# Disposal of chemicals [[Home|/home]] ► [[Electronics|/electronics]] ► Disposal of chemicals ___ [[_TOC_]] # Disclaimer I am no where near qualified enough to claim these notes are accurate. When in doubt, take the waste material to your local disposal. # Disposal ## Sodium metasilicate Safe to mix with water and pour down the drain as far as I can find. ## Sodium hydroxide Can be neutralised with an acid, which we should have: ## Ferric chloride Besides deactivating the acid, there's also the issue of the copper dissolved in the spent ferric chloride which is detrimental to the environment. These instructions were found on [[https://wiki.london.hackspace.org.uk/w/index.php?title=Project:Deactivating_a_ferric_chloride_solution&redirect=no]]. I've copied them here in case the site goes down: > **Example** > > A solution that was made with a packet of ferric chloride (FeCl3) crystals weighing 300 grams requires 222 grams of sodium hydroxide (NaOH) to be deactivated. > > After deactivation, the neutralised solution will contain iron hydroxide (Fe(OH)3) which is rust and sodium chloride (NaCl) which is common table salt. > > Both are innocuous and can be poured down the drain. > > **Method** > > Pour the spent ferric chloride solution in a plastic bucket - do not use metal buckets, add about 5 times its volume of water. Dissolve 222 grams of sodium hydroxide in about 3 litres of water. > > In a thin stream, add the sodium hydroxide solution to the ferric chloride and stir. Once it turns rust coloured it is ready to be discarded. > > If not discarded, on standing, the iron hydroxide will separate out at the bottom, while at the top, a crust of copper carbonate (CuCO3) will form due to the copper from etched circuits. > > The iron hydroxide at the bottom is a standard commercial pigment and can be separated off the solution and added to latex paint. > > **In Theory** > > Ferric chloride reacts with sodium hydroxide turning into ferric hydroxide and sodium chloride. > > FeCl3 + 3 NaOH → Fe(OH)3 + 3 NaCl > > The proportions are: > > 1 mole of FeCl3 which is 91,3g reacting with 3 moles of NaOH which is 120g. > > The mass of 1 mole is obtained by adding together the atomic masses obtained from the periodic table of elements: > > Iron (Fe) has the atomic mass of 55.8 (grams/mole) and Chlorine (Cl) has the atomic mass of 35,5 (grams/mole). > > Ferric chloride (FeCl3) will then have the molecular mass of 55.8 * 1 + 35.5 * 3 = 162.3 g/mole. > > To find how many moles are contained in 300 grams of ferric chloride the calculation is 300/162.3 = 1.85 moles of ferric chloride. > > Conversely; Sodium (Na) ~ 23 g/mole, Oxygen (0) ~ 16 g/mole and Hydrogen (H) 1 g/mole totalling 40 grams per mole. > > Each mole of FeCl3 requires 3 moles of NaOH (sodium hydroxide) at 40 grams per mole. > > The weight of Na0H required to deactivate the spent FeCl3 solution is obtained thus: > > 1.85 * 3 = 5.55 moles of NaOH, at 40 g/mole that will be 5.55 * 40 = 222 grams NaOH. An alternative is to mix the ferric chloride with baking soda. Note that this reaction does produce some heat.