A hydrogen gas detector is a key solution for this application for a couple of reasons. Finally, hydrogen is a lighter than air gas, this means that if any leak occurs, the gas will rise and accumulate into the highest part of the room/storage area. In addition, it is also important to note, even if ventilation is present in the room, you cannot just rely on this. If a leak goes undetected then this can easily create a potentially explosive atmosphere. Hydrogen is explosive at 4% by volume in air and typically battery storage facilities are enclosed areas. Hydrogen Gas Detector for Continuous MonitoringĪs the lead acid batteries will create small amounts of hydrogen as a by-product of its charging cycle it is key to monitor the area using a hydrogen gas detector. You can learn more about our range of hydrogen gas detection solutions on our application page. This is where the use of a hydrogen gas detector is required. However, a major issue with lead acid batteries is they produce hydrogen gas which is explosive at 4% by volume in air. They are a good solution to keep critical systems running without the need for costly generators. Typically, the battery backup facility would utilise lead acid batteries which are continuously charged in a storeroom. Such applications can range from emergency care units, data centres, universities, process/manufacturing applications, banking and stock exchanges and many more. It is very commonplace now for both commercial and industrial premises to have battery backup facilities to provide short term backup power, in case of power failure to the building. Our blog post will help discuss why you need to ensure your battery stores have a hydrogen gas detector present and our hydrogen gas detector solutions. It is a well-known fact that hydrogen is a common by-product when charging lead acid batteries.
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