5 Advantages of LED Lighting for Industrial Use
February 18, 2022
LED Lightning’s Return on Investment in Industrial Applications
However, there appear to be certain misconceptions about the use of LED lighting in industrial applications. LED lighting is a cost-effective replacement for fluorescents, HIDs, and all other types of industrial lighting, which industries should be aware of. While LED lights are slightly more expensive than fluorescent lights at first, the price difference is only a one-time issue. Furthermore, they are energy-efficient, which means that businesses that utilise LED lighting will save money on their electricity bills.
Unlike in previous decades, when lighting-related energy costs played a minor impact in purchasing decisions, a decade of rapidly rising energy prices has turned energy use into the primary cost driver for industrial lighting applications.
Commercial and industrial enterprises should not sacrifice long-term gains in exchange for shorter initial payback periods—usually measured in months. LED lights make sense from a purely financial standpoint because of their extended life and low maintenance requirements.
LED Lights Do Not Require Any Upkeep
LED lighting does not require maintenance, contrary to popular belief. People believe that LED magnetic ballasts need to be serviced and replaced on a regular basis. LED lights, on the other hand, have electronic drivers that do not need to be replaced. These drivers are now built to withstand any type of harsh environment. A magnetic ballast, which is used in traditional industrial lighting such as HID, HIF, HPS, and metal halide, wears out quickly and needs to be replaced or serviced.
Magnetic ballasts are expensive to service in large commercial and industrial buildings with hundreds of fluorescent or HID lights. LEDs, on the other hand, are semiconductors with electrical drivers that manage power delivery and make light more energy efficient. Because LEDs use electronic drivers, lighting manufacturers may incorporate control functions such as sensing, dimming, and instantaneous on/off into their lights for optimal functionality and efficiency.
LED Lighting Drivers that are well-designed do not fail.
Another significant advantage of LED lighting for industrial applications is that well-designed LED drivers do not fail during the LED’s useful life. A driver or any other component would be unlikely to need to be replaced. Furthermore, unlike traditional fluorescent or HID lighting fixtures, which have their usable lifespan drastically reduced by frequent on/off switching, a well-designed LED fixture’s useful lifetime is not shortened by such operations. In reality, frequent switching extends an LED’s useful life because shutting off an LED fixture reduces the accumulation of total running hours.
Mercury is not present in LED lights.
People often believe that LED lights, like fluorescent lighting, contain mercury, yet LED lights are mercury-free and non-toxic. They perform effectively in high-temperature situations. In fact, well-designed LEDs can be used in a variety of settings. Lighting that operates at any temperature—hot, cold, or anywhere in between—requires a well-designed lighting system that effectively handles heat dissipation. In addition, LED lights work exceptionally well in freezing temperatures.
Glare Can Be Controlled With LED Lighting
The ability to minimise glare is another advantage of LED lights for industrial applications. Many industrial facilities are not ideal for a dazzling lighting system. LED lights are now well-designed to reduce glare. All of the high-output lights are quite bright. The glare fades fast once the novelty wears gone. Furthermore, LED lighting with well-designed lenses reduces direct brightness and glare. Furthermore, LED lights now come in a colour temperature that is ideal for industrial settings. If you need to make changes to your current LED lights, you can explore Patlite.