Analysis And Damping Control of Power System

Analysis and Damping Control of Power System Low-frequency Oscillations  eBooks & eLearning

Posted by Underaglassmoon at April 13, 2016
Analysis and Damping Control of Power System Low-frequency Oscillations

Analysis and Damping Control of Power System Low-frequency Oscillations
Springer | Energy Technology | April 2 2016 | ISBN-10: 1489976949 | 394 pages | pdf | 7.59 mb

Authors: Wang, Haifeng, Du, Wenjuan
Covers three main methods for analyzing the control of power systems oscillations
Contains application examples for damping torque analysis, model analysis and linearized equal-area criterion analysis
Uses Light HVDC as an example to demonstrate the applications of the three analytical methods
Macroeconomic Analysis and Parametric Control of a National Economy (Repost)

Macroeconomic Analysis and Parametric Control of a National Economy By Abdykappar A. Ashimov, Bahyt T. Sultanov, Zheksenbek M. Adilov, Yuriy V. Borovskiy, Dmitriy A. Novikov, Rakhman A. Alshanov, Askar A. Ashimov
2013 | 294 Pages | ISBN: 1461444594 | PDF | 3 MB
Macroeconomic Analysis and Parametric Control of a National Economy

Macroeconomic Analysis and Parametric Control of a National Economy By Abdykappar A. Ashimov, Bahyt T. Sultanov, Zheksenbek M. Adilov, Yuriy V. Borovskiy, Dmitriy A. Novikov, Rakhman A. Alshanov, Askar A. Ashimov
2013 | 294 Pages | ISBN: 1461444594 | PDF | 3 MB
Predictive Control of Power Converters and Electrical Drives (Repost)

Predictive Control of Power Converters and Electrical Drives by Jose Rodriguez, Patricio Cortes
Publisher: Wiley-IEEE Press | 2012 | ISBN: 1119963982 | 231 pages | PDF | 7,7 MB

The application Model Predictive Control (MPC) controls electrical energy with the use of power converters and offers a highly flexible alternative to the use of modulators and linear controllers. This new approach takes into account the discrete and nonlinear nature of the power converters and drives and promises to have a strong impact on control in power electronics in the coming decades.
Predictive Control of Power Converters and Electrical Drives (repost)

Predictive Control of Power Converters and Electrical Drives
by Jose Rodriguez, Patricio Cortes
English | 2012 | ISBN: 1119963982 | 244 pages | PDF | 6.93 MB
Numerical Analysis of Power System Transients and Dynamics

Akhiro Ametani, "Numerical Analysis of Power System Transients and Dynamics"
English | ISBN: 1849198497 | 2015 | 480 pages | PDF | 7 MB
Predictive Control of Power Converters and Electrical Drives (Repost)

Jose Rodriguez, Patricio Cortes, "Predictive Control of Power Converters and Electrical Drives"
English | ISBN: 1119963982 | 2012 | 244 pages | PDF | 7 MB
Project Management with Dynamic Scheduling: Baseline Scheduling, Risk Analysis and Project Control (repost)

Project Management with Dynamic Scheduling: Baseline Scheduling, Risk Analysis and Project Control by Mario Vanhoucke
English | ISBN: 3642404375 | 2013 | PDF | 321 pages | 5,8 MB

The topic of this book is known as dynamic scheduling, and is used to refer to three dimensions of project management and scheduling: the construction of a baseline schedule and the analysis of a project schedule’s risk as preparation of the project control phase during project progress.
Predictive Control of Power Converters and Electrical Drives (repost)

Predictive Control of Power Converters and Electrical Drives by Jose Rodriguez and Patricio Cortes
English | ISBN: 1119963982 | 2012 | 244 pages | PDF | 7,7 MB

The application Model Predictive Control (MPC) controls electrical energy with the use of power converters and offers a highly flexible alternative to the use of modulators and linear controllers. This new approach takes into account the discrete and nonlinear nature of the power converters and drives and promises to have a strong impact on control in power electronics in the coming decades.
Control of Power Inverters in Renewable Energy and Smart Grid Integration

Control of Power Inverters in Renewable Energy and Smart Grid Integration by Qing-Chang Zhong and Tomas Hornik
English | 2013 | ISBN: 0470667095 | 416 pages | PDF | 13,2 MB

Integrating renewable energy and other distributed energy sources into smart grids, often via power inverters, is arguably the largest “new frontier” for smart grid advancements. Inverters should be controlled properly so that their integration does not jeopardize the stability and performance of power systems and a solid technical backbone is formed to facilitate other functions and services of smart grids.