Connecting single-phase transformers in parallel to meet load requirements in AC power systems involves careful consideration of their parameters, turns ratios, and phasing to ensure proper operation and load sharing. Here's a general overview of the process:
Transformer Parameters: Before connecting transformers in parallel, make sure that the transformers have similar voltage ratings, impedance, turns ratios, and are designed for parallel operation. This helps ensure that the transformers share the load evenly.
Polarity and Phase Sequence: Transformers must have the same polarity and phase sequence to be connected in parallel. This means that if the primary winding of one transformer is connected to the source with a specific phase sequence, the primary winding of the other transformer should also have the same phase sequence. If the phase sequence is reversed, it could result in undesirable effects when connected in parallel.
Voltage Matching: The transformers' voltage ratings should match closely. Any significant voltage difference between the transformers could lead to unbalanced loading and possible damage to the transformers.
Impedance Matching: Transformers' impedance values (in percentage) should also be closely matched. Impedance mismatch can cause uneven loading and voltage regulation issues.
Load Sharing: The transformers need to share the load proportionally based on their power ratings. This can be achieved by adjusting the turns ratio or the transformer taps if they have on-load tap changers. Load sharing can be improved by selecting transformers with similar impedances and power ratings.
External Connections: The primary windings of the transformers are connected in parallel to the source, and the secondary windings are connected to the load. Properly sized fuses or circuit breakers should be installed for protection.
Neutral Considerations: If the secondary windings are grounded, proper grounding practices must be followed to avoid ground loops and ensure safety.
Control and Monitoring: Depending on the application, it might be necessary to implement control and monitoring systems to manage the load sharing and ensure that the transformers are operating within their limits.
Synchronization: If the transformers are used in a system where synchronization is important, additional synchronization equipment might be needed to ensure that the voltages and frequencies of the transformers are in phase.
Testing and Commissioning: After the transformers are connected in parallel, they should undergo testing and commissioning to verify load sharing, voltage regulation, and other performance aspects.
It's important to note that while connecting single-phase transformers in parallel can provide load flexibility, it requires careful design, engineering, and consideration of various factors to ensure safe and efficient operation. Consulting with electrical engineers and following relevant standards and guidelines is crucial when implementing parallel transformer configurations in AC power systems.