Gas Detection 7
Flammable Gas Sensing Coming Soon
From DD Scientifi c DD Scientifi c, having already already developed an enviable market position in electrochemical technology for toxic gases and oxygen has now identifi ed an unaddressed requirement for cost effective but reliable fl ammable gas sensors.
Based on proven, and widely used catalytic bead sensing methods our new pellistor sensors will provide high performance and robust detection of many common fl ammable gases such as methane, propane and butane. Benefi ting from recent advances in coil coating processes the sensors will deliver minimised variation and greater resilience to environmental contamination.
The sensors will be unveiled at the Sensor and Test exhibition in Nuremberg between May 30th and June 2nd.
Commenting on their forthcoming launch, Kevin Brown, Development Manager said, “These are exciting times for DD Scientifi c and our customers as we continue to innovate in gas sensing technology. We have a great reputation for electrochemical sensors and our new pellistor devices will further cement our position as the number one choice for gas sensing solutions.”
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Ion Science to Show New Minipid 2High Sense PID Sensor for the First Time
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Ion Science – leading specialist in gas detection for global occupational health and environmental monitoring applications – will be highlighting its wide range of photoionisation detection (PID) sensors for the accurate and sensitive measurement of a wide range of volatile organic compounds (VOCs). The company will also be showcasing its exciting new MiniPID 2 High Sense (HS) PID sensor for the fi rst time. The MiniPID 2 HS is capable of monitoring trace levels of VOCs for extended periods of time making it ideal for indoor and outdoor air quality monitoring applications.
Ion Science’s wide range of MiniPID 2 sensors incorporate patented Fence Electrode Technology, which is proven to resist humidity and contamination and ensure optimum detection of VOCs in challenging environments. The sensors are incorporated into a wide range of both fi xed and portable VOC monitors, which are typically used for the protection of workers operating in potentially hazardous industrial environments.
Exposure to hazardous substances at work is a major contributor to ill health, and the loss to companies through absence and litigation is enormous. However, once a problem has been identifi ed, air quality can be signifi cantly improved by installing appropriate air ventilation and fi ltration systems.
The launch of the ground-breaking MiniPID 2 HS provides an effective opportunity to introduce extremely low level VOC detection. It also gives stability and reliability advantages that are unavailable in other PID designs.
Ion Science’s MiniPID 2 HS is 15 times more sensitive than its existing MiniPID 2 ppb sensor. It is capable of detecting trace levels of VOCs over a long period of time making it ideal for indoor air quality monitoring applications.
It is also well suited to clean rooms, fence line monitoring, industrial hygiene, site soil sampling, fugitive emissions, volatile spills, law enforcement and emergency response.
Delivering a dependable response to thousands of VOCs across many diverse applications, the MiniPID 2 HS is a simple plug and play sensor providing a wide detection range of 0.5 ppb up to three parts per million (ppm).
It features a re-designed, pneumatically sealed electrode stack for high sensitivity applications. An innovative self-diagnostic feature indicates whether the electrode stack is contaminated or if the sensor is not operating correctly.
The MiniPID 2 HS incorporates Ion Science’s recently launched long-life eV lamp that now offers 10,000 hours continuous operation. Combined with improved stability, lower running current, robust lamp illumination, reliable operation at extreme temperatures and ease of serviceability. This equates to reliable detection of less volatile, less readily sensed compounds, over extended sampling times and a superior sensor in every aspect.
The MiniPID 2 HS is designed for both diffusive and in-line pumped sampling, delivering an exceptional response time and clear down. It boasts intrinsically safe certifi cation and is ATEX, IECEx, II 1G Ex ia IIC T4 Ga accredited.
Backed by offi ces in the UK, USA, France and Italy, Ion Science is one of the leading manufacturers and suppliers of PID sensors with its sensor trusted by major global gas detection companies.
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42736pr@reply-direct.com MiniPID 2 HS
New high sense PID sensor with sub-ppb level detection!
• 15 times more sensitive than exisiting MiniPID 2 ppb sensors
• Fast, accurate VOC detection • Proven resistance to humidity • Anti-contamination design
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www.ionscience.com/minipid2hs
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Beacons Update the Location of Compatible Devices in Real Time, Enabling Live Reminders and Simplifi ed Record Keeping
Industrial Scientifi c, the global leader in gas detection, is pleased to introduce iAssign™ Beacons. These beacons use iAssign™ Technology to automatically assign site names to Ventis™ Pro Series gas monitors and other compatible products within a defi ned range. Site assignments change automatically as a Ventis Pro user leaves one defi ned beacon area and moves to another, simply and accurately connecting users, sites, and events.
Determining the location of an individual within a facility or plant can be challenging. The beacon continuously broadcasts a site identifi er, which triggers the site to be updated on the user’s device. iAssign Beacon zones are programmable between 1 and 30 meters. Permission levels can also be programmed in each beacon. iAssign provides a more complete picture of what’s happening across a worksite, enabling safety managers to take action to prevent repeated hazards.
iAssign Beacons solve the challenge of real-time location identifi cation, enabling:
• Real-time access control, safety suggestions, and permission-level alerts when entering restricted areas • More precise, consistent site recording when technology like GPS is not available • Clarity around worker and location names in instrument data log fi les
“iAssign Technology is a simple solution for a big problem that many customers face,” said Scott Jubeck, director of product management, instrumentation. “Knowing that workers repeatedly run into a high gas exposure at ‘Valve 37’ is an opportunity to correct a potentially deadly hazard before it’s too late.”
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Unrivalled Detection.
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www.envirotech-online.com IET May / June 2017
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