Blog posts of '2023' 'October'

Standby engine generators, as the name suggests, are vital for emergencies. They are kept as backups to generate power during outages. Now, swift activation of standby engine generators is crucial when outages persist for a longer period of time. Specific issues such as failure to start, generator not connecting due to switchgear malfunction, or operational failure post-connection may sometimes delay the activation of the generator. By using a branded generator changeover switchgear, you can eliminate these problems.

Common Generator Problems and the Ways to Address Them

Problem 1: The generator engine failed to start

Solution: Confirm the engine and switchgear controls are in automatic mode. Regularly check battery health and charger power. Be cautious of ATS not detecting power failure, hindering engine start. Periodic ATS tests, briefly cutting normal power, ensuring prompt engine response, and verifying ATS functionality during utility outages.

Problem 2: Engine running but failing to meet critical load

Solution: During routine maintenance, technicians must validate the correct switchgear neutral switch timing setpoint. Regular checks should ensure the engine main breaker is closed. Adjust the breaker setting to avoid unnecessary trips under load. Conduct frequent transfer tests initiated manually at the ATS without opening circuit breakers to prevent failure modes. The common failure modes are:

•      The ATS does not acknowledge acceptable generator power
•      ATS jamming or failing to transfer
•      And, contacts fail under load post-transfer

This proactive approach ensures the reliability of the generator switchgear and minimises potential operational failures.

Problem 3: The engine carries the load smoothly but fails before the return of utility power

Solution: Prevent fuel-related issues by routinely inspecting pumps and filters for contamination. Run the generator for extended periods to confirm prolonged performance and avert these potential failure modes.

•      Engine overheating
•      Component failures
•      Incompatibility issues with load, such as voltage regulator or speed governor issues

Problem 4: The engine still runs after stable utility power returns

Solution: Verify switchgear setpoints for potential manual transfer requirements. Ensure correct adjustment of the ATS-in-phase monitor and appropriate engine frequency for seamless in-phase monitoring and closed-transition transfer.

Avoid generator issues with the best switchgears

Selecting the right generator changeover switchgear is critical for unhindered power transitions during power cuts and supply outages. The choice influences the reliability of backup power systems by ensuring timely and automatic shifts between utility and generator power. Well-designed switchgear minimises the risk of failure modes, such as failure to recognise utility power return or jams during transfer. Find the best switch gears with Blades Power Generation today!

The crucial element of a power generator is an Automatic Transfer Switch. As the name suggests, when the primary power source fails, this switch will automatically shift to a reserve power-generating source. All industries install such automatic transfer accessories in their power generation systems for safety and convenience. Let us find out what to consider for identifying the suitable ones.

Key considerations for  Automatic Transfer Switch (ATS) selection

Power rating

The power rating of an ATS indicates its capacity to handle electrical loads. It is measured in amperes (A) and represents the maximum current the ATS can manage. Choosing the right power rating ensures unhindered transitions during power outages and safeguarding your electrical systems effectively. This power rating of ATS is also called total amperage. Check and understand the power rating that suits your requirements.

Voltage requirements

The ATS must align with the voltage requirements of the primary power source and the backup generator. Mismatched voltages can lead to equipment damage or failure during power transfers. Confirming that the ATS is rated for the specific voltage of the electrical system it will connect to is essential. Understanding the voltage factor ensures a proper transition between power sources. It also guarantees the optimal ATS functions and safeguards against potential disruptions.

The wattage of the generators

These switches are generally measured or rated in kilovolt amperes (kVA). This rating indicates the maximum current an ATS can handle. On the other hand, generators are often rated in watts. We should know that the wattage of a generator is the result of multiplying device amperage and circuit voltage. Hence, calculate the power requirement by checking the generator’s output capacity.

Safety features

Prioritise checking safety features such as overcurrent protection, surge protection, and load-shedding capabilities. These features safeguard electrical systems during power transitions, preventing damage and ensuring user safety. Prioritising ATS models with robust safety features is essential for a reliable backup power setup.

The degree of reliability

Last but not least, the final factor describes the reliability factor of an ATS manufacturing brand. The material used, build quality, certifications, industry standards, etc., of an ATS design must be checked along with the brand’s reputation in the market.

Get Suitable and Reliable ATS!

Consider the aforementioned factors to find the most suitable Automatic Transfer Switch in Blades Power Generation and stay compliant with industry standards. Remember, a proper choice from a reputed brand will go a long way to save your appliances and equipment.