Hydrogen (H2) has become a popular choice for use in the industrial sector in recent decades, but the demand for it has increased and looks set to continue. With high demand for hydrogen comes a need for more reliable and readily available hydrogen gas detection systems. In this post, we will discuss how hydrogen gas is used, the importance of hydrogen gas detection and what options are available.
What are VOC gases? Where are they found? How can I mitigate the Hazards of VOC’s? These are all vital to consider if working around VOC gases, as VOCs are extremely hazardous gases causing a plethora of health issues. This article answers all of these important questions, as well as suggesting detectably better gas detection equipment in order to help mitigate the presence of VOC gases. Read on to find out more.
VOC’s are extremely common and can be from surprising sources. Each VOC comes with its own exposure hazards and reasons these need to be monitored, these can be found by accessing each materials Material Safety Data Sheet (MSDS). But how are these monitored? And why do we monitor these gases? These questions will be answered in this article to help provide a basic understanding of VOC gases and the dangers.
MRI units are not commonly thought of when talking about gas safety, however these areas can quickly become dangerous when leaks occur. Understanding the dangers of MRI units as well as the gases used within them are vital to understanding why O2 monitors are required in these areas. This article covers all of the essential information in understanding this. Including the gases encountered in these areas to providing you details of IGD’s detectably better solution in O2 monitors.