Occupational Exposure To Toxic Chemicals
1 worker dies every 30 seconds due to the exposure of toxic gases in the workplace
A personal unit is assigned to each worker. Continuous monitoring of the worker’s breathing zone may alert the wearer when the environment becomes unsafe.
The ION Science Cub personal Volatile Organic Compounds (VOC) gas detector is worn within the breathing zone to detect exposure to toxic gases and keeping workers safe within their working environment.
Monitoring employee exposure to toxic gases
Occupational Hygienists undertake surveys and evaluate risks to health in the workplace by accurately measuring levels of exposure. Often these are measured through precise specialist equipment that record data, for example the ION Science Cub.
Occupational Hygienists will be concerned with controlling health risks in
practical and cost-effective ways by assessing and resolving practical problems.
This will involve looking at the short and long-term health effects, caused by both acute and chronic exposure to hazards and toxic gases. This helps an organisation to respond effectively to legislative requirements.
Personal Protective Equipment (PPE)
It is preferable to remove the risks totally, or change ways of working but if this is not practicable achievable personal protective equipment is often used as part of control measures. This also needs checking and maintenance because, if it fails, it no longer provides protection and exposes the wearer to danger.
Portable gas detectors are classed as a type of Personal Protective Equipment (PPE), designed to keep personnel safe from gas hazards and allow mobile testing of locations before they are entered. These small devices are essential in many areas where gas hazards could occur, because they are the only means of monitoring an operator’s breathing zone continuously, whilst stationary or moving.
Monitoring Personal Exposure
Monitoring typically means ‘air sampling’ but it may also involve taking biological samples, e.g. breath or urine. Monitoring normally makes reference to ‘Workplace Exposure Limits’ (WELs) and these limits should not be exceeded. Effective monitoring of VOCs can achieved by coupling an accurate discrete detector, like the ION Cubs with a data logger. The data logging capability is constantly measuring ones exposure to toxic gases. This can then be viewed, understood and reported.
Download Our FREE Guide
“Occupational Exposure To Toxic Chemicals”
The Occupational Exposure To Toxic chemicals guide which can be downloaded below provides details of exposure to airborne contaminants, the standard procedure is the assessment of inhalation exposure. This includes the determination of the air concentration that workers are exposed to, or in the case of airborne particles, the air concentration of the relevant fraction, e.g., the “respirable fraction” and the duration of the exposure. If routes other than inhalation contribute appreciably to an individual uptake of a chemical, an incorrect judgement may be made by looking only at the inhalation exposure. In such cases, total exposure has to be assessed, and a very useful tool for this is a personal, body worn Photoionisation Detector (PID).
Personal Gas Detection Equipment for Worker Safety
Cub 10.6 eV Personal VOC Gas Detector
Cub 10.6 eV personal VOC gas detector is worn within the breathing zone to detect volatile organic compounds, keeping you safe within your working environment.
Related Guides
Aromatic Gases – What Are They?
Aromatic gases contain at least one aromatic ring of which benzene is the simplest form. Benzene itself forms the well know group of compounds (BTEX).
Benzene Detection – Fixed Instruments
Benzene Detection (Fixed Instruments) - ION Science's Fixed Photoionisation Detectors protect workers and the public from benzene exposure
Fenceline Monitoring
Hazardous air pollutants are those known to cause cancer and other serious health impacts. This is why fenceline monitoring is important!
Fugitive Emissions Monitoring
Gas leak equipment reduces the likelihood of leaks and the best way to reduce fugitive emissions is through regular leak testing and maintenance.
Gas Detection Equipment – Choosing The Right Type
Gas detection for safety is pivotal, so Ion science cuts no corners when it comes to our gas detectors. Explore our variety of gas detectors today!
Gas Detection Instrument – Do you Require One In Your Industry?
The Gas detection Instrument guide will help you understand the requirement for each type of instrument and which will be best suited to your industry.
Gas Detection System – PID Or FID?
Gas Detection System, the main differences and benefits of using photoionisation detection and flame detection when monitoring fugitive emissions.
Monitoring Aromatic Gases
Monitoring aromatic gases early is crucial to limit the effects on worker’s health. This all depends upon how much they are exposed to and for how long.
Risks Associated With Unproven Technology
The following guide provides the reader with knowledge on what to look out for when purchasing a fixed gas detection instrument. Covering key aspects such as performance specification, sensitivity and measurement range, temperature, contamination and humidity tolerance, flexibility and certification.
Urban Air Quality
It's estimated that poor urban air quality accounts for 7million deaths per year. Unless poor air quality can be improved, death rates will continue to rise.
United Kingdom
USA
France
India
China
Italy
Germany
