off-grid lumber drying ventilation/solar kiln

Just my opinion, but if your fans can just run when the sun shines, you would have a far
simpler system with no big maintenance needs, by running as many DC fans as needed in
daylight, with as may 12V panels as required to keep them going. Bruce Roe

I've done some more research on the solar kiln and I think it probably does make sense to run batteries but will stick with 12v fans to eliminate the need for an inverter.
I'd love a math/logic/sanity check if anyone is feeling generous!

Depending on the lumber type and load size, I need to be able to circulate air inside the kiln at up to 3,000 CFM and the fans generally run from about 2 hours after sunrise to 2 hours after sunset. Basically when ambient temps are higher/RH is lower in the kiln compared to outside. I've found some DC attic fans that move 1,000 CFM with 18 watts @ 12 volts so I plan to use three of them along the length of the kiln.

In my area:
June days are 15 hours long so 18W x 3 x 15 = 810 Watt Hours with 5.39 kWh/m2/day
Dec days are 9.25 hours long so 18W x 3 x 9.25 = 500 Watt Hours with 2.82 kWh/m2/day

Using a 1.5 fudge factor (MPPT charger), I need 266 panel watts in December and 225 panel watts in June. 3x 100W, 12-volt panels probably makes the most sense. Probably just get Renogy panels or something similar through Amazon.

With 5 days of backup, I need 208 ah of battery juice in Dec and 338 ah in July. The math on this makes sense because the shorter days require less watt hours but it defies intuition. A 30A charge controller will get the job done.

Probably 2x ~200ah 6-volt batteries makes the most sense for these. Any specific batteries out there that would be good for this application? The batteries can be taken off-site between kiln loads for maintenance.

Does this all make sense? I' still looking at fan options but the AC fans generally require a lot more wattage plus the addition of an inverter would add some additional inefficiencies to the system and just isn't needed as long as I can source some affordable DC fans.

I appreciate any input or red flags and I have to say the stickies in this forum rock!

EDIT:
Question: Is there a way to automatically shut the system down if the batteries get too low? Say to 50% for example? I am generally only at the site once per week or so and when I hit a period of cloudy weather, I'd rather just turn the fans off and save my batteries since weather that won't charge the batteries won't heat the kiln up much anyway.

Understood. Fans or other means of forced ventilation can be and often/usually are a necessary adjunct to any natural convection drying system. In spite of what treehuggers and the green mafia would like us to think, appropriate technology is not and never was meant to replace "standard" methods of living life in an all or nothing fashion.

I was once moderately familiar with process drying equipment and methods, including moisture removal from wood/cellulose products. Sometimes equipment for wood drying presented interesting situations, particularly with respect to moisture diffusion rates into/out of wood as f(wood species, growing conditions, climate, etc.). Probably still one of the (many) engineering black arts.

J.P.M. I spent a little time this AM researching passive solar and it appears to be pretty much the same exact thing as a solar kiln without the addition of some ventilation fans.

Virginia Tech has done the most work with solar kilns for lumber and their design specifies a couple of fans and all the kilns I know of use them. There are well established design guidelines for these so I am reluctant to go rougue and skip the fans.

i do own a small Woodmizer saw mill I so I do have a small but steady supply of green lumber moving through my drying space. I am willing to make an investment in a more effecient and controlled process to accelerate things and help minimize loss due to drying defects.

Original link is not working. Neither are apostrophes! Solar kiln schematic is here...



and

That is correct but each species varies in how fast is too fast. Oak, for example, needs to dry very slow but also is not prone to staining. Eastern white pine is at the opposite end of the spectrum however and can handle rapid drying but is also very prone to stain if too wet or humid. I had about 700 board feet develop mold and stain in 3 days this summer during a wet, humid, still period. Until I get the kiln built, I am basically looking for away to move moist air off the lumber when the weather is not cooperating.

The solar kiln is designed to heat up well but is insulated and enclosed so a fan is needed to remove moist air and the speed which the moisture is removed is controlled through operable vents. The schematic I linked to illustrates the cconcept pretty well.

Solar kilns are far from newfangled technology but fans are critical to their operation and grid electrical just is not feasable at this location. The kiln is very similar to an attic venting situation actually while my barn fans will hopefully speed things up a bit and help prevent mildew during still humid periods.

You're most welcome.

Passive solar drying of wood is not only interesting but it's been around a very long time - much longer than PV and workable. Designs abound and are region/climate type dependent. Essentially, the wood is dried in a passively heated solar structure with the ventilation provided mainly by natural convection that's sometimes or often aided by forced convection. Some think such means are more appropriate technology. It's probably less expensive and more reliable than throwing whiz bang PV at an application.

I thought wood had to dry slowly to prevent cracking and warping, or is it clamped in place in the kiln ?

JPM,
Thanks for responding, real good questions. This is a small scale hobby operation so not much. The exact amount of moisture is species dependent and varies with how recent the wood was milled so it varies but volumes are generally 1500 board feet or less and that is what the kiln will be designed around. Think 1 inch thick lumber in a stack 4 ft wide by 10-12 ft long x 6 ft high with 3/4" stickers/spacers between each vertical row.

Backup ventilation is not needed since the worst case scenario is dying too fast which I can control. If power shuts down or cloudy weather, moisture will just build up and drying will stop but temps are generally lower so less moisture to deal with anyway.

Too much moisture over an extended period can lead to mildew and staining issues but that can happen outdoors in humid/still air as well.

I have not looked into passive convection but will research it, sounds interesting enough.

Thanks again.

How much moisture to you intend to evaporate from how much wood ?

Do you intend to have backup for the PV powered air circ.?

Ever consider a passive solar dryer w/nat. convection circ. ? Works for kilns too.