With companies of all sizes experiencing fires and explosions due to a failure to detect combustible gases, it has become of increasing importance in recent years to invest heavily in combustion detectors. Utilizing state-of-the-art technology allowing for instantaneous transmission of data, detection of gases just as they start to reach dangerous levels, and alarm systems that enable those nearby to evacuate safely, a combustion gas detector can mean the difference between life and death in many circumstances. However, with so much technology being implemented in these detectors, knowing which type would be best for your organization can be confusing. To learn more about how to choose the combustion leak detector kit that will keep your facility safe, here are some key components of these systems.
Since we now have smartphones to use in our daily lives, it’s only natural this technology has been adapted for combustion leak detectors. Storing large amounts of current and past data, it allows managers and engineers to analyze data to see not only what led to a problem developing, but also how to fix a problem so that a similar situation does not occur again. Using data from calibrations and events that triggered alarms, smart sensors are considered major breakthroughs in the industry.
Real-Time Programmable Systems
In any industrial environment where the possibility of fires and explosions is high, having access to real-time data is vital to ensuring catastrophic events don’t happen. While some alarm systems of years past may have had difficulty performing well in harsh work environments, today’s systems have come a long way. One of the best features is programmable delays, which allow real-time changes in calibration to prevent false alarms. With this feature, a catalytic combustion sensor can be made much more accurate and reliable, letting workers know that when they hear an alarm sounding, a dangerous situation does exist.
Graphs and Displays
When dangerous situations happen, it’s important to not only know why they happened at that time, but to also be able to use them to help predict future trends. To do so, newer detectors are now equipped with high-tech graphs and displays, enabling engineers to look at units and values from current and past data. By using this information, supervisors can gain key facts and figures which will help them implement new safety measures designed to prevent future incidents from happening.
24/7 Data Transmission
Since most industrial facilities operate on a 24/7 schedule, having the proper detection systems in place is extremely important. Therefore, choosing detectors that have 24/7 monitoring capabilities is a must. Along with letting on-site managers, supervisors, and maintenance technicians monitor conditions for signs of problems, it also allows data to be sent to mobile devices, providing flexibility in analyzing data. In doing so, calibrations performed on-site by supervisors and technicians or off-site from monitoring centers can be much more accurate and reliable, resulting in data that reflects current conditions and can be used to better assess potentially dangerous situations.