home Mechanical Electrical Engineering TRAINING POWER SYSTEM PROTECTION AND RELAY COORDINATION

TRAINING POWER SYSTEM PROTECTION AND RELAY COORDINATION

TRAINING POWER SYSTEM PROTECTION AND RELAY COORDINATION

TRAINING PROTEKSI SISTEM TENAGA

TRAINING RELAY COORDINATION

pelatihan Power System Protection and Relay Coordination di jakarta

DESCRIPTION

The training in the principles and methods used to perform protective device coordination studies for low voltage through distribution level power systems with or without software. This is one of the few courses that is not merely a software training course. Specifically designed for industrial and government engineers that want knowledge of the principles of protective device coordination but also practical knowledge of how to achieve reasonable and economical device coordination.

The only course which can cover both national codes and standards and government criteria that affect coordination philosophies. Covers concepts, procedures, and guidance not covered in other courses in the industry. Examples will include critical systems fed from emergency generators and uninterruptible power supplies (UPS).

WHO SHOULD ATTEND

Utility engineers, consultants (especially those involved with IPP/DG design), equipment/control engineers, generator packager and manufacturer engineers as well as others who specify protective relays and develop settings for these devices.

SUMMARY OUTLINE POWER SYSTEM PROTECTION AND RELAY COORDINATION

1.         System Analysis
*  Fault Current and Load Flow Calculations Using Computer Software
* Remote Effects Of Faults

2.         Protective Device Coordination Principles
* Graphical Tools and Time/Current Curve Interpretation
* Load Flow and Unbalanced Fault Effects
* Cold Load Pickup
* Grounding System Constraints
* Coordination Economics
* Asymmetrical Current Impacts
* Coordination Time Intervals of Relays
* Transformer Effects on Coordination

3.         Equipment and Device Characteristics
* Fuses –including current limiting fuses
* Molded case and Insulated Case Breakers
* Solid-State Trip Low Voltage Breakers
* Equipment Damage Characteristics
* Proper Protective Device Selection
*  Circuit Breaker Ratings and Selection
* Low Voltage Cable Protection
* Shielded Cable Protection
* Overhead Conductor Protection
* Motor Protection
* Generator Protection
* Transformer Protection
*  Panelboard and Switchgear Protection
* Inverse Time/Overcurrent Protective Relays and
*   Instantaneous Trip Devices
* Series Rated Breakers
*  Differential and Voltage Constrained Relays
*   Reclosing relays, reclosers, and sectionalizers
*  Current transformer characteristics and selection

4.         Ground Fault Protection
* Arcing Ground Fault Magnitudes
* Ground Fault Protection Schemes
* Interaction Of Ground Fault Relays And Phase
*  Overcurrent Devices

5.         Emergency Power System Design
* Weak Source Systems
* Generator Fault Characteristics
*  Uninterruptible Power Supply Fault Characteristics
* Transfer and Static Switch Limitations
*  Improving Emergency Circuit Design

6.   Common Coordination Problems, Errors, And Misconceptions

7.  Preliminary System One-line Development for a Coordinated System
* Lessons Learned and “ Rules of Thumb” to spot uncoordinated systems and methods to develop a coordinated system design

8.         Criteria Impacting Coordination
* NESC, IEEE Std C2,
* NFPA 70-National Electrical Code
* Arc Flash Protection of Employees

9.         Switchgear And Relay Commissioning Including Optional Hands-On Student Calibration of a Relay

COURSE SPEAKER

Teguh Santoso, Ir
Teguh Santoso experienced more than 26 years in Electrical.

COURSE METHODE
* Presentation
* Discuss
* Case Study
* Evaluation
* Simulation

Jadwal pelatihan trainingmekatronika.com tahun 2023 :

  • Batch 1 : 11 – 12 Januari 2023 | 25 – 26 Januari 2023
  • Batch 2 : 01 – 02 Februari 2023 | 15 – 16 Februari 2023
  • Batch 3 : 01 – 02 Maret 2023 | 15 – 16 Maret 2023
  • Batch 4 : 04 – 05 April 2023 | 11 – 12 April 2023
  • Batch 5 : 10 – 11 Mei 2023 | 24 – 25 Mei 2023
  • Batch 6 : 07 – 08 Juni 2023 | 21 – 22 Juni 2023
  • Batch 7 : 12 – 13 Juli 2023 | 26 – 27 Juli 2023
  • Batch 8 : 09 – 10 Agustus 2023 |23 – 24 Agustus 2023
  • Batch 9 : 06 – 07 September 2023 | 20 – 21 September 2023
  • Batch 10 : 04 – 05 Oktober 2023 | 18 – 19 Oktober 2023
  • Batch 11 :01 – 02 November 2023 | 15 – 16 November 2023
  • Batch 12 : 05 – 06 Desember 2023 | 12 – 13 Desember 2023

Catatan : Jadwal tersebut dapat disesuaikan dengan kebutuhan calon peserta training Analisa sistem tenaga pasti jalan

Invetasi dan Lokasi pelatihan Relay coordination di jakarta :

· Yogyakarta, Hotel 101 (6.500.000 IDR / participant)

· Jakarta, Hotel Amaris Kemang (6.500.000 IDR / participant)

· Bandung, Hotel Neo Dipatiukur (6.500.000 IDR / participant)

· Bali, Hotel Ibis Kuta(7.500.000 IDR / participant)

· Surabaya, Hotel Amaris, Ibis Style (6.000.000 IDR / participant)

· Lombok, Sentosa Resort (7.500.000 IDR / participant)

Catatan : Apabila perusahaan membutuhkan paket in house training, anggaran investasi pelatihan dapat menyesuaikan dengan anggaran perusahaan.

Fasilitas  pelatihan Analisa sistem tenaga di jakarta :

  • FREE Airport pickup service (Gratis Antar jemput Hotel/Bandara/Stasiun/Terminal)
  • FREE Akomodasi ke tempat pelatihan bagi peserta training Relay coordination jakarta pasti running
  • Module / Handout training Proteksi sistem tenaga jakarta fixed running
  • FREE Flashdisk
  • Sertifikat training Power System Protection and Relay Coordination di jakarta murah
  • FREE Bag or bagpackers (Tas Training)
  • Training Kit (Dokumentasi photo, Blocknote, ATK, etc)
  • 2xCoffe Break & 1 Lunch, Dinner
  • FREE Souvenir Exclusive
  • Training room full AC and Multimedia

.