Whether it is an electronics manufacturing plant, offshore drilling platform in the middle of an ocean, or a medical research laboratory, one of the biggest threats workers face is exposure to volatile organic compounds. Dangerous in many ways, VOC can not only result in serious health issues for workers who are exposed, but may also lead to production shutdowns or costly equipment repairs. To keep these situations from happening, companies rely on VOC monitoring systems that can not only detect VOC very quickly, but also alert those in the area of impending danger. If you are wondering which systems are best and why, here are some answers to your questions.
Within many types of industrial work environments, one of the biggest hazards faced by workers is VOC, which stands for volatile organic compounds. Highly-regulated due to their potential to inflict harm on humans and the environment, these compounds can cause a variety of problems for those exposed to them over a period of time, such as irritation of the eyes, nose, and throat, headaches, nausea, loss of coordination, and in extreme cases damage to a person’s liver, kidneys, or central nervous system, which in some instances can lead to death. To ensure workers are kept as safe as possible from these substances, companies are investing more and more in technology that can monitor facilities and provide information that is accurate and reliable.
In virtually any industrial facility or laboratory setting, different types of equipment are installed, tested, and repaired within confined spaces. Because of this, it is vital to make sure these areas are properly monitored so that workers are not exposed to toxic or combustible gas buildups from volatile organic compounds, commonly known as VOC. To do so, a facility will rely upon VOC gas detector systems that utilize fixed and portable detectors and sensors. However, since all facilities containing confined spaces have different safety protocols, it is crucial to choose VOC sensors that can apply the best possible detection and measurement techniques in these situations.
Whether it is an offshore drilling platform, chemical manufacturing facility, research lab, water treatment facility, or other site, they contain many confined spaces where employees install, test, and repair equipment. While these areas contain a facility’s most important equipment, they are also some of the most dangerous places in an industrial area, since buildups of hydrogen sulfide and other dangerous substances can occur quicker here than in other areas. Due to the danger faced by employees in these areas, effective monitoring is a must. To accomplish this, VOC sensors are used in many ways to ensure confined spaces are safe for employees.
From a manufacturing plant where gases and chemicals are present to offshore drilling platforms that contain many confined spaces, volatile organic compounds can pose a tremendous danger. Because of this, companies in these and other industries choose to invest in VOC monitoring systems that utilize state-of-the-art technology to keep workers and facilities safe. By minimizing risks on the job, not only do companies keep their workers safe, but also avoid situations that could lead to a shutdown of the facility, which can lead to losses that may total millions of dollars. To learn more about the benefits offered by these systems, here are some details regarding their most important features.
Whether it’s a confined space on an offshore drilling platform or a laboratory in a medical research facility, monitoring for carbon dioxide and other toxic gases is of the utmost priority. But as technology has evolved over the past decade, numerous advances have been made with sensors designed to keep employees safe from these dangerous gases. Some of the most innovative advances have been with VOC detectors, also known as Volatile Organic Compound detectors. Due to the advances in electronics, alarm systems, and other aspects of these detectors, a number of differences have become apparent between VOC sensors and CO2 sensors. If your lab or industrial facility is in need of these sensors, here are some key differences to consider.