For users who need a permanent use monitor with a real-time PPM display in a monitor that's lightweight, compact and easy-to-use form. Features include datalogging, wide range of tamperproof user options and multi-language display.
The bright, large LCD shows real-time gas concentrations and the instrument's status at all times. The full function self-test verifies sensor, circuitry and battery integrity and activates the audible/visual alarms each time you turn the instrument on. The detector clearly advises the gas hazard present-Low, High, TWA and STEL gas alarm. Recorded TWA, STEL and Peak exposures can be displayed on demand.
Designed with the most advanced RFI protection available today. Its IP 66/67 rating means its waterproof to 3ft (fully submerged) and the GasAlert Extreme also features a shock resistance concussion-proof boot. Delivered ready for use, simply clip the instrument to your pocket, belt or hard hat for unequalled protection.
How to Replace the Battery
How to Replace the Sensor
How to Replace the Sensor Screen
|GasAlert for||Measuring Range||Alarm Setpoints (Factory defaults are shown. Alarm levels are field-adjustable.)||Relative Humidity
|TWA Alarm||STEL Alarm||Low Alarm||High Alarm|
|Hydrogen Sulfide (H2S)||0-100 ppm||10 ppm||15 ppm||10 ppm||15 ppm||15-90||-40 to +50 oC
-40 to +122 oF
|Sulfur Dioxide (SO2)||0-100 ppm||2 ppm||5 ppm||2 ppm||5 ppm||15-90|
|Hydrogen Cyanide (HCN)||0-30.0 ppm||4.7 ppm||10.0 ppm||4.7 ppm||10.0 ppm||15-95|
|Carbon Monoxide (CO)||0-999 ppm||35 ppm||200 ppm||35 ppm||200 ppm||15-90|| -30 to +50 oC
-22 to +122 oF
|Chlorine (CI2)||0-50.0 ppm||0.5 ppm||1.0 ppm||0.5 ppm||1.0 ppm||10-95||-20 to +50 oC
-4 to +122 oF
|Nitrogen Dioxide (NO2)||0-99.9 ppm||2.0 ppm||5.0 ppm||2.0 ppm||5.0 ppm||15-90|
|Ammonia (NH3)||0-100 ppm||25 ppm||35 ppm||25 ppm||50 ppm||15-90|
|Phosphine (PH3)||0-5.0 ppm||0.3 ppm||1.0 ppm||0.3 ppm||1.0 ppm||15-90|
|Ethylene Oxide (ETO)||0-100 ppm||1 ppm||5 ppm||1 ppm||5 ppm||15-90|
|Chlorine Dioxide (ClO2)||0-1 ppm||0.1 ppm||0.3 ppm||0.1 ppm||0.3 ppm||15-95|
|Ozone (O3)||0-1 ppm||0.1 ppm||0.1 ppm||0.1 ppm||0.2 ppm||15-90|
|Nitric Oxide (NO)||0-250 ppm||25 ppm||25 ppm||25 ppm||25 ppm||15-90|
|Oxygen (O2)||0-30.0%||N/A||N/A||19.5 %||22.5%||0-99|
|Full function self-test||Full function self-test on activation (auto)|
|GENERAL SPECIFICATIONS||Impact-resistant ABS enclosure|
|Humidity||5% to 95% RH (non-condensing) (15% to 90% non-condensing for PH3 and NH3)|
|EMI/RFI||Complies with EMC Directive 89/336/EEC|
|Battery type||3-volt lithium (camera battery available locally)|
|Battery life||3 years (9,000 hours)|
|Size||1.1 x 2.0 x 3.75 inches / 28 x 50 x 95 mm|
|Weight||2.9 oz. / 83 g|
There are many gas detection products on the market that might appear to be the same, but a closer inspection of specification, functionality and features reveals major differences in what products can do and the potential value they can offer. Similarly, individual applications are also unique in their respective designs, needs and processes undertaken.
Before beginning to consider gas detection equipment, a risk assessment needs to be conducted. Any company employing staff has the obligation to conduct risk assessments to identify potential hazards and these can include potential gas, vapor or Oxygen deficiency risks. If gas hazards are identified, gas detection is applicable as a risk reduction method.
Depending on the processes being undertaken and the gases being detected, remote or off-site alarm notification plus event data logging/reporting may also be required for Health and Safety management records. Another factor impacting on the need for enhanced reporting functions might be regulatory compliance or a condition of insurance.
Having identified the primary objective, the suitable equipment is selected by asking a number of key questions. These fall into three broad categories:
The gases to be detected should be identified by the risk assessment, however experienced gas detection equipment manufacturers and their approved distributors are often able to help in this process, based on their experience of similar applications. However, it is important to remember that it is the end-user’s responsibility to identify all potential hazards. It is also essential to identify the potential source of a gas release as this helps determine the number and location of detectors required for a fixed gas detection system.
The performance, accuracy and reliability of any gas detection equipment will be affected by the environmental conditions it is subjected to. Temperature, humidity and pressure levels at the location all have a direct bearing on the type of equipment that should be selected. Additional factors such as potential variations resulting from a production process itself, diurnal/nocturnal fluctuations and seasonal changes may also affect the type of device which is suitable.
The next area of consideration relates to additional product functionality. Aspects like wiring configuration are important, especially when retro-fitting into an existing application. If the apparatus is being integrated into a separate safety system, certain communication protocols may also be required such as HART®, Lonworks or Modbus®. Consideration will also need to be given regarding the requirement for local displays on transmitter units and local configuration of the unit and gas displays may also be a useful addition.
Routine maintenance is another important consideration. Some gases and vapors can be detected with a number of different sensing technologies, e.g. Hydrocarbon gases with catalytic beads or Non-dispersive Infrared NDIR. Catalytic beads do not provide fail-to-safety operation and therefore can require a high frequency of routine maintenance, however NDIR based solutions tend to have a higher initial purchase price, but may require less routine maintenance. In-house resource to undertake such routine maintenance needs to be identified and in the absence of such a resource, budgeting for third party maintenance is an important factor in selecting the right equipment.
If you have questions about any of our gas detection products or services, please don’t hesitate to contact us. Whether you need a hand finding a new product or need help with your current system, just ask our team of Factory Trained Experts.
Small, compact, easy to use and available with a variety of toxic gas sensors to choose from. Real-time gas concentration readings are displayed on the LCD. It can be turned on and off at the beginning and end of your shift. Sensors and batteries can be replaced to extend unit life.
The unit's 3V battery, while having a long life span, is not easily field replaceable, requiring the unit to be opened completely in order to change the battery.
With its range of user options and functionality, the GAXT is ideal for many applications where toxic gases are a concern. It has a good history of being reliable and virtually problem free.
A popular unit, the GasAlert Extreme is a good choice for anyone wanting continuous, reliable protection in a long-term single gas detector. It is a good fit in virtually any application where toxic gases are a concern, such as Oil & Gas, Utilities, Municipalities, Refineries, Steel Mills, Pulp, Paper and more.
Regular maintenance is required on this model in the form of frequent Calibrations and battery replacements. Bump Tests can also be performed on the unit depending on personal preference or when site safety regulations require it.
Available sensors include H2S, CO, SO2, PH3, Cl2, NH3, NO2, HCN, ETO, O3, NO and Oxygen, but as a single gas detector you can choose only one of those sensors available, not multiple sensors. The built-in concussion proof boot provides excellent protection against accidental bumps, scratches and damage; and it is water-proof, with an IP rating of 67 it can be submerged in water up to 1 m deep for 30 minutes.
The real-time gas concentration is displayed continuously on the LCD so you will always know the current levels, even when the unit is not in alarm. The unit has a built in Datalogging feature, enabling you to retrieve a detailed and accurate history of conditions and unit maintenance if needed.
Calibrating the unit is required every 90 days but is quick and easy to perform; the procedure can be done in the field and only takes about 2 minutes to perform, and all you will require is a cylinder of calibration gas and a regulator. It is also compatible with the BW MicroDock II calibration and bump test station for those who wish to use a more hands-free, automated, calibration and bump test procedure.
|PS-RC10||BW PS-RC10 Replacement chlorine (Cl2) sensor - Note: 1 year warranty||Learn More|
|PS-RD04||BW PS-RD04 Replacement nitrogen dioxide (NO2) sensor||Learn More|
|PS-RH04S||BW PS-RH04S Replacement hydrogen sulfide (H2S) sensor||Learn More|
|PS-RM04H||BW PS-RM04H Replacement carbon monoxide (CO) sensor, H2 resistant||Learn More|
|PS-RS04||BW PS-RS04 Replacement sulfur dioxide (SO2) sensor||Learn More|
|PS-RZ10||BW PS-RZ10 Replacement hydrogen cyanide (HCN) sensor||Learn More|
|SR-A04||BW SR-A04 Replacement ammonia (NH3) sensor - Note: 1 year warranty||Learn More|
|SR-A204||BW SR-A204 Replacement ammonia (NH3) sensor, extended range - Note: 1 year warranty||Learn More|
|SR-E04||BW SR-E04 Replacement ethylene oxide (ETO) sensor - Note: 1 year warranty||Learn More|
|SR-G04||BW SR-G04 Replacement ozone (O3) sensor - Note: 1 year warranty||Learn More|
|SR-M04-SC||BW SR-M04-SC Replacement carbon monoxide sensor||Learn More|
|SR-N04||BW SR-N04 Replacement nitric oxide (NO) sensor||Learn More|
|SR-P04||BW SR-P04 Replacement phosphine (PH3) sensor||Learn More|
|SR-V04||BW SR-V04 Replacement chlorine dioxide (ClO2) sensor - Note: 1 year warranty||Learn More|
|SR-X2V||BW SR-X2V Replacement oxygen (O2) sensor||Learn More|