PROTEGO®
Deflagration Flame Arresters
Stopping Deflagrations in Pipelines
PROTEGO® Deflagration Flame Arresters Deflagration flame arrester Flame arrester designed to prevent the transmission of a deflagration. It can be an end-of-line flame arrester or an in-line flame arrester. are installed in pipelines and on process equipment Equipment Machines, appliances, fixed or mobile devices, control parts and accessories, and warning and prevention systems, whether separate or combined, intended for the generation, transfer, storage, measurement, control, and conversion of energy, and for the processing of materials, which have their own potential source of ignition and may cause an explosion. and suppress deflagrations in systems handling explosive mixtures
They are designed for chemical, petrochemical, pharmaceutical, and other industrial facilities where a flame front in a pipeline cannot be allowed to reach downstream equipment.
Highlights of PROTEGO® Deflagration Flame Arresters
Ningún incidente de retroceso
Mayor tiempo de actividad y menores pérdidas
Confianza en el ciclo de vida
El cumplimiento normativo, más sencillo
Product Overview
A deflagration is a flame front that travels through an explosive mixture at subsonic speed. In a pipeline, that flame front carries enough energy to destroy process equipment that was not designed to withstand explosion Explosion Abrupt oxidation or decomposition reaction producing an increase in temperature, pressure, or in both simultaneously. pressure. The job of the Deflagration Flame Arrester is to intercept and extinguish that flame before it reaches the equipment you are protecting.
PROTEGO® Deflagration Flame Arresters accomplish this through a proprietary Flame Arrester Flame arrester Device fitted to the opening of an enclosure, or to the connecting pipe work of a system of enclosures, and whose intended function is to allow flow but prevent the transmission of a flame. Unit built from FLAMEFILTER® discs housed in a FLAMEFILTER® casing FLAMEFILTER® casing Enclosure for FLAMEFILTER® including insert rings. . The discs create a network of narrow gaps that extract thermal energy from the deflagration faster than the flame can sustain itself, extinguishing it at the element.
Two configurations are available:
- In-line devices installed directly in pipelines
- OEM-integrated components used within equipment such as blowers and vacuum Vacuum Vacuum is the pressure in an enclosed space that is lower than the ambient pressure. pumps
We are highly impressed to see the quality of the products and the knowledge to help us build a state-of-the-art storage terminal. We have always appreciated the timely deliveries of the flame arresters Flame Arresters A flame arrester, deflagration arrester, or flame trap is a device or form of construction that will allow free passage of a gas or gaseous mixture but will interrupt or prevent the passage of flame. and other equipment.
We provide engineered safety solutions.
Since 1954, PROTEGO® has built and provided Flame Arresters, Pressure and Vacuum Relief Valves and Tank Equipment, now with the help of more than 750 employees worldwide.
How It Works
When a flame front enters the arrester, it passes through the FLAMEFILTER® discs. The narrow gaps create a large heat transfer surface, removing energy from the flame faster than combustion can be sustained. The flame is extinguished within the element.
The design of the element is not fixed. It is selected based on:
- Explosion group of the gas or vapour
- Operating pressure and temperature
- Composition of the process medium
This ensures the device Device A device is a pipe component that influences the media flow by opening, closing, or partially shutting off the flow channel or by dividing or mixing the media flow. is matched to the specific risk profile of the application.
For in-line installations, it is important to understand that protection is time-limited. If an ignitable mixture continues to flow after a flame is stopped, a fire can develop on the arrester itself. For this reason, systems must include:
- Temperature monitoring at the arrester
- A defined response, such as nitrogen purging
OEM-integrated Flame Arresters are tested and approved as part of the equipment assembly and are not used as standalone devices.
Key Features and Design Characteristics
The element can be removed and serviced without replacing the entire unit, reducing maintenance Maintenance Combination of all technical and administrative actions, including supervision actions, intended to maintain or restore a unit in working order. effort and downtime.
Available in concentric, eccentric, and easy-access designs. Easy-access versions allow maintenance without disconnecting pipework- important in space-constrained or high-uptime environments.
Element gap size is matched to the gas classification (MESG). Correct selection is critical to ensure effective flame arresting.
Options are available depending on whether flow direction is fixed or variable.
Designs are available for substances that may polymerise or crystallise, helping maintain long-term performance.
Heating jackets or coils can be added where condensation or solidification is a risk.
Where standard devices are not suitable, PROTEGO® can design and certify application-specific solutions.
Engineering and Compliance
PROTEGO® Deflagration Flame Arresters are type-tested and certified according to ATEX and other international standards. Each device is supplied with a statement of conformity defining its approved operating conditions.
Additional installation considerations include:
- The pipe diameter must not exceed the device diameter
- Installation orientation is generally flexible, with attention to sensor placement
Custom approvals can be developed for specific regulatory or operating requirements.
Sizing is based on the relationship between flow rate and pressure drop using the p/V performance diagram.
- To select nominal diameter: use flow rate and allowable pressure drop
- To estimate pressure drop: use flow rate and diameter
Where there is a risk of clogging, a safety factor must be applied. For non-standard applications, technical data should be submitted during specification.
Operational Benefits
Validated protection for OEM equipment
Flexibility for complex applications
by stopping flame propagation at the source
Protection of equipment
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