Voltage collapse in power systems

Büyükcengiz, Sami


Electrical resistivities of liquid Li-Sn and Na-Pb alloys
Khajil, T. M. A.; Tomak, Mehmet (American Physical Society (APS), 1988-06-01)
The resistivity of liquid Li-Sn and Na-Pb alloys is calculated using the theory of ‘‘2 k F ’’ scattering theory recently developed by Morgan et al. The partial structure factors are described by the mean-spherical approximation for a system of hard spheres with Yukawa tails. The calculated resistivity values are in very good agreement with experiment. The improvement over the widely used Faber-Ziman formalism is impressive.
Electrical impedance imaging - injected current
Eyüboğlu, Behçet Murat (2006-01-01)
Electrical properties of silicide/silicon diodes
Akman, Nurten; Turan, Raşit; Department of Physics (1994)
Zia, Moaz; Fahrioğlu, Murat; Electrical and Electronics Engineering (2021-8-20)
Harmonics are one of the main power quality issues which needs to be addressed while designing a microgrid. If harmonics are present in the system, they can cause the load to malfunction and damage. With increasing number of non-linear loads and integration of distributed generators (DG) into the power system, harmonic mitigation is of paramount importance. There is a lot of work available in literature which deduce the benefits of integrating battery into the microgrid to improve renewable energy source (R...
Vibration analysis of pcbs and electronic components
Aytekin, Banu; Özgüven, Hasan Nevzat; Department of Mechanical Engineering (2008)
In this thesis, vibration analyses of electronic assemblies that consist of an electronic box, printed circuit board and electronic components are presented. A detailed vibration analysis of a real electronic assembly is performed by finite element methods and vibration tests. Effects of component addition and component modeling are investigated by finite element analysis in detail. Results are compared in order to identify the most efficient, reliable and suitable method depending on the type of problem. E...
Citation Formats
S. Büyükcengiz, “Voltage collapse in power systems,” Middle East Technical University, 1996.