_this page is outdated, please see [Silica Monitoring](/wiki/silica-monitoring)._ ##the concern This subsection and its citations are derived from L. J. Bhagia's Non-occupational exposure to silica dust, Indian Journal of Occupational & Environmental Medicine 2012 Sep-Dec; 16(3): 95–100, [available through the NIH](http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3683189/) Silica is a ubiquitous mineral-- most sand is silica-- found in abundance almost everywhere. It has long been known to cause respiratory problems when people are exposed to large quantities, and industrial sources of silica pollution are particularly problematic, and yet not well understood outside of the study of occupational health. Most industrial silica is in the form of the crystal quartz. Freshly crushed quartz particles are sharper and more dangerous than aged quartz [[1](http://ofmpub.epa.gov/eims/eimscomm.getfile?p_download_id=4608),2,3]. The most dangerous particles are those smaller than 5μm in diameter, and while quartz is tough and hard to break into sizes smaller than 10μm, industrial processes can produce an abundance of sub 5μm particles [4,5]. ##Silica Sites of Concern: Frac Sand We're interested in [monitoring particles](/wiki/particle-sensing) of silica, especially around sand mining operations, which have increased to support the fracking industry, a program [supported by the 11th Hour Project](/notes/Shannon/02-18-2014/public-lab-receives-support-from-the-11th-hour-project-for-a-silica-monitoring-pilot-program). You can follow and join in the latest research at Public Lab [here](/tag/silica). Wisconsin is the source of most frac sand, and new mines are opening rapidly. Political pressure has increased the Wisconsin Department of Natural Resources to step up efforts at monitoring particulate matter. Monitoring stations have increased from zero monitors in 2011 [[6](http://dnr.wi.gov/files/PDF/pubs/am/AM407.pdf)] to 13 industrial monitors in 2014, many provided by the industry in question [[7](http://www.wisconsinwatch.org/2013/10/06/frac-sand-health-fears-rise-as-mining-booms-in-wisconsin/)]. Currently only this DNR program and [Dr. Crispin Pierce’s team](http://www.uwec.edu/Watershed/enph/silica) at the University of Wisconsin Eau Claire are monitoring silica PM [[8](“Silica Research” UW Eau Claire. http://www.uwec.edu/Watershed/enph/silica & http://people.uwec.edu/piercech/InitialPM.pdf)]. Dr. Pierce’s team uses both real-time monitoring equipment that costs several thousand dollars and laboratory tests by the Wisconsin State Lab of Hygiene. While laudable, the scale and range of PM sources make it unlikely that these efforts will produce representative PM data for either the complex exposure dynamics around individual mining sites, let alone over the more than 100 frac sand mining sites in Wisconsin. ##Monitoring Challenges Measuring industrial silica contamination is difficult, because silica particles would have to be distinguished from other particles, and categorized by size to find the dangerous particles (≤5 μg). As the EPA says: "Ambient levels are not well quantified for crystalline silica, principally because existing measurement methods, although capable of distinguishing crystalline silica (e.g., X-ray diffraction), were not designed to deal with the large amounts of nonsilica particles in ambient air." [[EPA 1-2, ](http://ofmpub.epa.gov/eims/eimscomm.getfile?p_download_id=4608))] Distinguishing the sources of industrial silica from natural sources of silica, other particulates, and tracing them to their point of origin will be difficult. Complicating this, we can expect three major sources of silica dust from frac sand mining-- dust from excavating and crushing sand, dust from excavation vehicles on unpaved work sites, and dust from work vehicles on paved worksites (EPA 3-3), largely derived from unpaved areas (EPA 3-7). Sand laid for traction on winter ice may account for some roadway emissions (EPA 3-8), and there may also be a minor contribution from silicate ceramics in brake pads of trucks (EPA 3-7). ##Monitoring Strategies ###Linking PM10 to local geology The EPA's suggested strategy is to use an algorithm to link PM10 measurements (all particles roughly 10μg in diameter or less) to site-specific conditions such as the % silica measured using other tests. Some [particulate sensors](/wiki/particle-sensing) could do the PM10 measurements, but characterizing background dust sounds like a hard thing to do and not very diffinitive. Also, The EPA in the very same paper indicates that PM10 cannot be easily correlated to the parent source, because the fracturing of quartz can differ from other constituent minerals, and by the process involved (3-26). Site specific conditions would most likely be determined through lab testing of filter media from respirable dust cyclones using X-ray diffraction to the NIOSH Method 7500 [EPA, Appendix 1-A]. But that method looks inherently expensive, involving turning the filter into a plasma and driving it through silver filter membranes, and then, of course, come X-rays. ### Polarized Microscopy Quartz particles are easily identifiable through counting them on a microscope through a polarized filter [EPA ,Appendix 1-A]. This is a manual method, but this seems very promising as something automatable using machine vision, potentially coupled with [sticky pads.](/wiki/particle-sensing) ###Infrared Need to look here: Pandurangi, R. S.; Seehra, M. S.; Razzaboni, B. L.; Bolsaitis, P. (1990) Surface and bulk infrared modes of crystalline and amorphous silica particles: a study of the relation of surface structure to cytotoxicity of respirable silica. Environ. Health Perspect. 86: 327-336. ####Citations 1. U. S. Environmental Protection Agency. [Ambient levels and noncancer health effects of inhaled crystalline and Amorphous silica: Health issue assessment.](http://ofmpub.epa.gov/eims/eimscomm.getfile?p_download_id=4608) Triangle Park: US EPA; 1996. EPA/600/R-95/115: Chapter 1. 2. Vallyathan V. Generation of oxygen radicals by minerals and its correlation to cytotoxicity. Environ Health Perspect. 1994;102(Suppl 10):111–5. [PMC free article] [PubMed] 3. Vallyathan V, Shi XL, Dalal NS, Irr W, Castrinova V. Generation of free radicals from freshly fractured silica dust. Potential role in acute silica-induced lung injury. Am Rev Respir Dis. 1988;138:1213–9. [PubMed] 4. Bhagia LJ, Parikh DJ, Saiyed HN. Ambient silica monitoring in vicinity of agate industry, Khambhat, India. Indian J Occup Hyg Safety. 2007;1:6–10. 5. Bhagia LJ, Sadhu HG, Parikh DJ, Karnik AB, Saiyed HN. Prevention, Control and Treatment of Silicosis and Silico-Tuberculosis in Agate Industry Report submitted by National Institute of Occupational Health, Ahmedabad to Indian Council of Medical Research and the Ministry of Health and Family welfare, Government of India. 2004 6. Page 2, [“Report to the Natural Resources Board: Silica Study”. 2011: Wisconsin DNR, AM-40.](http://dnr.wi.gov/files/PDF/pubs/am/AM407.pdf) 7. “Frac sand health fears rise as mining booms in Wisconsin.” October 06, 2013: Wisconsin Center for Investigative Journalism. http://www.wisconsinwatch.org/2013/10/06/frac-sand-health-fears-rise-as-mining-booms-in-wisconsin/ 8. “Silica Research” UW Eau Claire. http://www.uwec.edu/Watershed/enph/silica & http://people.uwec.edu/piercech/InitialPM.pdf 9. Pandurangi, R. S.; Seehra, M. S.; Razzaboni, B. L.; Bolsaitis, P. (1990) Surface and bulk infrared modes of crystalline and amorphous silica particles: a study of the relation of surface structure to cytotoxicity of respirable silica. Environ. Health Perspect. 86: 327-336....
Author | Comment | Last activity | Moderation | ||
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mathew | "those would be real cool to see! i would like to do a time-based comparison. can you e-mail them to me? mathew at publiclab thanks! " | Read more » | over 10 years ago | |||
marlokeno | "It's nearly impossible to separate the effects of irrigation hi-cap wells from the silica wash plants. Also, withdrawing large amounts of water for..." | Read more » | over 10 years ago | |||
marlokeno | "Markdown Matthew, outstanding! I have some good aerial shots of the Augusta site from 08/2013, please let me know if they would help your projec..." | Read more » | over 10 years ago | |||
patcoyle | "Nice result, Mathew. " | Read more » | over 10 years ago | |||
jefffalk | "Thanks for the info on the DUSTTRAK. It's good to remember everything comes with advantages and disadvantages. Adjusting for or eliminating humidit..." | Read more » | over 10 years ago | |||
DavidMack | "@jefffalk TSI explains the instrument and its calibration in documents on its web site: http://www.tsi.com/DUSTTRAK-Aerosol-Monitor-8520/ see "th..." | Read more » | over 10 years ago | |||
jefffalk | "After reviewing these posts it became apparent that there are two questions here. One is about "eliminating" humidity, possibly by mechanical means..." | Read more » | over 10 years ago | |||
mathew | "I'll connect with Hank on his Dylos-- we'll see what he's doing. there are a million ways to do this that have already been done-- so yeah, we sh..." | Read more » | over 10 years ago | |||
jefffalk | "Hank Boschen's Dylos monitoring system in Chippewa Falls records readings from a Dylos every 10 minutes and posts to a website. It also includes we..." | Read more » | over 10 years ago | |||
DavidMack | "sorry for the late reply but as you probably discovered as the air sample relative humidity increases, the moisture increasingly interferes with th..." | Read more » | over 10 years ago | |||
jefffalk | "Let's try again. Gravimetric monitors capture particles and allow a weight of those captured to be determined. The distribution of aerodynamic diam..." | Read more » | over 10 years ago | |||
mathew | "I've been operating on the assumption that the EPA/ISO standard = PM2.5. I guess this is an etymology question. which came first: PM2.5 or the EP..." | Read more » | over 10 years ago | |||
jefffalk | "As I understand it PM2.5 implies an aerodynamic diameter of 2.5 microns, straight forward with no "mean" involved. The "mean" enters with the epa ..." | Read more » | over 10 years ago | |||
mathew | "maintenance is an issue-- look at these dylos monitors in China building up particulates http://aqicn.org/faq/2013-10-21/dylos-air-particule-conter..." | Read more » | over 10 years ago | |||
mathew | "@donblair-- the author doesn't seem to understand the terminology in use. The conclusions are based on a misunderstanding of what PM2.5 actually m..." | Read more » | over 10 years ago | |||
mathew | "@donblair-- the author doesn't seem to understand the terminology in use. The conclusions are based on a misunderstanding of what PM2.5 actually m..." | Read more » | over 10 years ago | |||
Jdahlen | "Yes, we're hoping we can get the Ethernet and USB connection to work for the Dusttrak. As for the Dylos, the only information we are able to take o..." | Read more » | over 10 years ago | |||
donblair | "Did you see the article AmySoyka posted about the Dylos? http://publiclab.org/notes/Schroyer/06-26-2014/broadcast-dust-readings-from-a-smartphone#c..." | Read more » | over 10 years ago | |||
donblair | "Did you see the article AmySoyka posted about the Dylos? http://publiclab.org/notes/Schroyer/06-26-2014/broadcast-dust-readings-from-a-smartphone#c..." | Read more » | over 10 years ago | |||
mathew | "Oh Ethernet! Cool that probably isn't too hard to talk to but a computer of some sort will be needed. Serial is great! We can probably get it to t..." | Read more » | over 10 years ago | |||
Jdahlen | "We usually just record the data right after our 24-hour sampling, but the Tech team at UWEC is helping us figure out how to retrieve our continuous..." | Read more » | over 10 years ago | |||
mathew | "How does data come off? USB? Serial? There's got to be something " | Read more » | over 10 years ago | |||
Jdahlen | "Sorry for the late reply, but the Dusttraks and Dylos, to my knowledge, do not have sensor out-ports. If I would be able to see what the connector ..." | Read more » | over 10 years ago | |||
mathew | "yes, they are also optical, like the Dustduino and Speck, but they use lasers instead of focused LEDs. " | Read more » | over 10 years ago |