**Particle Sensing** is the act of detecting dust in the air, and characterizing that dust and its potential health effects on those who may breathe it. _(Above photo: A man wearing a mask walks past the skyline of Singapore's business district Credit: Reuters/Edgar Su)_ Why are we concerned about particles? because humans now make more dust than any natural process on earth. [![Screen_Shot_2014-04-16_at_11.49.08_PM.png](https://i.publiclab.org/system/images/photos/000/003/698/medium/Screen_Shot_2014-04-16_at_11.49.08_PM.png)](https://i.publiclab.org/system/images/photos/000/003/698/original/Screen_Shot_2014-04-16_at_11.49.08_PM.png) From [EPA/600/R-95/115](http://ofmpub.epa.gov/eims/eimscomm.getfile?p_download_id=4608) There are four major factors necessary to determining what particles are in the air and addressing the source, particle concentration, particle size, particle type, and particle source. Different particle sensing strategies are useful in determining these factors. ### 1. Particle Concentration Particle concentration is the density of particles in the air. This is usually expressed as mass per volume, i.e. micrograms or milligrams per cubic meter, expressed μg/m3 or mg/m3. ### 2. Particle Size Particles are measured in micrometers (millionths of a meter, or μm), but when talking about particle sizes, the literature speaks of __idealized particles__. Shorthand, such as 'PM10' meaning, particulate matter less than or equal to 10μm in diameter. but by diameter, the literature means "mass median aerodynamic diameter" which is a way of saying particles that fall through the air at the same rate as a perfect sphere of 10μm. [David Mack](publiclab.org/profile/DavidMack) [clarifies](http://publiclab.org/notes/Schroyer/06-26-2014/broadcast-dust-readings-from-a-smartphone#c94340) with summaries of the regulations for PM10 and PM2.5 via [EPA 40 CFR Part 50](http://www.ecfr.gov/cgi-bin/text-idx?tpl=/ecfrbrowse/Title40/40cfr50_main_02.tpl) as summarized in [Air Quality Criteria for Particulate Matter (Final Report, April 1996)](http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=2832): "The 50% cut point refers to the EFFICIENCY at which particles are removed by the selective inlet at the given size. So for PM10, the inlet removes 50% of particles at 10 microns but above 10 microns the removal efficiency increases and below 10 microns removal efficiency declines. Thus the resultant fraction is not a normal distribution (e.g. 50% above and 50% below) but a skewed distribution (see graph below). Also, the rate at which removal efficiency changes is referred to as the cut point SHARPNESS." [![pm.jpg](https://i.publiclab.org/system/images/photos/000/005/166/medium/pm.jpg)](https://i.publiclab.org/system/images/photos/000/005/166/original/pm.jpg) ### 3. Particle Type This can be conducted with a microscope for crystals, and using lab techniques for other types of particles. Mass spectrometry and x-ray spectrometry may also be used. ### 4. Particle Source Usually directional and time-stamped data from multiple points are needed to extrapolate source, along with an understanding of particle type. Researchers speak of two types of emissions that have a blurry line between them, 'process stream' emissions and 'fugitive emissions.' Process stream emissions are inherent to a process, like ash from a fire, and fugitive emissions are ancillary, like the dust kicked up bringing wood to a fire [[EPA 3-2](http://ofmpub.epa.gov/eims/eimscomm.getfile?p_download_id=4608)]. **** ## Particles of Concern There are a lot of problematic dust particles. Generally speaking, particles smaller than 10μm get lodged in the lungs. But shape, material, and the sharpness of the particles matters. For instance, recently broken particles are sharper and more dangerous than dust that's been blowing around a while and been rounded out. [Silica](/wiki/silica) is currently a Public Lab monitoring project. For silica, particles smaller than 5μm are considered the most dangerous. *The family of chemicals that make up Particulate Matter are subdivided into the different regulated pollutants:* [![full-graphic.png](https://i.publiclab.org/system/images/photos/000/005/042/medium/full-graphic.png)](https://i.publiclab.org/system/images/photos/000/005/042/original/full-graphic.png) From [PowerMag/PM2.5: More Than Just Dust](http://www.powermag.com/blog/pm2-5-more-than-just-dust/) **** ## Strategies and Sensors ### Electronic sensors Most electronic sensors are essentially a light that gets interrupted by a particle, with a camera or other optical sensor watching. See more about air quality sensors on the [Air Sensors page](/air-sensors). There are several sensors available for particle sensing; see more in the questions below: [questions:air-sensors] **** ## Dust sampling [questions:dust-sampling] ### Sticky Pads Essentially tape, sticky pads have the advantage of capturing a record of actual particles that can be analyzed later. They can be scanned and digitized for standardized readings. More can be found on the [Sustainable Aggregates ](http://www.sustainableaggregates.com/sourcesofaggregates/landbased/dust/dust_monitoring.htm) website. **** ### EPA Test Methods EPA approved instruments are designated as either a Federal Reference Method (FRM) or Federal Equivalent Methods (FEM). For PM testing, the FRM is typically a manual test method whereby PM is collected on a filter for 24-hours (daily). The mass is determined by gravimetric analysis (weighing the filter before and after sample collection) and the sample volume is calculated based on the air flow rate multiplied by the sample duration. Then the mass concentration (typically in microgram per cubic meter, ug/m3) is calculated as the mass collected divided by the sample volume. The FEMs for PM utilize detectors capable of real time reporting. The air sample volume is usually determined by air flow rate and duration akin to the FRM. However, the mass may be measured by the [beta ray attenuation method (BAM)](http://www.metone.com/particulate.php) or [tapered element oscillation method (TEOM)](http://www.thermoscientific.com/en/product/1405-teom-continuous-ambient-particulate-monitor.html). The complete list of approved instruments for NAAQS evaluating is provided on the EPA [Ambient Monitoring Technology Information Center (AMTIC) web site](http://www.epa.gov/ttn/amtic/criteria.html) ...
Author | Comment | Last activity | Moderation | ||
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jhondue123456 | "https://www.google.com/ " | Read more » | 9 months ago | |||
eustatic | "I did this! " | Read more » | about 3 years ago | |||
wibyepp0083 | "Your honest feedback helps the SmileMakers company to improve its product & services. https://customersurveyz.onl/smilemakerssurvey/ " | Read more » | over 4 years ago | |||
liz | ":point_up: Right on point Jackie, thank you for highlighting the context around agency actions, which seems to also include how much budget the age..." | Read more » | over 4 years ago | |||
jjcreedon | "EPA enforcement in Tonawanda was a direct outcome of the Obama administration. I would suspect that there has been very little (or none?) since the..." | Read more » | over 4 years ago | |||
liz | "Good point @eustatic. The previous examples are from EPA regions 9 and 10 (west coast). However there is also activity (mentioned briefly above) in..." | Read more » | over 4 years ago | |||
Matej | "Amazing!! Thank you @warren and @matthew!! All very helpful! My bigest concern was where to get the mesh with correct hole diameter. The github is ..." | Read more » | over 6 years ago | |||
mathew | "@Matej the most up-to-date information and production files are in the Github repository: https://github.com/publiclab/passive-pm The screen and m..." | Read more » | over 6 years ago | |||
warren | "Hi, @matej - check out this for ways to sort particles by size using an "impactor" - https://publiclab.org/wiki/filter-pm SEM stub info: https://p..." | Read more » | over 6 years ago | |||
Matej | "Hey @matthew! I am trying to build same PPM kit you guys have here. Where did you guys get the sampler stub? I understand that it is the electron m..." | Read more » | over 6 years ago | |||
stevie | "Hi @SimonPyle hope all is well! Wanted to connect you to @tech4gt who is working on a process like this for microscope slide images. Here's a post ..." | Read more » | over 6 years ago | |||
warren | "The MiniVol is a few thousand dollars, i think used: https://publiclab.org/minivol but the samples cost a good bit to process (see page) And the T..." | Read more » | almost 7 years ago | |||
warren | "Interesting!!! " | Read more » | almost 7 years ago | |||
xose | "Just found this on my sunday net random navigation. Laser PM2.5 Air Quality Sensor For Arduino. £50GBP At the core there's this sensor SKU:SEN0177 " | Read more » | almost 7 years ago | |||
warren | "Collecting notes on different sensors here! https://publiclab.org/q/15751 " | Read more » | almost 7 years ago | |||
warren | "Moving some text from the #particle-sensing page by @DavidMack -- thanks, David! Trying to consolidate some scattered info on this across the site ..." | Read more » | almost 7 years ago | |||
warren | "@emmyallyn -- that's a great question which I think we will want to dig deeper into as we make progress on analyzing microscopic photos of dust (se..." | Read more » | almost 7 years ago | |||
emmyallyn | "Just wondering, how did you confirm that the particles that illuminate are silica? Lots of different minerals (based on their anisotropic nature) s..." | Read more » | almost 7 years ago | |||
amirberAgain | "I think they already had a very similar previous publication, but this came up today in one of my Scholar alerts: https://pdfs.semanticscholar.org/..." | Read more » | almost 7 years ago | |||
amirberAgain | ":) OK, Got that now! " | Read more » | almost 7 years ago | |||
stevie | "Ah yes - but good question! There is also an OpenHour tonight at 8pm on Hydrogen Sulfide Monitoring Methods which should be great as well. The par..." | Read more » | almost 7 years ago | |||
amirberAgain | "@stevie any chance you meant to 8pm and not 2pm? https://groups.google.com/forum/#!topic/publiclaboratory/1wnDDulduXs " | Read more » | almost 7 years ago | |||
amirberAgain | "Will try to! " | Read more » | almost 7 years ago | |||
stevie | "Hi there! We're going to be chatting about this on the OpenCall tomorrow at 2pm Central if you're interested in joining on! https://publiclab.org/w..." | Read more » | almost 7 years ago |