In aviation, where every second counts, it is critical to keep aircraft ready all the time. Part of what keeps these aircraft ready to go is the ground support team and their inventory on hand. Among the various things that should be in stock, three are vital: Ground Power Units (GPUs), Air Start Units (ASUs), and Hydraulic fluids. By maintaining an adequate supply of these vital items, ground support teams can reduce downtime to the minimum possible and save on maintenance costs. Work will be surer–more reliable. Aircraft may even be serviced in time for their next flight straight out of one of these new hangers.
1. Hydraulic Fluid
The hydraulic fluid must flow freely within ground support equipment such as hydraulic jacks and lifts, for without it, they cannot perform their vital functions. When hydraulic systems fail to pump fluid as needed, safety and scheduling delays are the inevitable results. Therefore, maintaining reliable reserves is a top priority. For instance, using hydraulic fluid 5606 ensures that the equipment operates efficiently and meets industry standards. Over the passage of time and with recurring use, the condition of hydraulic fluid will deteriorate through the accumulation of contaminants or natural breakdown.
By identifying and addressing the root causes of contamination proactively, or substituting aging fluid as scheduled, equipment performance remains optimized. By facilitating a continuous supply of high-quality hydraulic fluid, support crews safeguard the smooth workings of their operations. As a result, aircraft can receive the care required to prolong safe service without disruptions from equipment.
2. Ground Power Units (GPUs)
Ground Power Units (GPUs) are essential to delivering electric power to aircraft while on the ground. These units are also tasked with supplying power to start engines and perform maintenance on systems while the aircraft is grounded — allowing planes that aren’t flying around to stay functional. When it comes to ground operations, you must have a stable GPU in place so that there is no delay. Failure of a GPU could mean blackouts and disturbances in maintenance operations due to power shortages, all at an increased cost.
By maintaining a healthy supply of GPU inventory, service turnaround times are greatly reduced, and this means less or negligible downtime to the carriers, allowing for efficient operational flow. The airborne ground support teams must also have their GPUs regularly checked and maintained before use to ensure they are in good condition. This proactive approach prevents surprise problems, ensuring that the GPUs are always kept operational and ground support activities can be delivered in an optimal fashion.
3. Air Start Units (ASUs)
When aircraft engines are not operating, Air Start Units (ASUs) help get them moving. These provide the compressed air required to start engines so aircraft can be ready for flight and put into operation. Having a sufficient stock of ASUs is crucial to minimize turnaround times in ground handling. With insufficient ASUs, engine start-up delays can happen, which can result in a reduction of overall operational efficiency and an adverse impact on schedules.
Well-stocked and fully operational ASUs maintained in the inventory of a ground support team can expedite aircraft preparation, leading to wide-ranging improvements across many aspects. This proactive approach not only helps smooth ground operations but also contributes to overall operational efficiency by minimizing delays and getting aircraft ready for their next flight as quickly as possible.
Conclusion
Stocking up on all the key ground support items is essential for any aviation facility. Three such components are Ground Power Units (GPUs), Air Start Units, and Hydraulic fluids. These items are not only necessary for the proper operation of ground support equipment but they are also vital for reducing turnaround time and operational costs. By ensuring these indispensable supplies are always available for maintenance, the ground teams can certainly increase overall safety and efficiency in their activities. The proactive nature of this process ultimately serves to sustain aircraft continuity–keeping them in a state where they are constantly ready for flight and schedules can be adhered to without any undue delays.