Summary
All tests were performed on my 2020 Bolt EV. I believe most of these results also apply to 2022–2023 Bolt EVs and to the EUV. Unless otherwise stated, tests were performed with the OEM ACDelco filter, and climate settings were set manually.
Particulate Filtration
Filtration tests were performed using smoke as the challenge material. Particle concentrations were measured with Plantower PMS5003 and PMS7003 sensors.
I tested a lightly used ACDelco CF185 cabin air filter (GM part # 13508023). First I tested the filter outside of the car to ascertain the performance of the filter itself, independent of the car's climate system. These tests were performed at a low air velocity, under 0.4 m/s. For particles in the 0.3–0.5 μm range, the particle number concentration was reduced by 57% (±5%) in a single pass. The PM2.5 particle mass concentration was reduced by 60% (±5%) in a single pass. Testing inside the car with recirculation turned off, the particle mass concentration was reduced by 60% relative to outside air. With recirculation turned on, the particle mass concentration was brought to 0 μg/m^3 within 1–3 minutes, depending on the fan speed and the starting concentration.
The ACDelco filter's performance is good, but not great. If you are driving through highly polluted air, recirculation mode is the only way to get very clean air with this filter. But as I'll explain later, recirculation mode doesn't bring in any fresh air.
I tested an aftermarket Bosch 6091C "HEPA" cabin air filter in new condition. Bosch claims 99.97% filtration efficiency for 0.3 μm particles at a 5.33 cm/s air velocity, but that is not a believable performance statistic, and 5.33 cm/s is an unrealistically low air velocity. While the filter does not perform to a HEPA standard, the performance is very good for a cabin air filter. Testing the filter outside of the the car at a low air velocity (under 0.4 m/s), for particles in the 0.3–0.5 μm range, the particle number concentration was reduced by 98.5% (±0.5%) in a single pass, and particles larger than 1.0 μm were 100% removed. The PM2.5 particle mass concentration was reduced by >98.5% in a single pass. Tested inside the car with recirculation turned off, particles in the 0.3–0.5 μm range were reduced in number by 90–95% (depending on fan speed) relative to outside air, and PM2.5 particle mass concentrations were reduced by >95% at all fan speeds. The air velocity at the panel vents was reduced by just 5–11%, depending on fan speed, relative to the OEM ACDelco filter.
The Bosch 6091C filter is very effective at cleaning particulates from the air, and allows you to have fresh, clean air with recirculation turned off. It's not expensive, either. I highly recommend it for anyone subjected to high outdoor PM2.5 levels. With wildfires having become more common in recent years, most of the country will be subjected to wildfire smoke at some time or another.
When should I replace my cabin air filter?
Electrostatically charged filter media like in the ACDelco and Bosch filters loses filtration efficiency as it becomes loaded with particles, and all types of air filters eventually become clogged with dust, impeding the airflow. How many miles you can drive before the filter needs replacing varies greatly depending on how polluted the outside air is. My advice is to visually inspect the filter for dust, debris, and discoloration. I've used instruments to measure worn filters, and in my observation, when the filter is a dingy grey instead of its original white, it's time to replace it. When it's off-white or a very light grey, it still has significant life left.
CO2 Levels
I measured CO2 levels using a dual-channel non-dispersive infrared CO2 sensor. Outdoor air measured around 420 ppm at the time of these tests. The two-occupant tests and the four-occupant recirculation test were performed in a car moving at highway speeds, and the other tests were performed in a stationary car. Air delivery was set to just the panel vents. The CO2 sensor was placed at head-height between the front two seats with the vents aimed away from the sensor. The table below shows the steady state CO2 levels reached after some time with different numbers of occupants in the car and different climate system settings.
Steady state CO2 concentrations, ppm:
With 2 occupants in a moving car and recirculation turned off, the CO2 concentration steadily rose, reaching 2000 ppm after 20 minutes, and settling around 2200 ppm 5 minutes after that. With 2 occupants in a moving car and the climate system turned off entirely, the CO2 concentration rose just as quickly and settled at the same 2200 ppm as with recirculation turned on. The car is not airtight. Fresh air slowly leaks into the car regardless of the climate system settings, but that leakage is insufficient to counteract the breathing of the occupants.
Poor ventilation has been associated with headaches, sleepiness, and difficulty in thinking clearly. Here I use the CO2 measurements as a proxy for ventilation with outside air. ASHRAE standard 62.1-2022, for example, recommends office space at the default occupant density be ventilated with outdoor air at a minimum rate of 8.5 L/s·person. That rate of ventilation causes an inside air CO2 concentration of about 1000 ppm, assuming 420 ppm CO2 outside and 0.31 L/min of CO2 from each occupant.
To maintain that level of ventilation and keep the CO2 concentration below 1000 ppm, turn off recirculation and set the fan speed to the same number as the number of occupants in the car. With 4 people in the car, a fan speed of 8 would be needed to keep the CO2 concentration below 800 ppm.
High CO2 levels have been associated with impaired decision making in some studies, even when ventilation was otherwise sufficient. I'm not aware of any tests on driving performance and CO2 concentrations, but one study showed that pilots were more likely to fail a flight exam in a high CO2 environment.
Airflow
I measured air velocity with a rotating vane anemometer at the two center instrument panel vents, with all other vents closed or turned off. The table below shows the air velocity with recirculation mode turned off. Air velocities were 2–5% higher with recirculation turned on.
Air velocity, ft/min:
For the same fan speed, the Bosch filter had 5–11% lower air velocity than the ACDelco filter.
Air Delivery Mode Table
*This assumes Auto Defog is turned off in the climate and air quality settings accessible from the Infotainment screen.
Recirculation Mode
Recirculation only works when the the air delivery is set to just the instrument panel vents, the instrument panel vents plus the floor vents, or all vents: panel, floor, and defrost. Any other combination of vents effectively disables recirculation mode, causing the climate system to use 100% outside air, though the recirculation indicator light remains on. When the vents are set to auto, the behavior of recirculation is unpredictable. Recirculation mode on the 2023 Bolt EUV was tested by gillmj24 and found to have the same dependence on the vent selection.
Recirculation mode uses 100% inside air and 0% outside air. I measured this ratio by using CO2 as a tracer gas and comparing the CO2 concentrations at the output of the panel vents, at the inside air intake behind the dashboard, and outside. After the cabin CO2 concentration had risen to 2000 ppm, the air coming out of the vents measured 2000 ppm while the air at the inside air intake also measured 2000 ppm. Outside air measured 600 ppm for this test (inside a garage). This result was corroborated by a highway driving test with two occupants: CO2 levels rose just as quickly and just as high with recirculation turned on as with the climate system turned off entirely.
Recirculation mode is great when you want to quickly and efficiently heat or cool the cabin, or to avoid the pollution or odors of certain areas. But the lack of fresh air causes CO2 levels to quickly rise. And if recirculation is enabled without the AC for dehumidification, humidity levels can quickly rise, which can cause fogging or frost in cold weather. I recommend using recirculation mode for no longer than 20 minutes at a time. If the outdoor air is badly polluted and your trips are longer than 20 minutes, the Bosch 6091C cabin air filter is a great option, allowing the car to maintain a supply of clean, fresh air indefinitely with recirculation turned off.
Dehumidification
When Auto Defog is turned on in the climate and air quality settings (accessible from the menus on the Infotainment screen), the AC can run for dehumidification even if you haven't turned on the AC using the AC button. I did not test Auto Defog. Auto Defog was turned off for all of my tests.
You can manually turn on the AC and the heat when you want dehumidification without cold air. The AC will run at low power, and the heater power will be adjusted to maintain the temperature you've set.
When air delivery is set to just the defrost vents, the AC runs continuously at low power to dehumidify the air. The AC indicator light remains off in this condition. In my tests, the AC ran continuously on its own even when the cabin humidity was very low and there was no risk of windshield fogging. When the AC is turned off but runs by itself for dehumidification, the heat can also run by itself (depending on how the temperature is set) so the car isn't blowing cold air. Setting the temperature low or turning on the AC stops the heat from running by itself.
Selecting all of the vents and turning on recirculation also causes the AC to run for dehumidification (and also the heat, if the AC is turned off and depending on how the temperature is set).
Aside from that, when I selected the defrost vents along with the panel and/or floor vents, my tests never showed the AC coming on by itself, even when the cabin was very humid and the windshield was fogging. Similarly, when recirculation was turned on and the defrost vents were not selected, I never observed the AC coming on by itself, even when the cabin was very humid and the windshield was fogging.
If your windshield is fogging, I suggest turning off recirculation and selecting the defrost vents along with the panel vents or the floor vents. That will bring in outside air and stop the AC from running on its own. Outside air is usually dryer than inside air, so it can often prevent fogging without the energy penalty of running the AC (and the added heating power to heat the cooled air). If the windshield is still fogging, turn up the fan speed. If it's still fogging, add heat. If it's still fogging, select the defrost vents by themselves.
- With recirculation turned off, the OEM ACDelco CF185 cabin air filter reduces PM2.5 levels by 60% relative to outside air. The aftermarket Bosch 6091C cabin air filter reduces PM2.5 levels by >95%.
- To maintain an adequate supply of fresh air, turn off recirculation and set the fan speed to the same number as the number of occupants. Poor ventilation has been associated with headaches and sleepiness.
- Recirculation mode only works when the air delivery is set to panel, panel+floor, or panel+floor+defrost.
- Recirculation mode uses 100% inside air. It quickly brings PM2.5 levels to zero, but allows bioeffluents and CO2 to build up inside the car. I suggest using recirculation mode only for short periods.
- To prevent fogging without letting the AC run, turn off Auto Defog in the settings, turn off recirculation, and select the defrost vents along with the panel vents or floor vents. Selecting the defrost vents by themselves causes the AC to run for dehumidification.
All tests were performed on my 2020 Bolt EV. I believe most of these results also apply to 2022–2023 Bolt EVs and to the EUV. Unless otherwise stated, tests were performed with the OEM ACDelco filter, and climate settings were set manually.
Particulate Filtration
Filtration tests were performed using smoke as the challenge material. Particle concentrations were measured with Plantower PMS5003 and PMS7003 sensors.
I tested a lightly used ACDelco CF185 cabin air filter (GM part # 13508023). First I tested the filter outside of the car to ascertain the performance of the filter itself, independent of the car's climate system. These tests were performed at a low air velocity, under 0.4 m/s. For particles in the 0.3–0.5 μm range, the particle number concentration was reduced by 57% (±5%) in a single pass. The PM2.5 particle mass concentration was reduced by 60% (±5%) in a single pass. Testing inside the car with recirculation turned off, the particle mass concentration was reduced by 60% relative to outside air. With recirculation turned on, the particle mass concentration was brought to 0 μg/m^3 within 1–3 minutes, depending on the fan speed and the starting concentration.
The ACDelco filter's performance is good, but not great. If you are driving through highly polluted air, recirculation mode is the only way to get very clean air with this filter. But as I'll explain later, recirculation mode doesn't bring in any fresh air.
I tested an aftermarket Bosch 6091C "HEPA" cabin air filter in new condition. Bosch claims 99.97% filtration efficiency for 0.3 μm particles at a 5.33 cm/s air velocity, but that is not a believable performance statistic, and 5.33 cm/s is an unrealistically low air velocity. While the filter does not perform to a HEPA standard, the performance is very good for a cabin air filter. Testing the filter outside of the the car at a low air velocity (under 0.4 m/s), for particles in the 0.3–0.5 μm range, the particle number concentration was reduced by 98.5% (±0.5%) in a single pass, and particles larger than 1.0 μm were 100% removed. The PM2.5 particle mass concentration was reduced by >98.5% in a single pass. Tested inside the car with recirculation turned off, particles in the 0.3–0.5 μm range were reduced in number by 90–95% (depending on fan speed) relative to outside air, and PM2.5 particle mass concentrations were reduced by >95% at all fan speeds. The air velocity at the panel vents was reduced by just 5–11%, depending on fan speed, relative to the OEM ACDelco filter.
The Bosch 6091C filter is very effective at cleaning particulates from the air, and allows you to have fresh, clean air with recirculation turned off. It's not expensive, either. I highly recommend it for anyone subjected to high outdoor PM2.5 levels. With wildfires having become more common in recent years, most of the country will be subjected to wildfire smoke at some time or another.
When should I replace my cabin air filter?
Electrostatically charged filter media like in the ACDelco and Bosch filters loses filtration efficiency as it becomes loaded with particles, and all types of air filters eventually become clogged with dust, impeding the airflow. How many miles you can drive before the filter needs replacing varies greatly depending on how polluted the outside air is. My advice is to visually inspect the filter for dust, debris, and discoloration. I've used instruments to measure worn filters, and in my observation, when the filter is a dingy grey instead of its original white, it's time to replace it. When it's off-white or a very light grey, it still has significant life left.
CO2 Levels
I measured CO2 levels using a dual-channel non-dispersive infrared CO2 sensor. Outdoor air measured around 420 ppm at the time of these tests. The two-occupant tests and the four-occupant recirculation test were performed in a car moving at highway speeds, and the other tests were performed in a stationary car. Air delivery was set to just the panel vents. The CO2 sensor was placed at head-height between the front two seats with the vents aimed away from the sensor. The table below shows the steady state CO2 levels reached after some time with different numbers of occupants in the car and different climate system settings.
Steady state CO2 concentrations, ppm:
| Mode ↓ Occupants → | 1 | 2 | 3 | 4 |
|---|---|---|---|---|
| Recirculation on | >2000 | 2200 | 4370 | |
| Recirc. off, fan speed 1 | 610 | 1020 | ||
| Recirc. off, fan speed 2 | 570 | 760 | 950 | 1500 |
| Recirc. off, fan speed 3 | 560 | 710 | 790 | 1140 |
| Recirc. off, fan speed 4 | 640 | 980 | ||
| Recirc. off, fan speed 5 | 920 |
With 2 occupants in a moving car and recirculation turned off, the CO2 concentration steadily rose, reaching 2000 ppm after 20 minutes, and settling around 2200 ppm 5 minutes after that. With 2 occupants in a moving car and the climate system turned off entirely, the CO2 concentration rose just as quickly and settled at the same 2200 ppm as with recirculation turned on. The car is not airtight. Fresh air slowly leaks into the car regardless of the climate system settings, but that leakage is insufficient to counteract the breathing of the occupants.
Poor ventilation has been associated with headaches, sleepiness, and difficulty in thinking clearly. Here I use the CO2 measurements as a proxy for ventilation with outside air. ASHRAE standard 62.1-2022, for example, recommends office space at the default occupant density be ventilated with outdoor air at a minimum rate of 8.5 L/s·person. That rate of ventilation causes an inside air CO2 concentration of about 1000 ppm, assuming 420 ppm CO2 outside and 0.31 L/min of CO2 from each occupant.
To maintain that level of ventilation and keep the CO2 concentration below 1000 ppm, turn off recirculation and set the fan speed to the same number as the number of occupants in the car. With 4 people in the car, a fan speed of 8 would be needed to keep the CO2 concentration below 800 ppm.
High CO2 levels have been associated with impaired decision making in some studies, even when ventilation was otherwise sufficient. I'm not aware of any tests on driving performance and CO2 concentrations, but one study showed that pilots were more likely to fail a flight exam in a high CO2 environment.
Airflow
I measured air velocity with a rotating vane anemometer at the two center instrument panel vents, with all other vents closed or turned off. The table below shows the air velocity with recirculation mode turned off. Air velocities were 2–5% higher with recirculation turned on.
Air velocity, ft/min:
| Fan speed ↓ Air filter → | ACDelco CF185 | Bosch 6091C |
|---|---|---|
| 1 | 661 | 588 |
| 2 | 970 | 899 |
| 3 | 1242 | 1159 |
| 4 | 1570 | 1433 |
| 5 | 1789 | 1706 |
| 6 | 2007 | 1925 |
| 7 | 2208 | 2151 |
| 8 | 2464 | 2350 |
For the same fan speed, the Bosch filter had 5–11% lower air velocity than the ACDelco filter.
Air Delivery Mode Table
| Air delivery mode | Recirculation available? | AC runs on its own?* |
|---|---|---|
| Panel | yes | no |
| Panel+floor | yes | no |
| Panel+floor+defrost | yes | yes, if recirculation is on |
| Panel+defrost | no | no |
| Floor | no | no |
| Floor+defrost | no | no |
| Defrost | no | yes |
Recirculation Mode
Recirculation only works when the the air delivery is set to just the instrument panel vents, the instrument panel vents plus the floor vents, or all vents: panel, floor, and defrost. Any other combination of vents effectively disables recirculation mode, causing the climate system to use 100% outside air, though the recirculation indicator light remains on. When the vents are set to auto, the behavior of recirculation is unpredictable. Recirculation mode on the 2023 Bolt EUV was tested by gillmj24 and found to have the same dependence on the vent selection.
Recirculation mode uses 100% inside air and 0% outside air. I measured this ratio by using CO2 as a tracer gas and comparing the CO2 concentrations at the output of the panel vents, at the inside air intake behind the dashboard, and outside. After the cabin CO2 concentration had risen to 2000 ppm, the air coming out of the vents measured 2000 ppm while the air at the inside air intake also measured 2000 ppm. Outside air measured 600 ppm for this test (inside a garage). This result was corroborated by a highway driving test with two occupants: CO2 levels rose just as quickly and just as high with recirculation turned on as with the climate system turned off entirely.
Recirculation mode is great when you want to quickly and efficiently heat or cool the cabin, or to avoid the pollution or odors of certain areas. But the lack of fresh air causes CO2 levels to quickly rise. And if recirculation is enabled without the AC for dehumidification, humidity levels can quickly rise, which can cause fogging or frost in cold weather. I recommend using recirculation mode for no longer than 20 minutes at a time. If the outdoor air is badly polluted and your trips are longer than 20 minutes, the Bosch 6091C cabin air filter is a great option, allowing the car to maintain a supply of clean, fresh air indefinitely with recirculation turned off.
Dehumidification
When Auto Defog is turned on in the climate and air quality settings (accessible from the menus on the Infotainment screen), the AC can run for dehumidification even if you haven't turned on the AC using the AC button. I did not test Auto Defog. Auto Defog was turned off for all of my tests.
You can manually turn on the AC and the heat when you want dehumidification without cold air. The AC will run at low power, and the heater power will be adjusted to maintain the temperature you've set.
When air delivery is set to just the defrost vents, the AC runs continuously at low power to dehumidify the air. The AC indicator light remains off in this condition. In my tests, the AC ran continuously on its own even when the cabin humidity was very low and there was no risk of windshield fogging. When the AC is turned off but runs by itself for dehumidification, the heat can also run by itself (depending on how the temperature is set) so the car isn't blowing cold air. Setting the temperature low or turning on the AC stops the heat from running by itself.
Selecting all of the vents and turning on recirculation also causes the AC to run for dehumidification (and also the heat, if the AC is turned off and depending on how the temperature is set).
Aside from that, when I selected the defrost vents along with the panel and/or floor vents, my tests never showed the AC coming on by itself, even when the cabin was very humid and the windshield was fogging. Similarly, when recirculation was turned on and the defrost vents were not selected, I never observed the AC coming on by itself, even when the cabin was very humid and the windshield was fogging.
If your windshield is fogging, I suggest turning off recirculation and selecting the defrost vents along with the panel vents or the floor vents. That will bring in outside air and stop the AC from running on its own. Outside air is usually dryer than inside air, so it can often prevent fogging without the energy penalty of running the AC (and the added heating power to heat the cooled air). If the windshield is still fogging, turn up the fan speed. If it's still fogging, add heat. If it's still fogging, select the defrost vents by themselves.
