Jour : 18 novembre 2014

Non classé

Wind Offshore Electrical Commissioning Training

 

REF 12102

The objectives of this training are :

  1. Analyse and share check list and retro planning of the commissioning plan for a large offshore windfarm
  2. Share REX (Return Of Experience) on offshore windfarm commissioning
  3. Define Do and Do Not Do based on real cases of wind farm commissioning
  4. List key points to anticipate to ensure the success of such project
  5. Provide sample and template of contracts to be use for commissioning phase

Duration: 2 days

For more information please contact info@wlenergy.fr or www.wlenergy.fr

Non classé

Training on FACT Devices

REF 11115

CEB-L14904

Over the last decade, the electricity sector has been subjected to several fundamental changes. A first change is the liberalization of the electricity sector, with as a consequence a complete change of the parties active.

A second important evolution is the shift towards smaller, often renewable, generators. These sources tend to deliver a variable amount of power to the system, dependent on weather conditions. Furthermore they are often located far from the load centres, causing large power flows through the system. Contrary to traditional power generators, they are not centrally dispatched. As a consequence, the transmission system experiences more and more variable energy injections, requiring a flexible operation of the power system. These increased dynamics might create adverse affects on the different types of power system stability. The effect of this added variability and flexible generation pattern on investments must be discussed as well.

The need for more flexibility in the power system is explained, focusing on the evolutions that are taking place in the energy system, with an emphasis on the developments relating to the transmission of electrical energy. The influence of these recent changes on the operation of the power system is addressed. For every part, the effects on the security of the power system are highlighted.

The main part of the course deals with the controllable devices, which can be used in the power system. These new, non-conventional grid elements, often based on power electronics, have enhanced control capabilities that allow a more flexible operation of the power system and they form an alternative investment technology. These new elements provide additional control capabilities to the grid operator, and allow to operate the power system closer to its limits. The different flexible AC transmission systems are discussed and compared.

The technology used for these devices will be covered (without going into detail on the power electronics aspects), and both the steady state and the dynamic operation are covered, as well as several examples. HVDC can be seen as a special case of FACTS. As such, the high voltage direct current (HVDC) technology and applications are an essential aspect of the course. Both the traditional line commutated converter (LCC) HVDC and the relatively new voltage source converter (VSC) HVDC will be discussed. As for the FACTS, also for HVDC the technology, modelling for steady state and dynamic simulations is studied. Examples regarding offshore wind systems are used to show the use of HVDC.

 The program of this training is the following:

  • Module 1: Introduction
  • > Why do we have/need FACTS
  • > Definition of FACTS
  • > Active and reactive power flow through transmission lines
  • > FACTS in the liberalized market environment
  • Module 2: Technical components of FACTS devices
  • > Switching components
  • > Mechanical (e.g. tap changer)
  • > Thyristor
  • > GTO
  • > IGBT and voltage source converters
  • Module 3: Design and modelling
  • > Components
  • > Different implementations
  • > Model
  • > Usage
  • > Advantages and disadvantages
  • > Static Var Compensator (SVC)
  • > STATCOM
  • > Thyristor Controlled Series Capacitor (TCSC)
  • > Static synchronous series compensator (SSSC)
  • > Phase shifting transformers
  • > Thyristor controlled Phase shifting transformers
  • > UPFC/IPFC/others
  • Module 4: Steady state operation of FACTS
  • > Power flow control
  • > The use of phase shifting transformers to manage overloads in the system in the different operational time frames of the TSO
  • > Voltage management
  • > SVC and STATCOM to manage voltage in the system
  • Module 5: Dynamic operation of FACTS
  • > Influence of FACTS on stability
  • > Rotor angle stability
  • > Sub-synchronous resonance
  • > A few examples of how FACTS help the power system dynamics (including how to model)
  • > Grid code compliance for wind farms using FACTS (SVC and STATCOM)
  • > Inter-area oscillation damping using TCSC
  • > FACTS with remote inputs (WAMS input for the controller)
  • Module 6: Cost-benefit analysis of FACTS devices in power systems
  • > FACTS in planning and operational planning (and implementation in software)
  • Module 7: Coordination of multiple FACTS
  • > Steady state coordination
  • > Dynamic coordination
  • Module 8: LCC HVDC technology
  • > Technology
  • > Application
  • > System operations with LCC HVDC
  • Module 9: VSC HVDC technology
  • > Technology
  • > Application
  • > Connection of offshore wind farms
  • > System operations with VSC HVDC
  • Module 10: Supergrid and offshore grid
  • > Why offshore grids and supergrids
  • > Technology requirements
  • > Limitations
  • > Operation of DC grids
  • > Regulatory framework

Durée: 2 days

For more information, please contact info@wlenergy.fr

Formation WLE pour Dispatcher / Opérateur

REF 13305

Les objectifs de cette formation sont les suivants :

  1. Présenter la structure d’un réseau électrique
  2. Maitriser les éléments de conduite du réseau
  3. Définir le métier de dispatcher, les risques, l’équipe et les bonnes pratiques
  4. Partager l’expérience d’un dispatcher face à des situations extrêmes

Nous vous proposons le programme suivant :

  • Présentation de la structure d’un réseau électrique
  • > Présentation du Glossaire Technique du Dispatcher (remis à chaque participant
  • > De la production à la consommation
  • > Le réseau de transport vu de l’opérateur
  • La conduite du réseau
  • > Pourquoi conduire le réseau
  • > Les travaux
  • > Les incidents
  • > Méthodes d’anticipation
  • > Le traitement des données
  • > Analyse
  • Dispatcher, plus qu’un métier
  • > Rôle et responsabilités
  • > Organisation du travail
  • > Relations avec le monde extérieur
  • > Présentation des logiciels du marché
  • > L’acquisition de connaissances et de compétences
  • Conduire et manoeuvrer, tout un art
  • >Rappel sur l’organisation d’un poste électrique
  • > L’importance de la topologie
  • > Sectionneurs de sectionnement
  • > De l’art de manœuvrer un transformateur
  • > Elément d’équilibrage
  • > Face à un incident
  • Etude de cas (LFI : Learning From Incident) 
  • > Etude technique
  • > Etude comportementale
  • > Etude organisationnelle
  • > Etude de la communication (interne et externe)

Durée: 4 jours

Pour plus d’informations, contactez nous sur info@wlenergy.fr