Flexible AC Transmission Systems

This Green Book offers the outstanding expertise of CIGRE professionals about Flexible AC Transmission Systems (FACTS) in one concise handbook.  FACTS are used to enhance AC power networks, by providing fast control of power flows and AC voltage and AC phase angles. They can be used to defer the need for additional power lines, by controlling the power flow on lines to achieve maximum utilisation of the existing lines, and/or by improving the power quality, e.g. when large disturbing loads are connected to the network. 

This Green Book on FACTS provides comprehensive information about  the use of Power Electronics for AC system control and for Power Quality Improvement in its over 1000 pages. This book has been written by experts in the field, who come from Transmission System Operators, Network owners, manufacturers, and consultants in this field. 

1. AC Systems Characteristics, AC network control using conventional means and AC network control using FACTS Controllers
2. Technical Descriptions of all current FACTS controllers, power electronic Topologies for FACTS, SVCs, STATCOM, TCSC and the UPFC and its variations
3. Application Examples of all FACTS controllers, which include a description of controllers using saturation of iron as well as examples of all current FACTS controllers
4. Planning and Procurement, including economic appraisals and cost benefit analysis, planning studies, environmental considerations, functional specifications
5. Implementation of FACTS controllers, including integration and design studies, equipment design and testing and commissioning
6. FACTS operation and lifetime management.

Cigre Study Committee B4 deals with High Voltage Direct Current (HVDC) Transmission and Power Electronics for use in Transmission and Distribution Networks. In a HVDC Transmission system converter stations are used to convert AC into DC and vice versa at the connection points in the ac network(s). An HVDC system provides an asynchronous link between the ac network terminals. As there is no reactive power flow on the dc link between the converter stations, it is possible to have very long cable and overhead lines between the stations, without the need for intermediate stations. Today there are two main technologies, thyristor based, Line Commutated Converter HVDC (LCC HVDC), and IGBT based Voltage Sourced Converter HVDC (VSC HVDC).

Bjarne R. Andersen is the Director and Owner of Andersen Power Electronic Solutions Limited, which was established in 2003.  Before becoming an independent consultant, Bjarne worked for 36 years for what is now GE Grid, where his final role was as Director of Engineering. He was involved with the development of the first chain link STATCOM and the relocatable SVCs concept.  Bjarne has extensive experience in all stages of LCC and VSC HVDC projects.  As a consultant he has worked on several international HVDC projects, including the Caprivi Link, the first commercial VSC HVDC project to use an HVDC overhead line, and a VSC HVDC project for multi-terminal operation permitting multi-vendor access.

Stig Nilsson, Principal Engineer, Exponent, Inc., USA., started out working for the Swedish State Telephone Board with carrier communication systems. Following this, he worked for ASEA (now ABB) with HVDC systems and for Boeing with computer system developments. During his 20 years with EPRI in USA he initiated in 1979 the development of digital protective relaying system developments and in 1986 EPRI’s FACTS initiative. In 1991 he was awarded a patent on Apparatus for Controlling the Reactive Impedance of a Transmission Line.  Stig Nilsson is a Life Fellow of IEEE. He has chaired the IEEE PES T&D Committee, the IEEE Herman Halperin Electric Transmission and Distribution Award Committee, the IEEE PES Nari Hingorani Facts and Custom Power Awards Committee, several IEEE Fellow nomination review committees, been a member of the IEEE Standards Board, IEEE PES subcommittees and working groups. Stig Nilsson has been the US Representative and Secretary of Cigre Study Committee B4 on HVDC and Power Electronics. He is the recipient of the 2012 IEEE PES Nari Hingorani Facts and Custom Power Awards.  He received the Cigre U.S. National Committee Philip Sporn Award and the Cigre Technical Committee Award in 2012. He has also received the Cigre Distinguished Member Award for active participation in Cigre Study Committees and the USNC of Cigre (2006); and the Cigre USNC Attwood Associate Award in 2003. Stig Nilsson is a registered Professional Engineer in the state of California, USA.