By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
In concentrations ranging from a few parts per billion to ten thousand parts per million, photoionization detectors measure volatile organic compounds and other gases (ppm). For many gas and vapour analytes, the photoionization detector works well and is reasonably priced.
PIDs are frequently employed as hand-held portable equipment or as detectors for gas chromatography because they generate instantaneous measurements, run continuously, and are widely available. For health and safety in industrial, military, and tight working environments, handheld, battery-operated versions are frequently utilised.
Their main purpose is to monitor potential worker exposure to volatile organic compounds (VOCs), which include solvents, fuels, degreasers, polymers and their precursors, heat transfer fluids, lubricants, and others, during manufacturing operations and waste management.
A gas detector called a photoionization detector (PID) is used to assess various gases as well as volatile organic compounds (VOCs), including benzene.
The Global Photoionization Detection (PID) Sensors Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Launch of the TVOC 2 Fixed Photoionization Detector by ION Science. The most recent TVOC 2 uses the tried-and-true MiniPID 2 sensor technology to continuously detect all volatile organic compounds.
Ion Science (www.ionscience.com) has revamped their TVOC fixed photoionization detector to further solidify its position at the forefront of gas detection instrumentation for global occupational health and environmental monitoring applications (PID).
The TVOC 2 was created for continuous monitoring of total volatile organic compounds (TVOCs), and it includes the most recent, longest-lasting MiniPID 2 sensor from the firm.The TVOC 2 from Ion Science is ideally suited for monitoring applications in a variety of industries, including manufacturing, processing, offshore, refineries, petrochemical, chemical, waste and water treatment, indoor air quality, and pharmaceutical.
It has three selectable detection ranges of 0–10, 0–100, and 0–1000 parts per million. TVOC 2 boasts Fence Electrode Technology for greater resistance to humidity and contamination, allowing extended operation in the field, by utilising Ion Science’s MiniPID 2 sensor. In even the roughest working circumstances, accurate outcomes are helped by a sturdy and resilient design.
The TVOC 2 from Ion Science uses a diffusive sample method, which has less contamination problems than pumping systems and necessitates less frequent lamp cleaning and maintenance.
TVOC 2 can be connected into a Distributed Control System (DCS) to provide warning or control of high VOC levels in the workplace thanks to the 4-20 mA analogue output.
