Sciencemadness Discussion Board

A bit of Analytical Chemistry at Home (Analysis of sand)

Texium - 10-6-2015 at 09:14

It's often pointed out that there isn't a lot of analytical chemistry posted on here. I wanted to try a little bit as a sort of side project.
I have a bag of sand in my garage. It's just normal brownish colored sand labeled "Play Sand" that came from Home Depot. A few days ago, I decided to try and see how clean I could get a sample of it by washing it with various chemicals. I also thought it would be fun to attempt to analyze the washes through qualitative tests to determine what the present impurities are.

The sand I started with:
Sand start.jpg - 1.8MB

I started out by filling a 600 mL column with the sand (I had to shove a cotton ball in the bottom because it's not really a chromatography column and doesn't have a sintered disk). Next, I ran distilled water through the sand in the column until all of the small, silty particles that were small enough to pass through the cotton ball were washed out. Then I added 31.5% HCl to the column, pushing out the remaining water, until all of the sand was soaked in it. I let this sit overnight. The next morning, I found that the leachate had a strong yellow coloration, which I assumed to be iron.
Leached sand.jpg - 1.9MB

I began to pull of the HCl leachate. Unsurprisingly, it contained a lot of iron (additionally confirmed with ferrocyanide). Here is a picture of a sample of the leachate:
HCl Leachate.jpg - 1.2MB

After rinsing the iron bearing solution out of the column, it was obvious that the sand had changed color considerably, and was now a light gray color with some black flecks.
Post wash sand.jpg - 1.3MB

Then I decided to try and look for metals other than iron present in the leachate. First, I took a sample of the leachate and added concentrated sodium hydroxide solution to it until nothing more would precipitate, and then added a bit more. I allowed this to settle (wish I had a centrifuge) and then took a sample of the supernatant solution. To this, I added a drop of sodium ferrocyanide solution. There was no precipitate, confirming that there is no significant amount of zinc present. I am now working on cleaning the precipitate, which I will redissolve and further analyze to see if there are other metals present, although I'm thinking right now that iron is the only one there in quantities measurable by me. I will continue to update this thread occasionally with progress.

blogfast25 - 10-6-2015 at 10:09

Zinc was always going to be a bit of a long shot (unless you got the sand from a toxic sludge beach - LOL).

Almost certainly present in your lixiviate will be Na, K, Ca and Mg. With simple means these are harder to detect than you might think. Na can be done with flame test of course but make sure you test your HCl first.

Neutralise the lixiviate to pH 4-5 with strong ammonia to precipitate iron. Filtering then collects all alkali and earth alkali metals.

Split filtrate and treat one part with carbonate to precipitate earth alkalis as carbonates.

The sand itself will almost certainly contain some aluminosilicates.

You can also try and separate out some of the darker stuff by means of 'panning' (assuming it is of different density from the lighter stuff) Test the darker stuff for magnetism.

We definitely need more analytical threads on this forum.



[Edited on 10-6-2015 by blogfast25]

Morgan - 10-6-2015 at 11:12

Maybe a little magnet action could pull out some black sand, but not much of course.
https://www.youtube.com/watch?v=qAulZdFW3x8#t=39s

SimpleChemist-238 - 10-6-2015 at 16:42

I did some thing similar with lime stone that was very red. Nothing interesting in the rock but the sand is cool. The black specs are probably little pieces of obsidian. I bet you could use a similar method to get iron from red clay!

The Chemistry Shack - 11-6-2015 at 18:11

CaCO3 from crushed sea shells is probably a prominent impurity as well. It would be interesting to see how much you could get out of that batch of sand.
Taking the HCl leachate and adding a sulfate salt should precipitate white CaSO4, while the soluble FeSO4 stays in solution.

AJKOER - 16-6-2015 at 08:15

My personal opinion, but I think analysis of your tap water may be a more important use of your resources (recent problems in many areas include high level of nitrates, for example, which is especially toxic to newborns).

Also, knowing that your water is treated with chlorine and the presence of bromides, for example (which can be a source of problematic bromates in the presence of copper pipes), could lead to preventative action to save llives on your part.

But, on the other hand, your gathering this kind of information may not be appreciated by some.

[Edited on 16-6-2015 by AJKOER]