Did I misread the OP, or is the intent to close the louvers on fire detection, i.e., the fire detection eye activates to close the louvers?
If so, this may be configured that way in an attempt to limit the amount of fresh air available to the fire, should it exist. The bigger the building, the less effective this will be, in my view.
I can agree with zdas04 and the rationale to close the louvers on H2S Hi-Hi. It does depend a bit on the H2S ppm at the Hi-Hi setting; in upstream O&G I typically have seen Hi at 10 ppm and Hi-Hi at 20 ppm. I am not sure I'd be too concerned at 20 ppm, but if the Hi-Hi setting is, say, 100 ppm or more then zdas04's assessment makes perfect sense to me. Otherwise, at a Hi-Hi of, say, 20 ppm I'd be trying to get MORE air into the building, not less - but then what happens above the 20 ppm (a "Hi-Hi-Hi" ?)?
The handling of the LEL Hi (typically 20% x LEL) and LEL Hi-Hi (typically 40% LEL) is less easy for me to accept. At 40% LEL (Hi-Hi) I have seen this coincident with an ESD setting, but to me, the effect of closing the louvers will be to accelerate the rise to 100% LEL. It's worth knowing if the combustible gas is less dense or more dense than air, relative to the louver position (high or low) in the building. When I specify buildings where both H2S and combustible gas may be present, I have two sets, a high louver and a low louver. I also have exhaust air fans opposite the louvers to try to effect a sweep through the building, but the OP makes no reference to these.
My thought is that many standards and design guidelines specify a shutdown of the ventilation system at Hi-Hi settings for gas. The settings alluded to by the OP might be that way simply to be consistent with that mindset.
