ABB SWICOM: Smart switchgear with predictive capabilities MechChem Africa talks to Danie Maré of ABB Electrification (EL) about SWICOM with ABB Ability™️ , the company’s connected switchgear solutions that offer rapid protection and ongoing condition monitoring options for upstream and downstream electrical feeders and infrastructure such as transformers, electrical motors, industrial plant and municipal distribution networks.
“W e at ABB EL are involved with switchgear at two levels. We've got the medium-voltage (MV) equipment that ranges from above 1.0 kV to 36 kV as well as the low-voltage (LV) switch- gear for industrial load and control centres, which includes the safety switchgear for elec- trical systems below 1.0 kV, typically 525 V and 400 V systems used for supplying electri- cal motors for industrial plants,” begins Danie Maré, sales manager for ABB Electrification (EL) in South Africa. “We also support utilities with the switch- gear required for feeding electricity into suburban substations and then on into households or commercial buildings. This happens at two levels. On the MV side, we have primary switchgear (e.g. Unigear), which caters for higher fault levels. This is typically
over current or short circuit – but on a much bigger scale and with much more safety and smart technology incorporated into the units.” As part of ABB Ability™, the holistic condition monitoring platform for electrical equipment, Maré says that ABB’s MV and LV switchgear is now available with SWICOM, a purpose built monitoring and diagnostic system for continuously tracking and moni- toring the condition of the switchgear and that of upstream and downstream electrical infrastructure. “SWICOM is a monitoring and diagnostic module that provides mechanical and electrical health status of switchgear and the equipment connected to it. It acquires data by communicating with IEC 61850-based protection relays, and via sensors such as temperature sensors, partial discharge sen- sors as well as by inputs from current and voltage transformers or, more recently, cur- rent and voltage sensors, to accumulate the data needed to compile accurate diagnostic reports,” notes Maré. “Temperatures and partial discharge data collected at critical points on primary switch- gear are key indicators of switchgear health,” he continues. “By incorporating SWICOM into the switchgear control panel, safety and condition information can be uploaded into a cloud-based ABB-Ability platform for smart analysis, which will highlight any equipment condition-related risks so that rapid and appropriate decisions can be taken based on accurate real-time data,” he tells MechChem Africa. “If using SWICOM to protect the switch- gear itself, for example, two main indicators of switchgear condition are partial discharge and temperature. By continuously monitoring, recording and analysing these two param- eters, trend information can be accumulated and tracked. This enables the real condition of the switchgear to be assessed at any time and a potential failure or fault to be predicted well in advance of a failure,” Maré explains. Partial discharge, he adds, gives an indica- tion of deterioration of insulation in switch- gear and its conductors, enabling plant owners to identify potential problems well before insulation breaks down completely. “Should insulation fail entirely, an internal arc fault is likely to occur, which could be catastrophic in terms of safety and equipment damage,” he
the switchgear that utilities use in their main substations to feed into the rings supplying the suburbs with power. In the industrial environment, primary MV-switchgear will be used at the main substations to feed the plant environment,” says Maré. Moving into secondary switchgear (e.g. SafeRing), he says that the miniature sub- stations we see on street corners will be equipped with secondary circuit breakers protecting the lines that feed into individual properties. Secondary switchgear would also be used to protect the downstream distribu- tion lines in industrial plant and the feed lines from step-down transformers feeding electri- cal load centres. “In principle, the role of switchgear is the same as that of a circuit breaker on a household distribution board (DB) board. The breaker trips in the event of any earth leakage,
UFES TM (ultra-fast earthing switch) consists of an electronic device and corresponding primary switching elements that, in the event of an arc fault, initiate a three-phase earth with an extremely short switching time to extinguished the danger immediately after it arises.
6 ¦ MechChem Africa • September-October 2022
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