farahnaz77:
The method that I have employed in the majority of Nitrogen blanketing applications I have designed and installed employs a Protectoseal Series No. 20, Pilot Operated Tank Blanketing Valve (or a similar, competitive design). This N2 feed control valve is pilot-operated and has worked according to design and expectations in every application I've worked on. You can find this valve described in detail at the ProtectoSeal website.
What I have normally employed to evacuate any excess N2 volume in the tank (due to tank fills or temperature increases) is a conventional Conservation Vent - which protects against both overpressure and vacuum. The CV works on a gravity system and is used to conserve the pressure in the tank vapor space by evacuating any excess vapors. Additionally I always try to incorporate an Emergency Reflief (or "Hatch") - which is nothing more than a weighed blind flange that is cabled or chained to it's mating flange. The Emergency device is designed to protect the tank in case of an external pool fire and also serves as backup in case of Conservation Vent mechanical failure due to jamming, etc. The Conservation Vent cannot be relied upon to be "bubble-tight" in its seat design. If your storage tank has to maintain a "buble'tight" N2 seal, then I recommend you install an appropriate, soft-seat backpressure control valve to relieve any excess tank vapors when it desired or necessary to do so. You can find descriptions and sizing of the CV and ERs at the ProtectoSeal website as well.
Although it may seem to some that StoneCold and Latexman are at odds in their comments, I do not see it that way. StoneCold is making a strong and principalled stand on safety against an unexpected tank over-pressurization. This is a valid concern and should, in my opinion, be evaluated as to the application. A conservation vent valve can jam in the closed position.
Latexman is correct in pointing out that Conservation Vents (sometimes tagged as "PVSVs" by instrumentation engineers) are routinely used to vent out the excess N2 in tank applications. There is nothing illegal about it. He is also correctly identifying the fact that these type of valves are also used to regulate the flow to downstream "Control" devices such as scrubbers, adsorbers, etc. As I previously stated, I've used this method to maintain an N2 blanket on Phenol, Formaldehyde, polyols, Methanol, Isopropanol, Gasoline condensate, and many other liquids.
This is also essentially what 25362 has pointed out. I am not offering any new or revealing information other than just confirming what I understand from this thread and I wanted to assert that all the responses are in agreement. The type of hardware should be selected carefully on dependability and correct sizing. The tank should be protected against the worse scenario - as is the usual case - and it should be Hazoped and controlled with Management of Change to ensure its safe design and installation.
In summary, your query has been addressed in excellent comments by all - but only in a general way. Since you haven't furnished detailed, basic data nor a scope of work this is as much as the respondents can offer for now.
Art Montemayor
Spring, TX