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Electric Distribution Systems Planning

Electric Distribution Systems Planning

Dafam Fortuna Hotel, Yogyakarta | 15 – 18 June 2015 | IDR 7.000,000.00 per participant
Dafam Fortuna Hotel, Yogyakarta | 21 – 24 September 2015 | IDR 7.000,000.00 per participant
Dafam Fortuna Hotel, Yogyakarta | 20 – 23 October 2015 | IDR 7.000,000.00 per participant

 

 

DESCRIPTION

Power distribution system is a part of electric networks between transmission network and consumer service point. Distribution networks represent a huge capital investment. The planning and design of electric distribution systems are divided into long term for future expansions and construction design. The study of power distribution system cover many areas such as planning and design of the distribution systems, load studies, system protection, reliability and maintenance. Power distribution systems starts by system modeling and analysis, through system electrical and mechanical design and cost estimation.



WHO SHOULD ATTEND

Electric Distribution course is designed for all Electrical Engineers who are working in Electric Distribution Networks. Engineers those are working in Planning, Project, Operation, and Maintenance will gain a lot of knowledge and benefits to add values to their Organization as well as increasing their knowledge.



SUMMARY OUTLINE ELECTRIC DISTRIBUTION SYSTEM

(1) Electric Distribution System

  • 1.1 Electric systems and networks components
  • 1.2 Substations (Outdoor and GIS)
  • 1.3 Transformers (Types, Mounting and Categories)
  • 1.4 Overhead lines types and constructions
  • 1.5 Underground Cables
  • 1.6 Distribution Control Centers
  • 1.7 Load types and Characteristics

(2) System Modeling and Analysis
2.1 System Modeling

  • Contingency
  • Protection System Response
  • System Reconfiguration
  • Upstream/Downstream Restoration
  •  Transfer Switches
  • Distributed Generation
  • Voltage Regulation
  • Operational Failures

2.2 System Analysis

  •  Reliability Analysis
  • Risk Analysis and Assessment
  •  Sensitivity Analysis
  • Root Cause Failure Analysis
  •  Loading Analysis

2.3 Improving System Reliability

  •  Protection Devices
  •  Reclosing Devices
  •  Sectionalizing Switches
  •  Automation and Faster Crew Response

2.4 System Economic Analysis

  • Cost Consideration
  • Pay Back
  •  Net present Value
  • Internal rate of return
  •  Annual Cost
  • Benefits of cost analysis
  • Marginal Benefits to Cost Process (MBCA)

2.5 Aging Infrastructure

  • Equipment aging and age profile
  • Population aging behavior
  • Population aging
  • Age and increasing failure rates

2.6 Other Important Issues

  • System Hardening
  • Conversion of Overhead to underground
  1. Cost
  2. Positive and Negative effects of Undergrounding.
  • System Optimization Techniques

(3) Distribution System Design
3.1 Mechanical Design Overhead

  • Poles and Cross Arms
  • Insulators, Guys and Anchors
  • Conductors and Clearances

3.2 Mechanical Design Underground

  • High density loads : city and down town
  • Different Design Issues
  • Underground Residential Distribution

3.3 Electrical Design Underground

  • Services
  • Primary and secondary systems
  • Voltage Regulators and taps
  • Boosters
  •  Capacitors and Reactors
  •  Transformers
  •  Protection
  •  Grounding
  • Special Design Issus (Critical Loads/VIP Loads)

3.4 Metering System

  • Operation—Monitoring Meters
  • Revenue Metering
  • Electronic Metering
  •  Automatic Meter Reading (AMR)
  • Active and Reactive Metering

3.5 Customer Interface Point

  • Simple interface point
  • High rise interface point
  • Bulk customer interface point

3.6 General Design Considerations

  • Safety
  •  Quality of Services
  • Economy

(4) Urban Design and New Technologies
4.1 Challenges

  • Land use & Urban Sprawl
  • Population Growth & Decline
  • Unsustainable Energy Resources
  • Transportation Congestion & Air Emissions
  • Degradation of Surface
  •  Ground & Potable Water Supplies
  •  Inadequate Economic Supply
  • Affordable Housing Supply
  • Insufficient Governance
  • Unsustainable Building practices

4.2 Design Principles

  • Principles for urban Sustainability
  • Design Elements
  1. Natural Systems
  2.  Land use
  3. Mobility Systems
  4.  Energy Systems
  5. Environment Management Systems
  6.  Building Systems

4.3 New Technologies toward more Energy Efficient System (LEED / Breeam)

  • Definitions
  • Certification
  • Concepts
  • Strategies
  • Methodologies



METHODE

  • Discuss
  • Case Study
  • Evaluation
  • Simulation



INSTRUKTUR

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



TIME & VENUE

  • Dafam Fortuna Hotel Jl. Dagen 60 Malioboro Yogyakarta
  • 23 – 26 February 2015
  • 15 – 18 June 2015
  • 21 – 24 September 2015
  • 20 – 23 October 2015
  • 4 days
  • 08 am – 04 pm



COURSE FEE

IDR 7.000,000.00 per participant non residential



FACILITY

  • Module / Handout Electric Distribution Training
  • Certificate
  • Souvenir
  • Training Kit

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Posted in: Electrical, Yogyakarta

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