Let me give this a try... but I think I'll have more questions then answers again...
Well... I guess I would say forced air. But now I'm not sure...Are you doing forced air or a ductless minisplit?
I have radiant floor heating built in to the concrete so my main concern was getting fresh air into the room to not kill myself, and secondary concern was A/C for the hotter months. That's why the first time I answered that I was just thinking of adding a fan at the supply of my ducting to pump the appropriate amount of fresh air into the room. Naively I was thinking that I could then down the line (maybe after the setback inspection) change the fan out with something like a heat pump to control the A/C in the hotter months and still provide the necessary fresh air.
However, you then rightly pointed out that I'd be dumping cold air onto my feet in the winter with my current plan and I started looking into the heat pump/HRV systems. My understand now is that the heat pump sometimes will cut off the fresh air completely depending on the external temperature and what it's trying to do (heat or cool), so this might not actually be a viable plan. But I must admit though, that after trying to research a bit I am not confident that that statement is necessarily correct, and I think I'm more confused now than before about how all these systems work (HRV/Heat Pump/AC unit etc.) and on what I should be doing with my plan.
I'm assuming that you pointed this out:
Because through my research the heat pump also utilizes the air from the exhaust too, thus the need to pipe back to the air handler?1. I don't see a designated air handler in your space.
2. Due to your back wall architectural guidelines, there is no room for your returns to get back to an ducted air handler.
Well... I wasn't... but to be honest, now I feel like I really don't know what I am doing and a bit back at square 1... well, maybe square 2 or 3, but either way a whole lot more figuring to do.Therefore, I'm guessing that you're using a ductless mini split?
This all sounds fantastic save for the dumping cold air on the feet part, but as I said before, I am now back to trying to figure out what system I really do need so I can figure out if this is indeed applicable to me.If so, you could get away with WAY less cross sectional area than you're currently calculating. This means smaller silencer boxes.
Okay so, if you have 1240 cubic feet, yes 6 air changes is 124 CFM. Now, that's needed if you're rocking a ducted system. For fresh air, which your silencer boxes are passing, you only need ~ 30% of that amount. So, 124CFM x 30% = 37.2 CFM. Much less, right? You might have troubles finding an inline fan that will move only that amount of air. You might have to get crafty. Also, before I forget, I need to point out that due to your current design, you can't fit an HRV in there which as I'm sure you know would be really really smart to have in BC climate. If are aren't cool dumping all of your conditioned (heated) air out into the cold winter and then have your fan blowing really cold air in on your feet (under your speakers), you certainly should consider an HRV unit.
Anyway, the smallest round duct you're going to find around your area might be 5" flex duct. Unfortunately, this crap isn't duct LINED, it's insulated. So, we have to rely on the low frequency attenuation in any flex duct runs and rely on the silencer boxes for the mid/high frequency attenuation.
5” RD duct = 19.63 sq in. Double = 39.26 sq in.
That means that the inside total cross sectional area of your silencers only need to be 39.26 sq in. in order to achieve doubling of your cross sectional area. You wrote that each silencer box in your joists has a cross sectional area of 36". So you're ~91% there with a SINGLE joist cavity of boxes! Let's say you have two joist cavities of boxes. That gives you 72 sq in. Now, going from 5" inlets on the box to 72 sq in inside, you've increased your area by 3.67 times! Now THAT's an impedance mismatch. Kick ass. Also, regarding velocity:
Air velocity in ft/min = CFM Flow rate in ( ft3/min) / CSA Cross sectional area in ft2
Air velocity in ft/min = 37.2 CFM / 72 sq in
Air velocity in ft/min = 37.2 CFM / 0.5 ft2
Air velocity in ft/min = 74.4 feet per minute. Now THAT is slow
If this is the way I go I will do all of these things. But given what you know now from my requirements (no need for heat, mostly fresh air, secondarily cooling, but given my climate only in a couple months in the summer...) is this the system you would suggest? I also have a bit of tissue rejection from the actual unit that is mounted in the room for the mini-split since it's big and ugly... but if it's what I need I could get over that...1. show us where you're putting the mini split.
2. you should have your fresh air blowing in right ABOVE your indoor mini split head unit, not the floor under your speakers.
3. try to implement an HRV into your design and put it in the pool mechanical room (I have one really bizarre idea of how to get your duct work on your ceiling joist boxes into the pool room)
3b. since it's a mechanical type room, I'm guessing there's a floor drain in there you could use as a drain for your mini split yeah?
Thanks for the positive encouragement... although it feels more like I just took a punch to the gut4. you're making insanely good progress here so please stay with us and as you can imagine, once this HVAC crap is behind you, you'll be off to the races!
But sincerely, thank you for all the help, I wouldn't have gotten this far without you and Stuart... and I will press on, and hopefully this is just a small set back in my planning process.
Apologies for my ignorance...
Thanks,
Aaron
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