New, personal, wearable instruments alert workers to exposure of toxic gases providing instantaneous alarms for life-critical safety scenarios
Oct 01 2020 Read 407 Times
In a strategic move to further expand its portfolio of high-performance gas detection instrumentation, ION Science has launched a range of cost-effective, low maintenance, disposable ARA Single Gas Detectors for compliance monitoring and worker safety. The personal, wearable instruments enable workers to monitor their exposure to toxic gases as well as oxygen enrichment and depletion, alerting them when safe levels are exceeded.
Ideal for petrochemical site plant workers and on-site contractors, the small, lightweight ARA single gas detector comprises six models including four gas types: hydrogen sulphide, carbon monoxide, oxygen and sulphur dioxide. The low maintenance, disposable instruments offer two-year continuous run time as standard. The carbon monoxide and hydrogen sulphide options are also available as additional hibernation models with a three-year run time.
ION Science’s ARA single gas detectors are designed for use as safety compliance devices to be worn throughout daily shifts within a range of industry sectors including oil and gas, chemical, manufacturing, government and defence, water, aerospace and power generation, and across a variety of applications such as site-wide safety, confined space entry, plant shutdown processes and first response safety. The instruments help workers carry out their work safely and cost-efficiently, alerting the wearer to the presence of unsafe gas levels.
User set low and high alarms will alert the wearer and surrounding colleagues to the presence of hazardous gas exposure. When an alarm occurs, the user must exit the hazardous area or put on PPE, in line with their company or local health and safety guidelines.
The low-maintenance ARA single gas detector is easy to use and operate with one button operation. The user simply switches the instrument on from receipt and it will run continuously for two years displaying real-time readings and instantaneous alarms to protect the workforce within hazardous environments (ION Science recommends that devices are bump tested prior to each use). Hibernation models allow the device to be placed on standby to extend battery life up to three years, based on a daily one minute alarm.
An additional benefit of the ARA single gas detector is its lifetime remaining countdown feature that helps users to plan for future projects and site shutdowns.
ARA’s self-test feature tests the audio, visual & vibrating alarms, giving users confidence that they are in safe hands. Easy to perform in a single button press and with user-configurable reminders, the self-test reassures users that their device is in safe working condition.
The ARA single gas detectors can be connected to PC software via the ARA IR link, to set bump test and calibration reminders as well as low / high user adjustable alarms. The ARA PC allows users to download 30 recent event logs and configure user settings.
Duncan Johns, Managing Director at Ion Science comments: “The ARA single gas detector range offers our customers a winning combination of safety and functionality whilst being low-maintenance and simple to operate. An affordable solution for safety-critical, life-saving scenarios, it further strengthens our product range and reinforces ION Science’s position at the forefront of gas detection technology.”
Do you like or dislike what you have read? Why not post a comment to tell others / the manufacturer and our Editor what you think. To leave comments please complete the form below. Providing the content is approved, your comment will be on screen in less than 24 hours. Leaving comments on product information and articles can assist with future editorial and article content. Post questions, thoughts or simply whether you like the content.
In This Edition Business News - Global valve event to incorporate technology in the battle against coronavirus - New ASTM International standard will help test water quality - Acquisition t...
View all digital editions
Oct 26 2020 Virtual event
Oct 27 2020 Moscow, Russia
Oct 27 2020 Kiev, Ukraine
Oct 27 2020 Moscow, Russia
Oct 28 2020 Beijing, China