Increase your grip on the performance of your installation with our technical whitepapers. You will get immediately applicable insights and diagnostics to ensure the reliability and safety of your critical systems.
High levels of harmonic contamination in an electrical network can have a variety of negative consequences. Failure to comply with relevant standards can lead to unnecessarily high energy bills, fines from the grid operator, significantly reduced equipment life and non-optimal use of the network.
The work of the installation manager at an industrial company is becoming increasingly important and complex. This white paper discusses the complexity of installations and how the installation manager can be supported!
Besides dazzling light and temperatures higher than 19,000 degrees Celsius, an arc flash explosion causes a pressure wave with a deafening bang. Calculating the behaviour of arc pressure waves before they occur contributes to safety by providing insight into the risks and how they can be minimised.
To guide your business through the energy transition, it is important to understand current energy flows. This is necessary to predict future flows and make meaningful plant adjustments.
Do you suffer from harmonic current and voltage? It is very annoying when devices fail prematurely, bringing production processes to a standstill. This whitepaper provides an overview of all common types of filters suitable for compensating harmonic currents to reduce harmonic voltage.
When solar panels are installed, they will produce 'real power' under sunny conditions. The load present in the installation will absorb this real power from the solar panels. The remaining real power generated will be fed back to the grid. This whitepaper is about the blind current penalties in solar panels.
An electric arc is a sustained spark (arc-over) between conductors. It is often accompanied by massive amounts of energy and therefore manifests as an explosion. Limiting the arc energy can be the difference between life and death in an accident. This white paper explains what "arc energy" is and how it can be minimised. It also discusses why selectivity does not automatically lead to an arc-safe installation.
