If you provided the manufacturer with the operating temperature (370C) on you spec sheet (and I assume you did), then the manufacturer would have provided the CDTP. The CDTP is generally stamped on the nameplate.
If you don't have a CDPT then contact Fukui for that value.
Some subcooling of the condensed steam may occur, but for design purposes that should/can be ignored. The design intent is to use the heat that comes from condensing the steam. Thus, for design purposes the steam side and condensate are in thermal equilibrium (same temperature). The temperature...
Refer to a text that explains heat transfer through a composite wall. With a double wall you have multiple layers of thermal resistance. Do that to calculate the heat transfer rate to the fluid in contact with the inner wall.
The heat input rate to the LPG will obviously be much less than that...
Morten, I agree that the only practical option is to lower the set pressure of the first PRD.
My point was that PED actively states that one can set the second device at 105% MAWP. So it's not against regulations to do that, but by saying this, the PED authors apparently didn't recognize the...
Adding to Morten's comments, this PED restriction (limiting the relieving pressure to 110% of MAWP even when multiple PSVs are used) effectively undermines the benefit of setting the second PSV at 105% MAWP. That's because the second valve isn't fully open - there's not enough overpressure for...
The real constraint is the vent line's pressure drop and not its velocity. Sizing an atm vent pipe is simply a line sizing exercise in which the pressure drop is limited to the max allowable pressure in the protected vessel. For example, if the max allowable tank pressure is 1 kPa, then the vent...
As inferred by LittleInch, to be objectively safe you'll need to remove all the hazardous materials, and close the plant. That is, find another way to make money. But, you'll then find that other hazards exist in almost every industry. The point here is that we're in the business of managing...
Since this is for a European facility, I would think that you're using an EU harmonized standard (e.g. ISO 4126) for the relief design. Compliance with PED is easier when using harmonized standards. However, one can also use a non-harmonized standard such as ASME Sec VIII - it just requires a...
When exposed to fire, the liquid in the tank doesn't provide any significant cooling protection for the shell unless/until that liquid starts to boil. Once boiling starts (which occurs at the inner wetted surfaces of the shell, the Hvap helps limit the temperature of the shell metal (Hvap...
Since you're asking about the Hvap of this material, I assume you're performing calculations for a fire exposure case. Before proceeding with that design, consider the temperature at which this asphalt/bitumen boils and consider the likelihood of the tank will remaining intact, since the wall...
RD's will reliably burst when they need to burst - and they'll reliably burst when they're not needed. That's especially true in a liquid-full system, and it's exponentially true for applications like the discharge of a pulsating pump. That's an exceptionally bad application for an RD.
For...
Gas-side heat transfer (film coefficient) is highly sensitive to turbulence (Nre). Since you're obviously getting better heat transfer in E-A, one possible explanation is that the NG side of E-A has more pressure drop (resulting in higher Nre, and better HTC) due to the friction loss in the NG...
If distributor performance is critically important, then you'll have to do some experimental testing. Calculations can't reliably produce in a design that meets performance requirements.
