How Do Major Sports Fields Stay Protected During Storms?
Unfortunately, not even the biggest game of the season can hold off a lightning storm. Thousands of sporting events bring millions into stadiums around the globe, providing endless entertainment. However, these stadiums are also some of the most vulnerable areas to be during a weather event. As a result, most outdoor venues use a lightning detection system for sports fields, which tracks the region for confirmed strikes.
Tracking the Skies Throughout the Day
With tens of thousands of people expected to fill a stadium, officials don’t want to wait until lightning strikes to begin evacuating. To avoid chaos, field managers monitor conditions throughout the day using professional weather software with up-to-the-minute radar and lightning detection. If storms are more than probable at game time, officials will rule a delay or cancelation before fans arrive.
Consulting the Experts
Stadium managers don’t do all the weather work on their own; they refer to the experts. It is common for sports organizations to coordinate directly with local weather services and meteorologists. Others invest in their own lightning detectors and alert systems which give them the latest storm data from around the region.
Getting the Word Out–Fast
When you need to clear 40,000 people from their seats, you need to act quickly. Field managers credit lighting sirens for undoubtedly saving lives in an unexpected storm. Detectors can sense lightning strikes even if none are seen or heard, sending out warning at least 15 minutes in advance. These first few minutes can help fans get out of the bleachers and undercover safely before a strike occurs.
Real-time weather software and early-warning systems are essential tools for protecting public safety at stadium events with most major venues now implementing the technology. For stadium managers looking to improve their venue’s preparedness, search online for the latest outdoor warning sirens for sale and learn how to improve your lightning preparedness.