When you ask lighting specialists about using programmable led light strips in industrial applications, you’re likely to hear many different responses, which range from “yes” to “it depends.” Answers to this question often vary because of the complexity of manufacturing facilities. They house various kinds spaces, from plant floors and storage areas to restrooms and corporate meeting rooms. Because different tasks occur in each one of these spaces, lighting goals and requirements also vary.
Recent advances in LED technology make them a much more viable choice for industrial facilities. What wasn’t possible five-years ago could be achievable today – what you’ve learned about LED lighting in industrial environments may no longer be true. Below are a few types of how LEDs have changed, and what which means for industrial facilities.
High-Bay Applications – Although LEDs were once not suggested to be used in high-bay applications, there are now several LED lighting designed especially for high-bay installation. This means that they follow recommended technical specifications for light output, lumen density, luminaire efficacy, etc. The fixtures options also enable you to choose specific lighting patterns to improve safety, productivity, as well as efficiency.
Temperature Fluctuations – LED high-bay luminaires may now provide lighting levels recommended through the Illuminating Engineering Society of North America as well as withstanding high ambient temperatures in industrial environments. LEDs now perform a minimum of equally in addition to in comparison to fluorescent and HID lamps in high temperatures, if they are created to manage heat dissipation. LEDs also work well in cold temperatures. Refrigerated plants or warehouses don’t impact LED performance, and don’t increase the thermal load. HID lighting, which can be often found in these environments, could also handle the cold temperatures, but adds substantial thermal load. To keep low temperatures, this thermal load must be removed – which costs money and is also inefficient.
Narrow Spaces – The inherently compact design of LEDs allows them to be utilized in small, cramped, or tight spaces. Which means that they are able to squeeze into narrow spaces without having to sacrifice performance.
Brightness – LEDs initially offered a limited light output range; this sometimes made them not bright enough for high-intensity industrial applications. That no more holds true today. Industrial facilities have an array of LEDs to select from to enable them to select an appropriate lighting intensity level. Regardless of the now-possible bright lighting levels, well-designed LEDs may also minimize glare and manage light placement. The lamps emit light directionally, meaning that the light is focused where you want to buy.
Color Temperature – LEDs now have excellent color-temperature selections for industrial environments. Described utilizing the Kelvin scale, the great deal of white color-temperature options for super bright led lighting make sure they are suitable for industrial applications where quality control, detail, and inspection are important. Color temperature is often a personal preference too, so industrial lighting may be chosen to match what workers in a particular area might need or want.
Existing-Fixture Reuse – If the fixtures inside your plant are newer or perhaps in excellent condition, as well as the design and layout from the lighting system meets your needs, then a completely new LED lighting system may no longer be necessary. Instead, LED retrofit kits are for sale to industrial environments; they are able to transform existing fixtures, allowing you to install LED lamps into the equipment you currently have.
It is essential to note, however, that, if an LED lamp is fully enclosed within an existing fixture (in a fluorescent fixture with a lens, as an example), less efficient heat dissipation may occur, which may negatively impact the performance of the LED. These lamps reach their full lifespan if they are operated in open fixtures with appropriate ventilation.
A Reminder About the Benefits Of LEDs – LEDs can successfully replace metal halide, high-pressure sodium, HID, and outdated fluorescent lamps. Because LEDs don’t need ballasts, they can minimize fire hazards as well as the environmental impacts and disposal costs for industrial facilities. It’s important to understand that initial lighting fixture pricing is fqzzjr area of the total lifecycle costs of a lighting system. Next to energy savings, reduced maintenance is among the biggest benefits associated with installing LEDs – especially in manufacturing and warehouse spaces and then there are high, hard-to-reach fixtures.
Maintenance and lamp replacement costs increase the total cost of your lighting system; longer-lasting, efficient LEDs reduce how frequently lamps must be changed, reducing the amount of time that staff or contractors spend replacing lamps. LEDs may also eliminate downtime as a result of equipment shutdowns when lights venture out. LEDs don’t suddenly shut off; they degrade slowly with time, producing less light and shifting color characteristics over the years as they age. This provides ample warning about necessary change-outs.
LEDs will also be naturally resistant to vibration and impact since they don’t use filaments or glass enclosures. As a result them an ideal lamp for rugged environments. If you thought that flexible led strip lights weren’t ready for industrial facilities, reconsider. LED technologies have improved, and is able to help your plant reduce energy usage, lower operating costs, decrease maintenance expenses, and improve lighting quality.