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Training running 2018

9. Advanced Industrial Electrical Systems Grounding Strategies

Offering Training

Industrial Power Systems Analysis Engineering

DESCRIPTION

 Desain sistem distribusi tenaga listrik sangat penting untuk keselamatan, pemeliharaan, troubleshooting dan operasi yang efisien dari pabrik industri modern. Sistem distribusi listrik termasuk : tegangan tinggi dari utilitas pemutus sirkuit, transformator utama, menengah tegangan switchgear, trafo distribusi, pusat kontrol motor, motor listrik, kecepatan drive variabel, dll .Kursus ini dirancang untuk menangani semua aspek dari sistem distribusi listrik industri, termasuk sistem perencanaan, pemilihan peralatan, spesifikasi dan aplikasi, sistem grounding, perlindungan dan sesuai dengan persyaratan kode listrik, dll.

WHO SHOULD ATTEND

Electrical power distribution engineers, electrical power system engineers, plant managers and consulting engineers, as well as technical personnel involved in the design, engineering, operation and maintenance of power distribution systems in an industrial plant.

OBJECTIVE

Mempelajari desain utama sistem listrik industri, perencanaan dan analisis. Kursus ini dirancang untuk insinyur listrik untuk review, memperkuat dan menyegarkan pengetahuan mereka tentang desain sistem kekuatan, operasi dan pemecahan masalah. Memajukan pengetahuan dan keterampilan dalam perencanaan sistem, pemilihan peralatan, spesifikasi dan aplikasi. Belajar dan memahami aspek-aspek penting dari distribusi daya dan langkah-langkah desain sistem. Meningkatkan pengetahuan Anda tentang bagaimana untuk mengoperasikan sistem tenaga industri Anda secara efisien dan aman.

Setelah mengikuti kursus ini peserta diharpakan dapat :

v  Mengidentifikasi dan memperbaiki masalah operasi sistem tenaga yang benar seperti di atas dan di bawah tegangan, faktor daya rendah, arus kesalahan tinggi dan distorsi harmonik.

v  Menggunakan peralatan listrik dan alat dengan efektif.

v  Mempelajari cara untuk menentukan dan memilih peralatan listrik yang memadai untuk aplikasi yang tepat.

v  Memahami dan melakukan perhitungan hubung singkat, sistem grounding dan koordinasi relay.

SUMMARY OUTLINE

1.      Introduction to industrial power systems

2.      System design considerations

3.      System planning

4.      Equipment selection

5.      Sort circuit calculation

6.      System grounding design

7.      Power flow analysis

8.      Protection and relay coordination

COURSE METHOD

COURSE SPEAKER

v  Presentation

v  Discuss

v  Case Study

v  Evaluation

v  Simulation

Teguh Santoso, Ir

 

Teguh Santoso experienced more than 27 years in electrical.

TIME & VENUE

COURSE FEE

Dafam fortuna Hotel

Jl. Dagen 60 Malioboro

Yogyakarta

(02746429888)

 

18-21 Juli 2016

17-20 October 2016

 

4 days

08 am – 04 pm

IDR 7,000,000.00 per participant non residential

Course fees can be transferred to the following account number :

CV JP CONSULTANT : MANDIRI Bank Yogyakarta Branch Acc. No.  1370007857077

 

FACILITY

INFORMATION AND REGISTRATION

¨  Module / Handout

¨  Certificate

¨  Souvenir

¨  Training Kit

JP Consultant

Kalibayem No. 436 Ngestiharjo Kasihan Bantul Yogyakarta

Email         :  jpconsultantyogyakarta@gmail.com

Website     : www.jptrainingcenter.com

Contact      : Tina (085741853818)      

                             (082225972336)

                     Fia   (081215667730)                  

 

 

 

Offering Training

Advanced Electrical Grounding

DESCRIPTION

This advanced course will also address other grounding electrode systems not covered in the basic electrical grounding course such as “Buried Horizontal Ground Grids”, the “Three-Point” triangular electrode and calculations for determining the area of influence of grounding electrodes, such as a ground rod.

The course will also include additional principles involved in Earth Resistance testing and additional methods of measuring the “Ground Resistance” such as “The Slope Method” grounding resistance testing for large grounding systems such as substations.

The lightning protection section of the course will provide as an additional material, calculations for transient over voltage generated in high structures such as transmission and communications towers and the step voltage hazards caused by transient induced voltage gradients in the earth. Capacitive coupling of transient energy will also be discussed.

This course will also provide a comprehensive coverage of design practices for grounding and electromagnetic compatibility of industrial, commercial, and residential systems with linear and distorting loads.

For critical electronic loads, this advanced course will provide grounding practices for signal reference subsystems, multipoint grounding systems and lower and higher frequency signal reference networks, subjects not covered in the basic grounding course.

WHO SHOULD ATTEND

Electrical Engineers, Project Engineers, Design Engineers, Plant Engineers or those who have a considerable understanding of electrical grounding and are responsible for the engineering, design, construction, installation, inspection, operation, or maintenance of electrical grounding systems in an industrial, commercial or institutional or utility setting.

SUMMARY OUTLINE

  1. State of the Art
  • Importance of Grounding Systems
  • Advanced Grounding System Definitions
  • Advanced Components of a Grounding System
  • Types of Grounding Systems
  • Detailed Requirements for a Grounding System
  • Advanced Electrical Grounding Concepts
  • Voltage and Current Distribution in the Soil
  • Voltage Drop around a Grounding Electrode
  • Fault Current Calculation
  1. Advanced Geology Considerations
  • Earth Crust Composition
  • Resistivity and Conductivity Properties of the soil
  • Properties of Different Soils
  • Electrical Conductivity of the soil
  • Resistivity Measurements
  • Wenner Method
  • Measurement Registry

3. Advanced Grounding Overview

  • Why Ground Circuits and Systems
  • Grounding methods
  • System Grounding
  • Single Point Grounding
  • Solid Grounding
  • Impedance Grounding
  • Reactance Grounding
  • Resistance Grounding
  • Isolated Grounding
  • Ground Faults
  • Grounding Systems

4. Grounding Electrode System Design Modelling

  • Advanced Grounding Theory
  • Parameters, Measurements and Calculations
  • Grounding Electrodes: Construction And Installation
  • Ground Resistance and Resistivity
  • Grounding Electrode Conductor
  • Electrical Grounding and Corrosion
  • Materials-Splicing
  • Installation and Protection
  • Sizing the grounding Electrode Conductor

5. Advanced Grounding System Design

  • Steps to Achieve a Proper Grounding System
  • Determination of Parameters
  • Design
  • Analysis
  • Topology
  • Materials
  • Grounding Electrodes
  • Low Voltage Systems
  • Basic Medium/High voltage Systems
  • Resistance Measurement
  • Measurement for Touch and Step Voltage
  • Grounding in Artic Regions

6. Circuit Grounding

  • How to ground AC Systems
  • How to ground DC systems
  • Grounded Conductor
  • Direct Current Systems
  • Alternating-Current System

7. Fault Protection Subsystems

  • Major Requirements: Leakage Current, Proper Sizing
  • Generators
  • Substations
  • Transformers
  • UPS systems: Online, Standby, Line Interactive, Alternative
  • Installation
  • Sizing the Equipment grounding
  • Identification of the Equipment grounding Conductor
  • Electric Shock
  • Grounding and electric Shock

8. Lightning Protection Systems

  • The Phenomenon of Lightning
  • Development of Lightning Flash
  • Flash Parameters
  • Influence of Structure Height
  • Lightning- Characteristics
  • Electrical Effects
  • Basic Protection Requirements
  • Protection Systems
  • Rolling Sphere Concept
  • Electro-Geometric Method
  • Lightning Protection System Specifications

9. Advanced Industrial Electrical Systems Grounding Strategies

  • Grounding Subsystems
  • Exterior Ground Ring
  • Interior Ground ring- Halo Ground
  • Telecommunication’s Site Grounding
  • Low Frequency Networks
  • High frequency Networks
  • Telecommunication Rooms and Closets

10. Advanced Electronic & Computer Equipment Grounding Systems

  • Computer and Electronic Equipment Grounding
  • Data Processing Equipment Grounding
  • Electronic Security Equipment Grounding
  • System Reference Zero
  • Detection of a faulty Neutral-Ground System
  • Sizing Wiring to meet Computer Industry Standards
  • Grounding line Treatment Devices
  • Transient Overvoltage Protector Grounding
  • Gas Tubes
  • Metal Oxide Varistors
  • Silicon Avalanche Diodes

11. Signal/Instrumentation Grounding

  • Signal Grounding
  • Grounding Procedures
  • Lower Frequency Equipment
  • Cabinet Grounding
  • Bonding Practices
  • Higher Frequency Equipment
  • Equipment Containing both Lower and Higher Frequency Circuits
  • Shielding Guidelines
  • Instrumentation Grounding
  • Common Mode Noise Control
  • Instrumentation Grounding
  • Analog Systems
  • Grounded and Ungrounded Transducers
  • Amplifiers
  • Digital Data Systems
  • Equipment Inspection and Test Procedures

12. EMI on Electronic Circuits

  • Susceptibility- Immunity
  • Cable Shielding and Grounding
  • Shields grounding
  • Coaxial Cables
  • Losses by Absorption and reflection
  • Grounding Low and High frequency Shielding
  • Grounding High frequency Shielding
  • Coaxial Cables
  • Superficial Resistivity
  • Resonance and Skin Effect
  • EMI (Electromagnetic Interference)
  • Inductive, Capacitive and Radiation Coupling
  • RFI (Radio frequency Interference)
  • Electrostatic Discharge

13. Advanced Electrical Grounding Applications

  • Transmission Lines Grounding
  • Substation Grounding
  • Distribution Transformer Grounding
  • Reflector Light Pole Grounding
  • Motor Grounding
  • Telecommunications site Grounding
  • Satellite System Grounding
  • High Frequency Grounding System
  • Metallic Fence Grounding
  • Tanks Grounding

COURSE METHOD

COURSE SPEAKER

  1. Presentation
  2. Discuss
  3. Case Study
  4. Evaluation
  5. Simulation

Teguh Santoso, Ir

 

Teguh Santoso experienced more than 26 years in Electrical.

TIME & VENUE

COURSE FEE

Hotel Jentra,Hotel Dafam, Jln Dagen, Malioboro Yogakarta

 

6 – 9 Januari 2014

08 am – 04 pm

In House Training:

Depend On Request

 

IDR 7,000,000.00 per participant non residential

Course fees can be transferred to the following account number :

CV JP CONSULTANT : MANDIRI Bank Yogyakarta Branch Acc. No.  1370007857077

 

FACILITY

INFORMATION AND REGISTRATION

  • Module / Handout
  • Certificate
  • Souvenir
  • Training Kit

JP Consultant

Kalibayem No. 436 Ngestiharjo Kasihan Bantul Yogyakarta

Phone         :  02743326339

Email          :  jpconsultantyogyakarta@yahoo.com

Contact      : Tina    (085741853818)

                    Damiri (083867388077)

                   

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