###Introduction
The **Oil Testing Kit** is an open source Do-It-Yourself kit which attempts to make it possible to identify oil pollution by type. This means matching a suspected sample with a known sample of crude oil, motor oil, heating oil, or other petroleum-based contaminant using a homemade fluorescence spectrometer, which measures the color of light emitted by carefully prepared samples when they are illuminated with strong ultraviolet light, as shown above.
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#Collect, Scan, Compare
The process of testing for oils can be described in three overall steps;
1. collecting samples of suspected oil or tar from the ground, and dissolving small amounts in mineral oil so they are transparent
2. illuminating the solutions with ultraviolet light -- presently using a 405 nanometer blue laser -- and recording the light spectrum with a DIY spectrometer
3. comparing the spectrum to those of similarly prepared samples of [known pollutant oils](/notes/warren/05-03-2013/crude-oil-samples-for-purchase-online), as well as a negative control
Here we will discuss and illustrate these steps in depth.
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##Collect
####Locating samples
Originally, we focused on tar balls which were washing up on US Gulf Coast shorelines following the BP oil spill. These ranged from hard black lumps to orange residue. But oil contamination takes many forms, from residue around a street drain, to a sheen or buildup on the surface of the water. Here are some examples:
[](https://i.publiclab.org/system/images/photos/000/005/446/original/4809200807_cdb5f15e1f_b.jpg)[](https://i.publiclab.org/system/images/photos/000/005/447/original/4741795572_a892463f4e_b.jpg)[](https://i.publiclab.org/system/images/photos/000/002/877/original/oil-on-tracks-long-view-3_Weaver_MN.jpg)[](https://i.publiclab.org/system/images/photos/000/005/451/original/IMG_20140714_161104.jpg)
_Left to right: dried oil on rocks in 2010, Louisiana coast [by Cesar Harada CC-BY-NC-SA](https://www.flickr.com/photos/worldworldworld/4809200807/in/set-72157624236184769), oil residue in the ocean in 2010, Louisiana coast [by Cesar Harada CC-BY-NC-SA](https://www.flickr.com/photos/worldworldworld/4741795572/in/set-72157624236184769), Oil tanker leak [on tracks beside Mississippi River](/notes/marlokeno/02-12-2014/cp-rr-oil-tanker-leak-from-red-wing-to-winona-mn-beside-mississippi-river), by @marlokeno, swabbing a street grate by @warren_
####Preparing samples
Use a cotton swab or small brush, dipped in mineral oil, to break up some of the material and dissolve it in a small, square-sided glass jar of mineral or baby oil. Wear gloves before handling suspected pollutants. You may need to rub the sample for a while to get it to dissolve. If it does not dissolve, [there may be more aggressive ways to dissolve it](#Dissolving+samples). Where possible, try not to put too much sand or other stuff in the jar. Save extra samples in glass jars and stored in a cool, dark place, as there may always be an opportunity to test them later with more expensive, official means (see [Validate your results](#Validate+your+results) below).
[](https://i.publiclab.org/system/images/photos/000/003/228/original/IMG_0878.JPG)
Seal the bottle tightly with the cap. You can then gently turn it over a few times to get the residue to dissolve -- it may take some time before the mineral oil takes on a distinct but faint yellowish hue. You may then have to wait for the sediment to settle out. You want the liquid to be quite transparent, with the chunky stuff settled to the bottom.
####Concentration
One big issue is getting the correct concentration of sample dissolved. If it's too little, we may not be able to get it to glow under UV light. Too much and it could be too dark for the light to be visible in the bottle. We recommend a darkness similar to very dilute tea:
[](https://i.publiclab.org/system/images/photos/000/003/233/original/IMG_0886.JPG)
####Labeling
**Label the bottle with the date, time, and location**. If you also give it a unique number, any other information can be kept in a notebook next to that number, such as further notes on the location and its condition. Take a photo of the sample with your label, in the place you found the sample, for context.
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##Scan
Now that your sample is prepared, you may be able to get it to fluoresce by shining an ultraviolet light through it. We have had good results using a blue/UV laser, a 405 nanometer laser which is the same as found in a Blu-Ray player. See [the parts list](#Parts+list) below for where to buy one. Strong UV LEDs can also work, but are not as bright. They are, however, easier to line up with a spectrometer's opening slit.
[](https://i.publiclab.org/system/images/photos/000/003/232/original/IMG_0887.JPG)
Don't look at the laser too much, as it can hurt your eyes, even if you're not pointing it directly at your eye!
Note that the laser will have a purpleish color by itself (as seen in the lead image at the top of the page) -- this is not fluorescence, but just scattering of the laser light. What you're looking for is any other color -- whitish, bluish, greenish -- which is not from the laser, but is produced in the material itself as it's excited by the UV light.
To measure precisely the colors that are being produced, we will use a spectrometer.
####Spectrometry
Colored light is often a blend of different colors. A spectrometer is a device which splits those colors apart, like a prism, and measures the strength of each color. A typical output of a spectrometer looks like this;
[illustration of spectrometer plot]
While there are many ways to use a spectrometer, in this case we can clearly see the laser color, or wavelength, which is only in a narrow range around 405 nanometers, to the left:
[image here]
All the remaining light, to the right of that tall peak, is produced by the excited material in the sample. The **shape of that curve** can be matched against other samples to help us identify what ours is.
####Construct a spectrometer
* different kits, download
* still under development
####Illuminate the sample
* cover it! no room or daylight
* good exposure
* no clipping
####Refine your technique
* same concentration
* take several for each, label them
* smooth your data
* repeat twice through and ensure your same samples are similar (ref. parts & crafts sample)
* concentration is OK?
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##Compare
When identifying an oil, we are hoping to measure the color of fluorescence of the Poly-Aromatic Hydrocarbons (PAHs) in the sample. The best way to identify a sample would be to compare it to a selection of similarly-prepared known reference materials. For example, if you have unknown X, you could compare it to both: A) a **known sample of crude oil** and B) a **known uncontaminated sample of material** (perhaps soil) to see which it matches best.
[](https://i.publiclab.org/system/images/photos/000/005/450/original/x-a-b.png)
Ideally, it should be compared to a range of possible references. For example, if it's possible the sample is heating oil or motor oil, you could compare it to similarly prepared samples of those as well. [Some research has shown](/notes/warren/11-25-2013/poster-on-issues-with-pah-detection-in-fish) that vitamins A and E can produce fluorescence similar to petroleum products.
[](https://i.publiclab.org/system/images/photos/000/004/551/original/tmp_IMG_20140607_140449_2_2-1429490354.jpg)
####Plot your samples
Add all your scans to a set, so they can be viewed together. Your spectrometer [should be calibrated](/wiki/spectral-workbench-calibration) and the very tall peaks from the laser light should align if this has been done correctly.
####Positive and negative controls
Think critically about your testing. How could it have gone wrong? Could you have made mistakes, or is the match you've found between your unknown sample and your references not good enough? Could another material produce the same color spectrum as your suspected contaminant, and fool your test? (See [this research on Vitamins E and A causing such false positives](/notes/warren/11-25-2013/poster-on-issues-with-pah-detection-in-fish)).
####Validate your results
An extra step that may give your work more credibility is to submit a few of your samples for analysis to a lab, or to [use other tests](/notes/warren/01-16-2014/reagent-based-pah-voh-pcb-testing-kits-for-soil-and-water-with-pricing) to confirm your results. Alternatively, if you know other testing has occurred, you can try to extend its results by re-testing the same site or samples, correlating your results with the previous test, and performing your own tests over a larger area or on more sites, or over a longer time span.
####Publish
Ask others to critique your work or help you refine it [on the plots-spectroscopy discussion list](/lists) or by [posting a research note thoroughly describing your results](/post?tags=sampling,oil-testing-kit,spectrometer). Even if your work is not done, it's a great idea to share and solicit feedback on your plan before, during, and after you've done the work. You may be able to build on previous work on the website, and your work will help others who are seeking to perform similar tests.
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###Variations
There are many variations of the process which could be useful. These include:
* collecting samples from a sheen on the surface of the water -- which may be difficult as sheens are extremely thin and spread out
* measuring fluorescence in-situ on the ground, without collecting or concentrating samples in a jar -- which could be difficult as it's very dilute and mixed with other things like water, dirt, or plant matter
Many of these may be future goals of the project, but we are focusing on our primary use case of collecting contaminated soil or residue from the ground, dissolving it in mineral oil, and illuminating it with UV in a spectrometer.
###Dissolving samples
We use mineral oil as it's non-toxic and cheap, and can be purchased in most pharmacies as either mineral oil or "baby oil". However, some samples may be hard enough that they don't dissolve readily, and more aggressive solvents may be able to dissolve these, such as methanol or denatured alcohol. These are not as safe to handle, however, so we advise caution if you attempt this. **Please [post a research note](/post?tags=sampling,oil-testing-kit,spectrometer) if you attempt this, as it is an unexplored area.**
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###Alpha program
We've sent out about 20 prototype "alpha" kits to people around the US to give the oil test kit a try, and refine it to get ready for a bigger release. If you have one **please share what you've done with it** and post any ideas, feedback, complaints, suggestions, questions and modifications you have by using this button:
Post about your alpha oil testing kit
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###Literature review
Giger, Walter, and Max Blumer. "Polycyclic aromatic hydrocarbons in the environment. Isolation and characterization by chromatography, visible, ultraviolet, and mass spectrometry." Analytical chemistry 46.12 (1974): 1663-1671. http://pubs.acs.org/doi/abs/10.1021/ac60348a036
Pharr, Daniel Y., J. Keith McKenzie, and Aaron B. Hickman. "Fingerprinting petroleum contamination using synchronous scanning fluorescence spectroscopy." Groundwater 30.4 (1992): 484-489. http://onlinelibrary.wiley.com/doi/10.1111/j.1745-6584.1992.tb01523.x/abstract
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###Parts list
_In progress: these are links to where you can buy parts to assemble your own oil testing kit_
* Possible upgrade: nail polish bottles, with built-in bottlecap-swabs. An all-in-one, one-use pre-filled with mineral oil! Maybe you break off the swab and throw it away, or maybe it doesn't matter.
* http://www.alibaba.com/product-detail/nail-polish-bottles_862081740.html?s=p
* http://www.alibaba.com/product-detail/10ml-empty-square-nail-polish-bottle_1042482910.html?s=p
* http://www.alibaba.com/product-detail/0-4oz-Art-Nail-Polish-Bottle_674230480.html
* http://www.ebottles.com/showbottles-bottle-1556-kw-ELIQUID_VIALS.htm
* http://www.ebottles.com/showbottles-bottle-1329-gclid-Cj0KEQjwopOeBRC1ndXgnuvx8JYBEiQAq4RPt_MBIoRstpRXJzK66iXV1lbaZ6J7TWOot8oR6wDas7QaAops8P8HAQ-kw-NAIL_POLISH_BOTTLES_WITH_BRUSHES___GLASS.htm
* http://www.freundcontainer.com/french-square-glass-bottles/p/v4225B01/
* 5oz mineral oil (baby oil -- the added fragrance doesn't fluoresce): $3 - http://www.amazon.com/Johnson-Baby-Oil-Kids-Ounce/dp/B000GCJM06/
* an eyedropper: $0.05 0 http://www.sciplus.com/p/CAP-WDROPPER_39038
* a 405nm blue/violet laser pen: $3 http://www.alibaba.com/product-gs/700677050/well_tested_405_nm_blue_laser.html, or http://www.ebay.com/itm/like/350812684726?lpid=82 to buy just one
cuvettes
* 4 flat-sided jars: $0.35 each - http://www.sciplus.com/p/WHITCAP-BOTTLE_48212
* cotton swabs: $0.10
* olive oil test sample: $0.17
* paper instructions (yet to be made)
###Resources
* [Illustrations for the Oil Testing Kit](/wiki/oil-testing-kit-illustrations)