High Velocity Pressure Relief Valve deflagration- and endurance burning-proof
- pressure is set with corrosion resistant permanent magnet
- jump characteristic within minimum overpressure to a full lift
- excellent tightness for minimum product loss and environmental pollution
- set pressure very near to the relieving pressure enables optimum pressure maintenance in the system
- can be used as a protective system according to ATEX in areas subject to an explosion hazard
- protection against atmospheric deflagrations and endurance burning
- high flow capacity
- maintenance-friendly design
- internal parts protected by bellows
- manual lift gear to pop valve cone
- side connection for a vacuum relief valve
- design promotes rain water drainage
- prevents gas build up on deck
- specially developed for in land water way barges
Função e descrição
The deflagration- and endurance burning-proof PROTEGO® DE/S type device is a state of the art high velocity vent valve working on the principle of a dynamic flame arrester. It is primarily used as a device for flame transmission proof venting of cargo spaces and loading systems for inland waterway vessels during the loading process and on the journey. The valve offers reliable rotection against excess pressure, prevents product losses almost up to the set pressure and provides protection against atmospheric deflagrations as well as endurance burning if stabilized burning occurs. The PROTEGO® DE/S high velocity vent valve is available for substances of explosion group IIB (NEC group B MESG ≥ 0.5 mm).
The valve cone (1) is kept in a closed position by a corrosion resistant permanent magnet (2). The set pressure is adjusted by the distance of the permanent magnet to its counterpart (3). Upon reaching the set pressure, the valve opens directly to a full lift with only a minor pressure rise (jump characteristic). The set pressure is therefore very close to the maximum allowable working pressure (MAWP) of the cargo space.
The tank pressure is maintained up to the set pressure with a tightness that is far superior to the conventional standard due to our state of the art manufacturing technology. This feature is ensured by valve seats made of high-quality stainless steel with an individually lapped valve cone. After the excess pressure is discharged, the valve reseats and provides a tight seal. The design of the valve cone and valve seat produces a vertical, free jet that transports the gases far away from the discharge opening. This keeps the deck free of gas. The shape of the valve cone and valve seat promotes the drainage of rainwater when closed. A function check of the valve is easily performed with a manual lift gear (4) which returns to ist initial position after actuation. A lateral flange connection, DN2, is standard for a vacuum valve (such as the PROTEGO® SV/E-S, see volume 7).
If the set pressure is exceeded, explosive gas/product-vapour air mixtures are released to the atmosphere. When reaching the adjusted set pressure, the velocity at which the mixtures exit the valve cone gap (5) (the gap between the valve seat and the valve cone) is much higher than the flame velocity. If this mixture ignites, flashback into the tank is prevented. If the mixture flow continues, the dynamic flame arresting feature prevents flashback ignition even in the case of endurance burning. As the system pressure decreases, the discharge velocity at the valve cone gap decreases also. The design ensures, that even in the closing pressure range, the valve cone closes in a timely manner keeping the discharge velocity far above the flame velocity and thereby preventing flashback.
The valve can be used up to an operating temperature of +60°C / 140°F and meets the requirements of ADN (European Agreement concerning the International Carriage of Dangerous Goods by Inland Waterways) for type C ships and type N ships.
Type-tests according to EN ISO 16852 as well as other international standards.
Tabela de dimensões
|DE / S with closed lateral connection DN 2|
|DN 1||80 / 3"||100 / 4"||150 / 6"|
|a||515 / 20.28||515 / 20.28||515 / 20.28|
|b||195 / 7.68||195 / 7.68||195 / 7.68|
|c||220 / 8.66||220 / 8.66||220 / 8.66|
|d||120 / 4.72||120 / 4.72||120 / 4.72|
|e1||145 / 5.71||145 / 5.71||145 / 5.71|
|DE / S with lateral connection for vacuum relief valve DN 2|
|DN 1||80 / 3"||100 / 4"||150 / 6"||150 / 6"|
|DN 2||80 / 3"||80 / 3"||80 / 3"||150 / 6"|
|a||515 / 20.28||515 / 20.28||515 / 20.28||515 / 20.28|
|b||195 / 7.68||195 / 7.68||195 / 7.68||195 / 7.68|
|c||220 / 8.66||220 / 8.66||220 / 8.66||220 / 8.66|
|d||120 / 4.72||120 / 4.72||120 / 4.72||120 / 4.72|
|e2||100 / 3.94||100 / 3.94||100 / 3.94||100 / 3.94|
Seleção do material
Seleção do grupo de explosão
|MESG||Expl. Gr. (IEC / CEN)||Gas Group (NEC)|
|≥ 0,5 mm||IIB||B|
Tipo de conexão flangeada
|EN 1092-1; Form B1|
|ASME B16.5 CL 150 R.F.|
|10 kPa||50 kPa|
|+40 inch W.C.||+200 inch W.C.|
Diagrama de vazão
Este diagrama de vazão foi determinado em uma bancada de medição de vazão calibrada e certificada pela TÜV. A vazão V em m³/h se refere ao estado técnico padrão de ar, conforme ISO 6358 (20°C, 1bar). Para conversão em outras densidades e temperaturas, veja o cap. 1: Bases técnicas.