge/ earthing device
  • An output 1-phase 4QS sub-inverter 

Each sub-inverter contains press-pack IGBT modules organised in phase-segments and fitted with a patented pull-out mechanism including the IGBT control amplifiers.

Providing the interface to the distribution grid

Circuit diagram of one converter block
Circuit diagram of one converter block
Cooling system

Each converter block has its own dedicated closed-circuit cooling system with a mix of glycol and water. The power electronics is directly cooled with this fluid, to achieve compact design and small space requirements. The heat is then dissipated in a water-air heat exchanger. Two SFC-controlled water pumps are installed (100% redundancy) to provide continuous circulation. All systems are automatically monitored and the pumps are regularly switched over. Additional secondary air-cooling is provided for the E-house in each block.

Control system

Internal converter control enables the following operation modes:

  • Standard control in all 4 quadrants (according to the P/f, Q/U characteristic)
  • Reactive Compensation/ STATCOM (supply of reactive power to the railway grid only)
  • Parallel operation with other generation units integrated on the 15 kV line
  • Isolated mode (creating independent rail grid), with automatic synchronization to three-phase grid before reconnection
  • Remote control by sinusoidal reference signal (Pilot Mode) or Autonomous Mode based on asynchronous
    telemetry reference signal can be provided as well.
  • Black Start-Up of rail grid

Remote short circuits are handled reliably by the control algorithms. The control system allows for either local or remote operation via a user-friendly HDM interface and integration to SCADA according to IEC 61850 (IEC 60870-105-4 can be provided as well).

Our SFC tecnology brings multiple advantages to the operator

Benefits and key data

Static frequency converter for railway application

Static frequency converter for railway application

SFC for railway traction power supply in Bützow and Schwerin

First name
Sawan
Last name
COEME GILLARD

Member for

1 year 5 months
Body

Challenge

To increase availability and reduce maintenance efforts while maintaining the traction power supply service level at the lowest possible cost, DB wished to replace its existing rotating equipment in Bützow and Schwerin (Germany). For both locations, two static converter stations of 2x15 MW each to feed the 16.7 Hz 15 kV overhead catenaries were contracted as a turn-key project to a consortium with Power Conversion & Storage as the key participant. The systems are currently in commissioning phase.

System overview

Each station consists of two independent blocks operating fully redundantly. They connect to the 110 kV 3-phase grid through an oil-immersed transformer (ONAN cooling system) and feed the 15kV 16.7Hz overhead catenary system directly. For maximum efficiency, each block employs air-core reactors on the 15 kV rail electrification side (transformer-less design). Connection of a 50 Hz filter is not necessary thanks to the innovative converter concept and control algorithm. On the 15 kV rail side, only a small passive filter is required to meet the strict harmonics requirements of DB.

Providing the interface to the distribution grid

Circuit diagram of one converter block
Circuit diagram of one converter block
Cooling system

Each converter block has its own dedicated closed-loop cooling system with a mix of glycol and water The power electronics is directly cooled with this fluid, to achieve compact design and small space requirements. The heat is then dissipated in a water-air heat exchanger. A high-availability canned motor pump is installed to provide continuous circulation. All systems are monitored automatically. Additional secondary air-cooling is provided for the E-house in each block.

Control system

Internal converter control enables the following operation modes:

  • Standard control in all 4 quadrants (according to the P/f, Q/U characteristic)
  • Reactive Compensation/ STATCOM (supply of reactive power to the railway grid only)
  • Parallel operation with other generation units integrated on the 15kV line
  • Isolated mode (creating independent rail grid), with automatic synchronization to three-phase grid before reconnection
  • Remote control by sinusoidal reference signal (Pilot Mode) or Autonomous Mode based on asynchronous telemetry reference signal can be provided as well.
  • Black Start-Up of rail grid

Remote short circuits are handled reliably by the control algorithms. The control system allows for either local or remote operation via a user-friendly HDM interface and integration to SCADA according to IEC 61850 (IEC60870-105-4 can be provided as well).

Our SFC technology brings multiple advantages to the operator 

infographic about the benefits and key data

Static frequency converter for railway application

Static frequency converter for railway application

Manufacturing for MVAZ has been discontinued including:

Manufacturing for MVAZ04 has been discontinued

Manufacturing for MVAZ09 has been discontinued

MVAZ - Legacy

Manufacturing for MVAZ has been discontinued including:

Manufacturing for MVAZ04 has been discontinued

Manufacturing for MVAZ09 has been discontinued

GE Vernova's transmission protection solutions deliver the speed and security necessary for advanced transmission line protection. Our specialized technology teams are well versed in transmission protection theory and build protection and control solutions that can be configured to meet a variety of applications from large to small, underground and overhead.

Restoring service to urban areas quickly requires fast and accurate fault location. Maintenance crews rely on the advanced functions of the Multilin L90 line current differential system to rapidly pinpoint the fault location.

Line Protection

GE Vernova's transmission protection solutions deliver the speed and security necessary for advanced transmission line protection. Our specialized technology teams are well versed in transmission protection theory and build protection and control solutions that can be configured to meet a variety of applications from large to small, underground and overhead.

Restoring service to urban areas quickly requires fast and accurate fault location. Maintenance crews rely on the advanced functions of the Multilin L90 line current differential system to rapidly pinpoint the fault location.

P54 MiCOM 5th Generation

The P54, part of the MiCOM P40 Agile 5th Generation family, delivers high performance processing and a graphical HMI as standard. A cost-effective range of transmission/sub-transmission class protection relays providing comprehensive line differential protection for up-to 3 line ends, with in-built subcycle transmission class distance and directional earth fault protection. This range of products is ideal for HV, EHV and UHV applications on lines and cables for 1 or 2 breaker applications with patented adaptive auto-reclose functionality.

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MiCOM P543/5/6 Agile

The P543, P545 & P546 models, part of the MiCOM P40 Agile family of protection relays, constitute a cost effective range of transmission-class protection relays providing comprehensive line differential protection for 2 or 3 line ends, subcycle distance and directional earth fault protection. This range of products is ideal for HV, EHV and UHV applications on lines and cables of any length for 1 or 2 CB applications with neutral differential for high impedance faults.

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Multilin L90

The L90, a member of the UR family of protection relays, is a transmission-class protection relay providing comprehensive line differential protection for 2 or 3 line ends, subcycle distance and directional earth fault protection. It is ideal for HV, EHV and UHV applications on lines and cables of any length for 1 or 2 CB applications. It offers a large color LCD display and integrated PMU.

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MiCOM P54 A/B/C/E Agile

The P54A/B/C/E models, part of the MiCOM P40 Agile family of protection relays, provides cost effective high speed multi-ended line differential protection for overhead line and cables up to 6 ends. The P54C and P54E support a high density of binary inputs/outputs, while the P54A and P54B offer compact line differential protection in a half-rack case.

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P44 MiCOMho 5th Generation

The P44, part of the MiCOM P40 Agile 5th Generation family, delivers high performance processing and a graphical HMI as standard. A range of transmission/sub-transmission class protection relays providing up to 9 zones of subcycle distance protection with both mho/quad characteristics and delta directional comparison (incremental) protection. In addition, distance phase preference tripping logic and transient earth fault detection (TEFD) for Petersen coil earthed and isolated systems. The P44 range of products is ideal for HV, EHV and UHV applications on lines and cables for 1 or 2 breaker applications with patented adaptive auto-reclose functionality.

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MiCOM P443 Agile

The P443 model, part of the MiCOM P40 Agile family of protection relays, constitute a range of transmission-class protection relays that provide subcycle, 6 to 9 zone, distance protection with mho/quad characteristics, delta directional comparison (incremental) protection and “Virtual current polarising” of Directional Earth/Ground Fault (DEF) and settings free PSB for 1 or 2 CBs.

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MiCOM P444 Agile

The P444 model, part of the MiCOM P40 Agile family of protection relays, is a numerical distance relay that provides flexible, fast and reliable protection of transmission and sub-transmission lines. It includes full scheme 5-zone distance protection with quad characteristics, plus directional earth fault (DEF) for single breaker applications

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Multilin D60

The D60, a member of the UR family of protection relays, offers transmission-class protection that provides subcycle, 6 zone, distance protection with mho/quad characteristics and Directional Earth/Ground Fault (DEF) for 1 or 2 CBs. It offers a large color LCD display and integrated PMU.

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MiCOM P44T Agile

The P44T provides protection for railway catenary lines, supplementing a 5 zone distance main protection are a host of backup protection, thermal protection, recording, control, measurement and monitoring features. Wrong phase coupling, panto flash over, train startup and Delta I for high impedance faults protection are also included. With independently settable right and left hand side resistive reaches for each zone the P44T suits routes hosting regenerative braking trains. Protection of classic or auto transformer-fed catenaries in systems with nominal frequencies of 50 or 60 Hz.

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Multilin L30

Current differential protection for sub-transmission and MV lines and cables. Part of the UR family of relays. Includes voltage based protection, metering and check synchronizing. It offers a large color LCD display, PMU and advanced Ethernet communications with IEC 61850 station and process bus.

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Multilin L60

The L60, a member of the UR family of protection relays, provides comprehensive phase comparison line protection including 3 zone distance protection. It offers a large color LCD display.

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Multilin D30

5 zone distance protection with quad/mho characteristics for 3 pole tripping and autoreclose. Part of the UR family. Primary protection for sub-transmission lines, backup protection for MV to EHV lines. It offers a large color LCD display and integrated PMU.

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Multilin C70

The C70 provides both the bank and system protection schemes for shunt capacitor banks. The current and voltage-based protection functions provide sensitive protection for grounded, ungrounded single, and parallel capacitor banks and banks with taps.

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MiCOM P59x Agile

This range of standalone units enables the MiCOM Agile P54x current differential relays and MiCOM relays with InterMiCOM64 inter relay communications to be connected to remote pulse code modulation (PCM) multiplexing equipment.

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