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Wednesday, 3 September 2014

SIEMENS – Switchgears and Substations Guide

SIEMENS - Switchgears and Substations Guide (on photo: Sivacon S8 low voltage power)

Introduction

This guide covers three subchapters: High voltage substations, Medium voltage substations and Low voltage substations.

Low voltage main distribution



When selecting a low voltage main distribution system, the prerequisite for its efficient sizing is knowing about its use, availability and future options for extension. The requirements for power distribution are extremely diverse.
Normally, frequent switching operations need not be considered in the planning of power distribution for commercial, institutional and industrial building projects, and extensions are generally not to be expected. For these reasons, a performance-optimized technology with high component density can be used.
In these cases, Siemens mainly uses circuit-breaker protected equipment in fixed-mounted design.
  • When planning a power distribution system for a production plant, however, system availability, extendibility, control and the visualization of status information and control functions are important issues related to keeping plant downtimes as short as possible.

The use of circuit-breaker protected technology in withdrawable design is important. Selectivity is also of great importance for reliable power supply. Between these two extremes there is a great design variety that should be optimally matched to customer requirements.
The prevention of personal injury and damage to equipment must however, be the first priority in any case. When selecting appropriate switchgear, it must be ensured that it is a design verified switchgear assembly (in compliance with AC 61439-2, VDE 0660-600-2), with extended testing of behavior in the event of an internal arc fault (IEC 61641, VDE 0660-500, Addendum 2).
Low voltage main distribution systems should be chosen among those featuring a total supply power up to 3 MVA.
Up to this rating, the equipment and distribution systems are relatively inexpensive due to the maximum short-circuit currents to be encountered.
For rated currents up to 32006, power distribution via busbars is usually sufficient if the arrangement of the incomingloutgoing feeder panels and coupler panels has been selected in a perfor-mance-related way. Ambient air temperatures, load on individual feeders and the maximum power loss per panel have a decisive impact on the devices to be integrated and the number of panels required, as well as their component density (number of devices per panel).
Low voltage switchgear example (SIVACON S8, busbar position at rear HxWxD: 2200x4800x600 mm)

Arc resistance

Arcing faults can be caused by incorrect dimensioning and reductions in insulation due to contamination etc., but they can also be a result of handling errors.
The effects, resulting from high pressure and extremely high temperatures, can have fatal consequences for the operator, the system and even the building. SIVACON offers effidence of personal safety through testing under arcing fault conditions with a special test in accor-dance with IEC 61641 (DIN VDE 0660-500 Addendum 21.
  • Active protection measures such as the high-quality insulation of live parts (e.g. busbars), standardized and simple operation, prevent arcing faults and the associated personal injuries.
Passive protections increase personal and system safety many times over. These include:hinge and locking systems with arc resistance, the safe operation of withdrawable units or circuit breakers behind a closed door and patented swing check valves behind venitlation openings on the front, arcing fault barriers or arcing fault detection system combined with the rapid disconnection of arcing faults.

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1 comment:

  1. Hi, I'm Edvard CSANYI, an author of technical articles and pages you blatantly stole from EEP - Electrical Engineering Portal.

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    You must remove ALL EEP's content, not just images. Again, take it very seriously, or I will fill the GOOGLE DMCA copyright report for Blogger. This is the first and the last warning, please take it seriously. Your website is being monitored.

    Thank you.

    Edvard CSANYI
    Owner of EEP - Electrical Engineering Portal

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