Implementing the Right Aircraft Deicing Valves and Ensuring Safe Flight
Planes regularly fly through harsh weather conditions, but the effects of precipitation over time can endanger passengers and crew. While snow and ice are usually not an immediate threat to a safe flight, as precipitation accumulates on a plane, this can subtract from thrust and lift, and add harmful amounts of drag and weight that inhibit a smooth flight.
As planes reach higher altitudes, the surrounding temperatures drop significantly. This can cause ice buildup during winter or in colder parts of the world. Ice buildup can even make its way into a plane’s engine to create dangerous vibration levels and thrust loss.
When efficient travel is at stake, crews cannot afford to let ice slow down a flight. For this reason, maintaining an effective aircraft deicing system is essential. Deicing valves, in particular, play integral roles in ensuring the electromechanical aircraft deicing processes runs smoothly, and it keeps vessels as aerodynamic as possible.
Aircraft deicing valves, whether pneumatic, electromechanical or of another type, move as part of a plane’s deicing system before the plane withstands precipitation to prevent the accumulation of ice and contaminants.
What Are the Advantages of Electromechanical Deicing Valves?
An aircraft deicing system consists of multiple valve types. A stream control valve transfers air to the system and aids in heating ice for it to break away from the aircraft.
Deice boot systems control distributor valves, which move the connections of boots, or rubber components, between stabilizers and wings. This helps break up ice between system pumps and removes air. Pressure regulator valves level out the system when pressure levels exceed aircraft limits.
In an electromechanical aircraft deicing system, sensors detect the buildup of ice which then triggers the vibration of coils. The vibration removes ice from the aircraft, and does not change stall speed.
While not widely available across commercial aircraft platforms, electromechanical deicing systems are great alternatives to chemical deicing in smaller aircrafts.
Every engine environment undergoes different stressors. For this reason, when designing deicing valves for aircraft, manufacturers must consider factors including surrounding temperatures, potential leakage of fluid, levels of vibration, reaction times and more.
Companies across the aerospace and defense sectors look to NMG Aerospace for top-quality aircraft deicing valves. When you need quality deicing valves, you can depend on the team from NMG Aerospace for superior engineering, design, testing and quality assurance.
In 2016, NMG Aerospace acquired solenoid manufacturer Electromotive Incorporated, which forged a connection between aerospace machining manufacturing and actuation engineering to produce aerospace valves that outperform the competition.
Connect With the Team From NMG Aerospace Today
Whether for international travel, personal use or tactical purposes, planes must withstand the elements to ensure safety. Without reliable deicing valves and systems, crews cannot promise a safe flight. However, with deicing systems from NMG Aerospace, you invest in a safe, efficient future of flying.
Why choose NMG Aerospace for aircraft deicing valves? The company’s leading electromechanical actuation division is a go-to resource for quality solenoid valves and other solutions. NMG Aerospace actuation solutions are not only compatible with aircraft deicing systems, but also rivet guns, mining equipment, landing gear and other aircraft systems and aircraft components.
For more than half a century, NMG Aerospace has been a force for excellence in aircraft engineering. The company’s commitment to premier customer service and culture of continuous improvement allow NMG Aerospace to keep product quality as high as possible and work to increase customers’ competitiveness.
Visit https://www.nmgaerospace.com/ today to learn more.