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Btw this might sound trivial, but for people with a central ducted HVAC system it's quite common for the central fan to pressurize/depressurize rooms with closed doors, which in some cases will be the largest driver of infiltration. So simply having an AC or furnace cycle on and off during the experiment would be quite bad for the results.

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Better Air Purifiers

by Jeff Kaufman 🔸

May 113 min read 37

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BiosecurityOpportunities to take actionEngineeringIndoor air quality

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Better Air Purifiers

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Are you looking for a project where you could substantially improve indoor air quality, with benefits both to general health and reducing pandemic risk?

I've written a bunch about air purifiers over the past few years, and its frustrating how bad commercial market is.

The most glaring problem is the widespread use of HEPA filters. These are very effective filters that, unavoidably, offer significant resistance to air flow. HEPA is a great option for filtering air in single pass, such as with an outdoor air intake or a biosafety cabinet, but it's the wrong set of tradeoffs for cleaning the air that's already in the room. Air passing through a HEPA filter removes 99.97% of particles, but then it's mixed back in with the rest of the room air. If you can instead remove 99% of particles from 2% more air, or 90% from 15% more air, you're delivering more clean air. We should compare in-room purifiers on their Clean Air Delivery Rate (CADR), not whether the filters are HEPA.

Next is noise. Let's say you do know that CADR is what counts, and you go looking at purifiers. You've decided you need 250 CFM, and you get something that says it can do that. Except once it's set up in the room it's too noisy and you end up running it on low, getting just 75 CFM. Everywhere I go I see purifiers that are either set too low to achieve much or are just switched off. High CADR with low noise is critical.

Then consider filter replacement. There's a competitive market for standardized filters, where most HVAC systems use one of a small number of filter sizes. Air purifiers, though, just about always use their own custom filters. Some of this is the mistaken insistence on HEPA filters, but I suspect there's also a "cheap razors, expensive blades" component where manufacturers make their real money on consumables.

Then there's placement. Manufacturers put the buttons on the top and send air upwards, because they're designing them to sit on the floor. But a purifier on the floor takes up valuable space, is farther from where we inhale, and is at more risk of damage. Purifiers should be designed to use the space above our heads: on top of bookcases or shelves; mounted to walls or ceilings.

Finally, there's very little innovation. The top purifier on the Wirecutter is the Coway Airmega AP-1512HH, which has been their top pick since they first reviewed purifiers in 2017. It's not a bad purifier (I have several and they do what they're supposed to) but it's not close what's possible when maximizing CADR while minimizing noise and cost.

When I first got really into air purifiers three years ago, just before I decided to focus on a different aspect of pathogen control, I proposed a simple design:

This is a regular ceiling fan, with a ring of HVAC filters around it. The fan draws air through the filters, which capture particles through a mixture of impaction, interception, and diffusion. It cleans a lot of air with low noise, stays out of then way, and is built from standard parts that have healthy highly competitive markets. As far as I can tell, this design is still much better for many applications than anything on the market, and for bigger spaces purifiers built around a high-volume low-speed fan (ex) would be even better.

Making a nice version of this would look like two components.

A frame the attaches around an existing 52" fan to hold standard HVAC filters. You'd go through the drywall and attach to the joists, so you'd need to handle uneven joist spacing. The frame needs to get a good seal to the ceiling and around the filters to minimize leakage, the filters need be easily removed and replaced, and the whole assembly should be pretty. The frame can come in several user-assembled pieces each just a bit bigger than a filter, which allows it to be flat-packed.
A mesh cover to go around the outside of the frame, to make it look nicer since standard HVAC filters are not designed for aesthetics. It would also act as a pre-filter, and you could take it down to wash or vacuum, extending the life of the HVAC filters.

I really don't exactly need another project right now, but it's been three years since I first proposed this and the competition has barely improved. Anyone want to take this on? This would look like designing the frame, testing and validation, manufacturing, and marketing. I'd be very happy for someone else to commercialize this idea; it being out there is all the payment I'd be looking for.

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JesseSmithMay 1242

Like you, I'm also somewhat surprised there hasn't been more innovation here. I'm also disappointed by the current market for HEPA filters, and the widespread perception of HEPA supremacy. To some extent, part of the reason why we see low innovation may be connected to the problem of low HVAC competence, which I've written about previously

In my view there's a point somewhere around a corsi box and possibly before where we're probably better off embracing the HVAC trade and all of the tools and materials this encompasses. This probably means replacing tape with tin snips, and cardboard with sheet metal. These tools and materials exist for the express purpose of reducing time and expense, while delivering effective, aesthetically pleasing results. This should be done in a way that advances diy projects, but opens up an entirely new world of fans, ducts and filters of myriad stock sizes, each as separate components that can be placed together in a variety of configurations and installed virtually anywhere in a building.

As an example, vevor has a 6", 400 cfm fan for ~$50. This is compact enough to be installed near the ceiling of a closet, which would greatly reduce motor noise in drawing air from/supplying to the adjacent room. Adding a sidewall filter grill and filter will run another $115, and we'd probably need some ductwork and a supply register. But at this point we probably have a permanent, quiet, discreet system for delivering >350 cfm cadr for <$250 in materials.

Benevolent_RainMay 155

Just woke up to what you mention about optimization in HVAC installation, here in Sweden they mount ductwork components with something akin to TDC/TDF - it is literally easier than Lego! It is so fast I was blown away working with it. And no special tools required. Awesome podcast you did btw on Pigeon Hour!

JesseSmithMay 156

Very similar to systems in the US! My sense is that many people have an ugh field wrt embracing basic trade knowledge, which is a significant impediment to even intermediate level projects. Glad you enjoyed the podcast!

Thomas KwaMay 182

A pair of CR boxes can also get 350 CFM CADR at the same noise level for less materials cost than either this or the ceiling fan, and also have much less installation cost. E.g. two of this CleanAirKits model on half speed would probably cost <$250 if it were mass-produced. This is the setup in my group house living room and it works great! DIY CR boxes can get to $250/350 CFM right now.

The key is having enough filter area to make the static pressure and thus power and noise minimal-- the scaling works out such that every doubling of filter area at a given CADR decreases noise by 4.5 dB, assuming noise is proportional to power and pressure goes as (face velocity)^1.5, which are common rules of thumb. I'd guess that the pair of CR boxes has 5x more filter area, so an 11dB advantage for the closet sound isolation to make up. MERV filters also get slightly higher efficiency when the face velocity is slower.

I have used inline fans for other purposes and even the air passing through a 6" duct generates some noise and adds static pressure. With a CR box you're doing the minimal work necessary to filter air.

Standard HVAC parts do have many advantages though. The aesthetics are unmatched and all parts are likely to be available, and they're very durable.

JesseSmithMay 183

Are you limiting your noise estimates to strictly airflow/static pressure? The research I'm aware of suggests Corsi boxes perform at >40db and up to 60db on high speed (~350 cfm). https://housefresh.com/corsi-rosenthal-box-review . During the pandemic this was widely discussed as a major impediment to their adoption.

Upsizing terminations substantially reduces room-facing air velocity. Assuming 400 cfm, the velocity at the termination I link will be roughly 175 fpm. This is extremely low, and I'd expect to achieve 20-25 db. Most residential return registers are undersized and thus outside ACCA's duct design standard of 500 fpm. It's also less than standards widely used for quiet spaces (200-300 fpm). You could continue pursuing improvements here via upsizing further if you're so inclined, or using clever placement to put the filtration system away from the room activities or behind (offset) cabinetry or furnishings.

Thomas KwaMay 182

That's a box fan CR box; the better design (and the one linked) uses PC fans which are better optimized for noise. I don't have much first-hand experience with this, but physics suggests that noise from the fan will be proportional to power usage, which is pressure * airflow, if efficiency is constant, and this is roughly consistent with various tests I've found online.

Both further upsizing and better sound isolation would be great. What's the best way to reduce duct noise in practice? Is an 8" flexible duct quieter than a 6" rigid duct or will most of the noise improvement come from oversizing the termination, removing tight bends or installing some kind of silencer device? I might suggest this to a relative.

JesseSmithMay 193

Ah, sorry, the CR reference threw me off. That link seems to suggest those are in the 40 db range.

Duct design uses equivalent length as a metric across duct types and fittings with 1 foot of straight metal pipe as a '1'. The problem with flex is that each foot has an equivalent length of 1.5, which adds a moderate amount to system length (although to keep this in perspective many near air handler transitions are >100'). For something like this I'd probably do a short run of flex near the motor (both sides) to dampen motor/vibration noise and transition to metal beyond. Avoid cornering with flex! In general, remote fans, eliminating line of sight on the motor and oversizing ducts/terminations will be shockingly quiet to most room occupants. If you want to get super clever, you can start doing offset openings in walls by cutting grilles high on one side and low on the other, but it can be difficult to pull sufficient air while keeping velocity low (400 cfm = 6 stud bays).

Thomas KwaMay 192

You can get down to 25 dB by running two at half speed. Fan noise is proportional to RPM^5, so 50% speed will mean -15dB noise. The fans just need enough static pressure to maintain close to 50% airflow at 50% speed.

JesseSmithMay 203

Do you have tested numbers? Going from high to low on 4 filter CR boxes shows a reduction in airflow in the range of 30%-40% and db reduction around ~13%.

JesseSmithMay 201

Thomas KwaMay 21*15

(edited to fix numbers, I forgot 2 boxes means +3dB)

dB is logarithmic so a proportional reduction in sound energy will mean subtracting an absolute number of dB, not a percentage reduction in dB.

HouseFresh tested the AirFanta 3Pro https://housefresh.com/airfanta-3pro-review/ at different voltage levels and found:

12.6 V: 56.3 dBA, 14 minutes
6.54 V: 43.3 dBA, 28 minutes

So basically you subtract 13 dB when halving the CADR. I now realize that if you have two boxes, the sound energy will double (+3dB) and so you'll actually only get -10 dB from running two at half speed. So a more accurate statement for the Airfanta would be that for -15dB noise at the same CADR, you need something like 2.8 purifiers running at 36% speed. It's still definitely possible to markedly lower noise by adding more filter area.

Your box fan CR box data tell a similar story. If logarithmic scaling is accurate, the sound reduction for halving CADR would be ln(1/2)/ln(165/239)*(8 dB) = 15 dB, or 12 dB for maintaining CADR with double the units. It just doesn't have a speed low enough to get these low noise levels (and due to the box fan's low static pressure you might need to add more filters per fan at low speeds).

Airfanta's absolute noise levels are high for a CR box type design but this is a device that retails for 298 CNY = $41 USD in China, runs at high speed, and uses near-HEPA (95%) rather than MERV filters so is to be expected.

JesseSmithMay 221

Bummer. Operating at 25 db would have been really impressive for a room filter but it looks like it's not even close. Extrapolating from David Elfstrom's airflow estimates it looks like ~1/2 cfm would put it >40 db, which isn't great. So if we want to create a satisfactory occupant experience we probably shouldn't put down the tin snips just yet.

Jeff Kaufman 🔸May 192

That's a box fan CR box

A filter with PC fans isn't a "CR box" -- a Corsi-Rosenthal box is specifically a design based on box fans. For example, Wikipedia, US Davis, Clean Air Crew, and the Corsi-Rosenthal Foundation mention only box fans.

Thomas KwaMay 19*5

Usage varies-- the top five posts on /r/crboxes all use PC fans. Other guides do too, and CleanAirKits and Nukit both describe themselves as PC fan CR boxes.

Jeff Kaufman 🔸May 202

Interesting! I hadn't realized people had started using the term this way!

SiebeRozendalMay 12*5

As a non-engineer not working in this space, I can't say much but I've had a lot of similar thoughts (ceiling mounted, outer casing, non-HEPA). ~~I do have my question about your design (and GPT o4-mini-high is pretty skeptical), wondering whether the fan really draws all the air through the filters.~~ This design also doesn't work well in smaller rooms? I personally like "fandeliers" or ceiling-mounted CR boxes that include lighting and actually look decent.

I agree that there seems to be a lot of improvement up for grabs, and I would love to see a company start innovating here and - most importantly - scale up production.

The problem, however, seems like it would be demand: air purifiers aren't in high demand, and consumers don't notice the difference between high and low CADR (they do notice noise). A company could bet on creating a large, cheap stockpile to sell off at high prices during an epidemic, but I imagine it'd be hard to get investors on board for that. This space probably needs market-shaping, such as advance market commitments or indoor air quality regulations (e.g. mandated PM2.5 levels) creating demand.

Jeff Kaufman 🔸May 1210

I do have my question about your design (and GPT o4-mini-high is pretty skeptical), wondering whether the fan really draws all the air through the filters.

When I tested the prototype it worked well: https://www.jefftk.com/p/ceiling-air-purifier

Now that I know more about how these fans move air, I think it would work even better if the filters extended slightly lower.

SiebeRozendalMay 137

Ah, good post! I should probably just have refrained from commenting on the design given my limited knowledge. For benchmarking purposes, perhaps these designs are better than the one from Wirecutter:

https://housefresh.com/quiet-air-purifiers/

DavidmanheimMay 138

wondering whether the fan really draws all the air through the filters

It doesn't need to. If only 90% goes through each time, it's incredibly effective, since it's getting through all the air in the room many times each hour.

JesseSmithMay 155

I think to some extent the skepticism is warranted due to a mix of reduced airflow via restriction and the unknown q of bypassed airflow. Measuring airflow in a few locations with an inexpensive anemometer would be sufficient to allay these concerns, but using particulate as a proxy doesn't seem quite as strong

Thomas KwaMay 182

Isn't particulate what we care about? The purpose of the filters is to get particulate out of the air, and the controlled experiment Jeff did basically measures that. If air mixing is the concern, ceiling fans can mix air far more than required, and you can just measure particulate in several locations anyway.

JesseSmithMay 183

It's an OK experiment, but there could be other reasons for air exchange in the room that vary quite widely. Building infiltration would exchange air with outdoors and varies quite a bit with outdoor conditions. It's also not very difficult to measure airflow so I don't see many disadvantages to doing so

JesseSmithMay 1811

Jeff Kaufman 🔸May 192

Good point! I'm used to houses with the older systems (steam, forced hot water) that are common in the Northeast and wasn't thinking about this effect.

Benevolent_RainMay 152

Great article, makes a lot of sense. It might make sense to launch towards commercial sectors first - there they are more interested in increasing air quality at low cost and low noise. Just realized that some hair salons have purifiers - I think there are lots of small hair particles floating around that I think you don't want to inhale.

On replacing filters: There is actually this study from the national labs that indicate filters hardly need replacement at all. I think it is even worse than razorblades that grow dull - filters last forever! It is a shame the torrent of marketing now has the public believing the filters need frequent replacement - that will be a hard myth to kill for a startup.

Jeff Kaufman 🔸May 156

There is actually this study from the national labs that indicate filters hardly need replacement at all. I think it is even worse than razorblades that grow dull - filters last forever!

That study is looking at nuclear facilities, but I'm not sure it generalizes to environments with more particulates in the air. In a dusty enough environment your filter will surely get clogged up to the point where you're not able to move much air through it!

Benevolent_RainMay 152

Yeah perhaps. But on my purifiers there is at least one screen sorting out a lot of debris. And then I vacuum the filters every now and then. I guess one might notice if the airflow significantly reduces. I am running a test on mine to see how long they last. You have prompted me to get a new filter and later on just test how much air flow is reduced with the old filters - thanks for the inspiration. But I think one can safely run the home air filter for much longer than the 6-12 months suggested by manufacturers.

JesseSmithMay 153

Increasing pressure drop across a filter is probably the best proxy for whether a filter needs replacement. In the field, a new, high MERV filter will often have a measured pressure drop between .15 and .3 inches of water column. An increase of ~.5iwc is probably sufficient to indicate replacement. Where high merv filters are used, it's not uncommon to have very fine particulate be the primary source of clogging which won't be visible so visible dirt isn't entirely reliable. It's not uncommon for sophisticated control systems to automate this. It's also fairly accessible as a diy tech.

Benevolent_RainMay 152

Do you know why, apart from increased energy usage and perhaps fan wear and tear, one needs to replace filters as pressure increases? My understanding is that filter efficiency does not decrease but maybe I missed something. And I agree measuring the pressure drop is best, but just thinking for some DIY, at-home quick fix without any special tools, it might just make sense to check if the airflow is more or less the same.

Jeff Kaufman 🔸May 154

Efficiency in terms of fraction of removed particles wouldn't decrease, but because CFM will decrease efficiency in terms of CADR will too.

Thomas KwaMay 1710

Efficiency can decrease too, especially when there are lots of very small particles like smoke. See this reddit thread: https://www.reddit.com/r/crboxes/comments/1fznar2/comment/lr2j404/.

My understanding is the small particles can basically cover the surface area of the fibers and block their electric field. Here's an image from one of the linked studies showing filters that are (a) clean, (b) after one test, and (c) having absorbed 2 grams / m^2 of smoke and having its efficiency drop from 92% to 33%.

https://www.mdpi.com/atmosphere/atmosphere-14-01729/article_deploy/html/images/atmosphere-14-01729-g006.png

JesseSmithMay 153

Fan energy is a mixed bag depending on motor type. Constant airflow fans have a fairly flat pressure:CFM curve and will increase energy but PSC motors will see much lower airflow and reduced energy as a consequence.

In heat/AC systems airflow reductions outside a fairly narrow range will cause shutdown/failure due to high heat/freezing coils. In filter only systems you'd probably see low airflow and premature motor burnout. In standard motor assemblies going beyond .2 iwc increase would widely be considered quite aggressive (I have a fairly high risk tolerance for crazy stuff in buildings and probably wouldn't do this)

Benevolent_RainMay 172

I guess just a last question from me: Does it seem necessary to you to replace filters every 6-12 months as manufacturers suggest? I have run filters for >2 years and cannot really discern any increased load on the fan motors, just listening for changes in motor sound. Nor can I sense any significant reduction in air flow, just feeling the air flow with my hand. I am asking as I am telling people not to replace the filters as often as manufacturers suggests - it is expensive and people might think that their purifiers do not work well after a filter is 6-12 months old.

JesseSmithMay 187

My experience is mainly in central HVAC systems and I mostly agree that filters could have a much long service life. However, I've seen significantly shorter life via fine particulate via the use of tap water in humidifiers. Ime this will clog a MERV 13 filter in a few weeks. If you can afford a manometer (~$100) capable of reading increments of IWC ~.1, testing pressure is quite simple and many more people would benefit from adding this type of measurement to their skillet! I'm happy to provide further guidance!

Benevolent_RainMay 193

Yeah if $100 can save you even just 3 filter replacements, that sounds like a good investment. Maybe I should do this myself. For now, I will just hope motor sound + my intuition/tacit knowledge of air purifier air flow is enough for me to realize when a filter definitely needs replacing. Thanks Jesse!

Tom DelaneyMay 151

Love the design here!
One doubt I have is that in India, where I live, the air quality is worst during winter - a time of year that you wouldn't want a ceiling fan on. Would be interested if you have any thoughts on an alternative to use in winter.

Jeff Kaufman 🔸May 152

Ceiling fans are generally reversible, so you could have the ceiling fan blowing air up and mount the filters for airflow in the opposite direction. I haven't tested this configuration though!

[comment deleted]May 121

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