Cari Training



Contact Expertindo

Kantor Expertindo Training
Jl. Kaliurang Km 10, Kompleks Perum Puri Gentan Asri No 11, Yogjakarta

Phone

  • 082327539001 - Tlp/SMS/WA (Triyuni Saputri)
  • 085385532986 - Tlp /SMS/WA (Nafis Afiana)
  • 081392639023 (Eli)

Fax: 0274-4532686

 

Email

mail@expertindo-training.com

expertindotraining@gmail.com







POWER SYSTEM TRANSIENT AND PROTECTIONS

Home / POWER SYSTEM TRANSIENT AND PROTECTIONS

Kategori:
Electricity


Deskripsi

Reliability of electrical energy systems to a large extent is a consequence of the reliability of it’s protection  system.  Basic  building  blocks  of  the  protection  system  are  fuses,  over  current  and distance  relays  and  differential  protection  schemes.  In  this  course,  we  will  introduce  their principles  and  applications  to  apparatus  and  system  protection.  Technology  of  relaying   has changed  significantly  in   last  century.  The  first  generations  of  relays  were  electromechanical devices.   The   second   generation    involved   solid   state    relays.   The   present  generations   of numerical relays are realized by digital signal processing. In this course, we will also introduce both  theory   and  practice   of  the  numerical  relays.The  course  can  be  used  as   a  first  course   in power system protection. It should be also useful to graduate students, practicing engineers as well as the research community.

Tujuan

?To  develop  an  understanding  of  how  surges  and  electrical  transients  originate  and propagate throughout a power system.

?To  develop  the  capability  to  understand  the  nature  and  calculation  of  such  surges and transients.

?To  be  able  to  understand  transients  issues  related  to  power  system  apparatus  and overvoltage   protection   schemes   for   acceptable   system   operation   w.r.t.   insulation performance .

Materi

  1. Fundamental Notions about Electrical Transients 
  2. Simple Switching Transients and Damping 
  3. Transient Solutions by Laplace Transform and by Deduction 
  4. Transmission Line Equations and Traveling Waves 
  5. Behavior of Traveling Waves at Junctions – Surge Impedance Terminations 
  6. Behavior of Traveling Waves at Junctions – Complex Terminations and Bifurcation 
  7. Lattice (Bewley) Diagrams 
  8. Attenuation and Distortion of Traveling Waves 
  9. Transients on Practical Power Systems 
  10. Fundamental  principles  of  fuse  and  over  current  protection  and  application to  feeder and motor protection. 
  11. Fundamental  principles  of  distance  relaying   and  application  to  transmission  system protection. 
  12. Fundamental principles of differential protection and application to transformer, bus bar and generator armature winding protection. 
  13. Role of Current and Voltage transformers in power system protection. 
  14. Relay co-ordination in transmission and distribution system. 
  15. Introduction  to   Numerical   relaying.   DSP  fundamentals   like   aliasing,   sampling  theorem,  Discrete  Fourier  Transform  and  application  to  current  and  voltage  phasor estimation. 
  16. Numerical  relaying  algorithms  for  over  current,  distance  and  differential protection  with application to transmission system, transformer and bus bar protection  

 

Metode

  1. Presentation
  2. Discuses
  3. Case study 

 

Fasilitas

  1. Quota minimum 2 peserta
  2. Fasilitas : Certificate,Training kits, USB,Lunch,Coffe Break, Souvenir 
  3. Untuk peserta luar kota disediakan transportasi antar-jemput dari Bandara/Stasiun ke Hotel (Bagi Perusahaan yang mengirimkan minimal 3 orang peserta). 

 

Instruktur

Mursid Sabdullah ST MTand Team 

 

Fundamental Notions about Electrical Transients
2.
Simple Switching Transients and Damping
3.
Transient Solutions by Laplace Transform and by Deduction
4.
Transmission Line Equations and Traveling Waves
5.
Behavior of Traveling Waves at Junctions
Surge Impedance Terminations
6.
Behavior of Traveling Waves at Junctions
Complex Terminations and Bifurcation
7.
Lattice (Bewley) Diagrams
8.
Attenuation and Distortion of Traveling Waves
9.
Transients on Practical Power Systems
10.
Fundamental principles of fuse and over current protection and application
to feeder
and motor protection.
11.
Fundamental principles of distance relaying and application to transmis
sion system
protection.
12.
Fundamental principles of differential protection and application to transformer
, bus bar
and generator armature winding protection.
13.
Role of Current and Voltage transformers in power system protection.
14.
Relay co-ordination in transmission and distribution system.
15.
Introduction
to
Numerical relaying. DSP fundamentals like aliasing, samp
ling
theorem, Discrete Fourier Transform and application to current and voltage ph
asor
estimation.
16.
Numerical relaying algorithms for over current, distance and differential
protection
with application to transmission system, transformer and bus bar protec
tion