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2000, ISBN 9780780334557, xix, 432
Book
2002, IEEE Press series on power engineering., ISBN 9780471206439, xxix, 495
Book
09/2018, ISBN 1498756190, 28
Newton Power Flow | Newton Power Flow Analysis | ElectricalEngineeringnetBASE | IPFC | Unified Power Flow | Unified Power Flow Controller | GUPFC | ENGnetBASE | Newton’s Method | Power Flow Modeling | SSSC | Industrial Electronics | Power Electronics | Interline Power Flow Controller | Static Synchronous Compensator | Generalized Unified Power Flow | FACTS | Flexible AC Transmission Systems | Power Flow | STMnetBASE | SCI-TECHnetBASE | Interline Power Flow | PWM | FACTS Controllers | Power Flow Problem | Static Compensator | Newton Power Flow Modeling | HVDC | Newton Raphson Method | HVDC Systems | Static Synchronous Series Compensator | Generalized Unified Power Flow Controller | Pulse Width Modulation | Flexible Alternating Current Transmission Systems | STATCOM | Power Engineering | UPFC
eBook
2016, 1, ISBN 1498756190, 319
eBook
2006, Power systems, ISBN 9783540306061, xviii, 383
Book
2009, 1. Aufl., IEEE Press Series on Power Engineering, ISBN 9780470478752, Volume 54, xxi, 521
Book
2012, 2. Aufl., Power systems, ISBN 3642282407, 539
eBook
Electric power components and systems, ISSN 1532-5008, 12/2014, Volume 42, Issue 16, pp. 1802 - 1810
compensation unit | Mho relay | static Var compensator | transmission line protection | static synchronous compensator | zones | flexible alternating transmission system | Electricity distribution | Mathematical models | Software | Algorithms | Simulation | Electrical equipment | Relay | Transmission lines | Devices | Bypasses | Compensators | Shunts | Alternating current
Journal Article
10.
Full Text
Classification and Characteristics of Devices of Flexible AC Transmission Systems (FACTS)
Power Technology and Engineering, ISSN 1570-145X, 3/2019, Volume 52, Issue 6, pp. 723 - 728
Power Electronics, Electrical Machines and Networks | Geoengineering, Foundations, Hydraulics | Energy | reactive power | Renewable and Green Energy | Energy Systems | flexible AC transmission systems | vector control | Power lines | Electric power transmission | Reactive power | Carrying capacity | Transmission lines | Electric converters | Electronic devices | Compensation | Classification | Flexible AC power transmission systems | Electrical networks | Alternating current | Energy storage
Journal Article
International journal of electrical power & energy systems, ISSN 0142-0615, 06/2016, Volume 78, pp. 158 - 164
Operating cost | Reactive power planning | FACTS devices | Active power loss | Swarm intelligence based algorithms | Engineering, Electrical & Electronic | Engineering | Technology | Science & Technology | Analysis | Swarm intelligence | Algorithms | Electrical engineering | Mathematical optimization | Reactive power | Buses (vehicles) | Evolutionary | Devices | FACTS | Alternating current
Journal Article
Electric power components and systems, ISSN 1532-5008, 06/2014, Volume 42, Issue 8, pp. 818 - 830
multiple-input-multiple output | flexible AC transmission systems | multi-machine power system | wavelet neural network | direct adaptive control | B-splines | Multi-machine power system | Direct adaptive control | Flexible AC transmission systems | Multiple-input-multiple output | Wavelet neural network | Engineering, Electrical & Electronic | Engineering | Technology | Science & Technology | Damping | Fuzzy sets | Electricity distribution | Control systems | Fuzzy logic | Artificial neural networks | Oscillations | Nonlinearity | Position (location) | Adaptive control | Alternating current
Journal Article
1999, IEE power and energy series, ISBN 9780852967713, Volume 30, xviii, 592
Book
Electric power systems research, ISSN 0378-7796, 2010, Volume 80, Issue 9, pp. 1056 - 1064
Real genetic algorithm | Transmission expansion | VAr-plant | Reactive power planning | Power system planning | Engineering, Electrical & Electronic | Engineering | Technology | Science & Technology | Electrical engineering. Electrical power engineering | Operation. Load control. Reliability | Miscellaneous | Power networks and lines | Electrical power engineering | Exact sciences and technology | Applied sciences | Power electronics, power supplies
Journal Article
IET power electronics, ISSN 1755-4535, 6/2017, Volume 10, Issue 8, pp. 919 - 930
Research Article | shunt compensator | choppers (circuits) | quasi‐two‐level mode | controller design | flexible AC transmission systems | loop flow | large‐scale offshore wind farms | reactive power flow control | AC cell capacitors | unbalanced condition | voltage amplitude regulation | heterodyne modulation | power transmission reliability | power capacitors | AC‐AC modular multilevel hexagonal chopper | AC‐AC power convertors | M2AHC‐based FACTS device | series compensator | active power flow control | control system synthesis | direct AC‐AC conversion | power transmission control | load flow control | flexible AC transmission system device | transient condition | reactive power control | system modelling | voltage control | Engineering, Electrical & Electronic | Engineering | Technology | Science & Technology
Journal Article
Energies (Basel), ISSN 1996-1073, 2017, Volume 10, Issue 9, p. 1305
Power system static security | Congestion | Cuckoo search algorithm | Min cut algorithm | Tangent vector technique | FACTS | Technology | Energy & Fuels | Science & Technology | Electric potential | Installation | Search algorithms | Electricity consumption | Security | Devices | Flexible AC power transmission systems | Optimization | Compensators | Contingency | Series compensators | Disease transmission | Computer applications | Voltage | Hybrid systems | Swarm intelligence | power system static security | tangent vector technique | cuckoo search algorithm | congestion | min cut algorithm
Journal Article
Energies (Basel), ISSN 1996-1073, 11/2019, Volume 12, Issue 21, p. 4193
Technology | Energy & Fuels | Science & Technology | Controllers | Heuristic methods | Optimization algorithms | Optimization | Tuning | Design | Fuzzy sets | Fuzzy control | Researchers | Energy | Computer applications | Optimization techniques | Automatic control | Objective function | Proportional integral derivative | Iterative methods | Automatic transmissions | Scaling factors | Fuzzy systems | flexible alternating current transmission system (facts) device | automatic generation control (agc) | teaching–learning-based optimization (tlbo) | random load disturbance | fuzzy pid controller
Journal Article
IEEE transactions on industrial electronics (1982), ISSN 0278-0046, 08/2010, Volume 57, Issue 8, pp. 2553 - 2580
Marine technology | train traction | HVDC transmission | modulation | Flexible AC transmission systems | wind energy conversion | marine propulsion | control | photovoltaic systems | Topology | Research and development | Milling machines | Industrial electronics | multilevel converters | Wind energy | Propulsion | Active filters (AFs) | Electrical equipment industry | Flexible AC Transmission Systems (FACTS) | high-power applications | high-voltage direct-current (HVDC) transmission | Engineering, Electrical & Electronic | Engineering | Automation & Control Systems | Technology | Instruments & Instrumentation | Science & Technology | Electric filters | Ship propulsion | Analysis | Research & development--R&D | Technological change | Modulation | Multilevel | Converters | Industrial applications | Trends | Readers | Stands | Photovoltaic power generation | Electric current converters | Convertidors altern-continu | Electrònica de potència | Modulació | Energia eòlica | High Voltage | Wind energy conversion systems | Àrees temàtiques de la UPC | Enginyeria electrònica | Modulation (Electronics)
Journal Article