Arguably the most dangerous gas in industrial facilities, ammonia can create a deadly situation in minutes. When these leaks occur, they happen quickly and spread over large areas very fast, giving workers little time to react. Because of this, it is vital to have an ammonia detection system in place that can detect these leaks when they begin, giving time for workers to evacuate and if possible for equipment repairs to be made. For companies in need of ammonia gas detection systems, here is further information about industry best practices, as well as the features associated with ammonia gas detectors.

Increased Versatility

As more and more advanced technology has been used in ammonia detectors, they have become very versatile. Able to be used effectively in water treatment facilities, chemical storage facilities, medical labs, offshore drilling platforms, and other areas, the detectors perform very well in many types of work environments. Whether it is the high humidity levels of a drilling platform or a manufacturing plant where dust, dirt, and vibrations from equipment are common, they are still able to transmit accurate and reliable real-time data, thanks to electronics that allow for the detectors to self-calibrate.

Proper Installation

While an ammonia detector can be effective in many areas of a facility, it is also crucial they be installed in areas where ammonia leaks are most likely to occur. In most industrial or laboratory settings, this is near pipelines, valves, or chemical storage areas, since these areas can produce ammonia leaks in a short period of time. In these situations, it is best to use detection systems that can read even the smallest amounts of ammonia, since this will give engineers and technicians ample time to analyze the situation and enact repairs or other emergency procedures.

Increased Detection Capability

Since it is vital to detect ammonia leaks when they begin, ammonia gas sensors now come equipped with advanced electronics that allow for much quicker detection of gas levels. As a result of this latest technology, today’s sensors are able to detect ammonia levels at rates that are 10,000 times more sensitive than sensors used perhaps only a decade earlier. With this increased detection capability, sensors can now relay information to engineers and monitoring personnel via wireless networks, allowing for multiple personnel to examine data and relay instructions to on-site technicians and managers.

Monitoring Confined Spaces

In many facilities, ammonia leaks occur in confined spaces, making them more difficult to detect. As a result, this increases the risk of injuries or deaths to workers, making it vital these areas receive 24/7 monitoring that is efficient and effective. To do so, fixed sensors are often placed near these areas. But along with this option, companies now equip workers with portable detectors, which can be transported from one area to another. Similar in size to cellphones, they clip to belts, allowing for hands-free monitoring that is done in real-time, guaranteeing workers will be much safer while repairing, testing, and troubleshooting equipment in these areas.

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