CPCSupport:Cheap CO2 Monitors: Difference between revisions
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* '''It's better to just force a recalibration to 425 ppm''' (our current average CO2 concentration) by setting forced_calibration_reference in scd to 425. | * '''It's better to just force a recalibration to 425 ppm''' (our current average CO2 concentration) by setting forced_calibration_reference in scd to 425. | ||
If you didn't bother Googling any of that, this might not be for you. But that's okay: for ~$100, you could get [https://cybernightmarket.com/products/nukit-co2-mains-relay-switch Nukit's NDIR CO2 controller] for controlling an outlet based on CO2. (Disclaimer: I have ''not'' tested this.) | If you didn't bother Googling any of that, '''this might not be for you.''' But that's okay: for ~$100, you could get [https://cybernightmarket.com/products/nukit-co2-mains-relay-switch Nukit's NDIR CO2 controller] for controlling an outlet based on CO2. (Disclaimer: I have ''not'' tested this.) | ||
There is the obvious disadvantage of only being able to measure one room at a time with Nukit's solution, since it's not designed to be moved around. But, in any case, assuming you got a NDIR sensor somehow, what is the sensor like to use? | There is the obvious disadvantage of only being able to measure one room at a time with Nukit's solution, since it's not designed to be moved around. But, in any case, assuming you got a NDIR sensor somehow, what is the sensor like to use? |
Revision as of 06:15, 9 June 2024
DRAFT
Let's step aside from respirators for a bit...
20+ years ago, if you wanted a portable NDIR CO2 monitor that you didn't have to lug around, you had to go to a company like TSI/Alnor Instruments, and potentially shell out thousands for a CompuFlow, Q-Check, or IAQ-Calc. Later, cheaper sensors started emerging, and were incorporated into newer instruments sold by companies like TSI, with maybe some more competitors driving the price down, but they were super niche and uncommon outside of industry.
The solution in the past would've be to say: screw it, let's just estimate CO2 using some other, cheaper sensor. Or forgo measuring CO2 in our buildings altogether. But thanks to sensor competition in the late 2010s by companies like Sensirion, the cost of actually-usable CO2 sensors has come way down, but still cost hundreds of dollars, right? You may be surprised. Here, I'll review three different ways of measuring CO2 reliably and cheaply.
Bear in mind that this is not an invitation to stop wearing your respirator because the CO2 has dropped below 1000 ppm. Whatever device you choose is going to be mostly informational, since SARS is exceptionally durable now, sometime even out of doors. It is useful for discovering how contaminated a room might after everyone has left, since reports indicate that the inactivation of SARS in a 3000 PPM+ environment may plateau, potentially putting you at risk even when an empty room should be ostensibly safe.
Device 1: CO2e via VOC
A couple years before the pandemic in 2020, a bit before CO2 monitors became widespread, I got a JSM-131 a "CO2" sensor that actually measures VOCs. And you can tell it's estimating CO2, because a bit of alcohol will cause the estimated CO2 to skyrocket. And helpfully, the JSM-131 is old enough that it has displays for VOCs and formaldehyde to confirm this. And since the pandemic, these devices have seemingly flooded the market.
While accounts say some models have been reportedly accurate at estimating CO2, I've never really been able to get a good CO2 reading this way. It always seems to be an order of magnitude off, like 500 ppm out of doors, and around the same indoors with an air purifier turned on. A bit problematic, since air purifiers can't remove CO2.
That being said, they're cheap. You could find these devices for around $20 five years ago, and they've since fallen to below $10 on Aliexpress, with sensors presumably costing next to nothing. Although worryingly, some people are paying prices well above $10 for these things.
Summary:
Pros | Cons |
---|---|
(if the device allows)
(If the manufacturer put in the effort, unlikely)
(If you didn't overpay) |
in many circumstances |
Device 2: Cheap NDIR
Most companies cheap enough to sell you dodgy eCO2 sensor aren't going to put in the effort to try and sell you an NDIR CO2 sensor, and the reputable companies know this. That's why you can see companies like Aranet selling them in the $150-$250 range.
But let's say you want to pay less than that. Provided you're well versed with contemporary operating systems, for $60, you can get an Sensiron SCD-30 sensor from Adafruit. Then get an FT232H and an I2C cable.
From there, getting this thing to work is a bit cryptic, but here's a very rough idea if you're on Desktop Linux:
- Make sure i2c is enabled on your FT232H.
- Setup a Python virtual environment.
- Use your Python package manager to install Adafruit-Blinka, and Adafruit-Circuitpython-scd30.
- Set up these udev rules.
- Set environment variable BLINKA_FT232H=1.
- Import adafruit_scd30, busio, and board. You may want to also import time to slow down Python execution. Word is, 2 seconds is the best.
- Bryan Siepert's code called busio.I2C with the parameters board.SCL, board.SDA, frequency=1000. From there, you can use that object to call adafruit_scd30.SCD30, and assign it to a variable, like... 'scd'.
- There is an auto calibration feature, but I find it's best disabled by setting scd's self_calibration_enabled parameter to False.
- It's better to just force a recalibration to 425 ppm (our current average CO2 concentration) by setting forced_calibration_reference in scd to 425.
If you didn't bother Googling any of that, this might not be for you. But that's okay: for ~$100, you could get Nukit's NDIR CO2 controller for controlling an outlet based on CO2. (Disclaimer: I have not tested this.)
There is the obvious disadvantage of only being able to measure one room at a time with Nukit's solution, since it's not designed to be moved around. But, in any case, assuming you got a NDIR sensor somehow, what is the sensor like to use?