The oxy plus is the shit i use. WTF did you get that 35% bag? Looks like alot there?
Food grade is alot cleaner, Med grade even better than that....as there is a couple different ways to produce H202. but anyways this just shows how much of a stoner i AM....i had been down to my local hydro store like 3 days in a row (not real good spending that much time in such a short period) and i didnt want to sound like a complete newbie fucktard cos i already asked the 3 stores if they sell Hydrogen Peroxide, they all said no, so like ONE day before Odlaw told me that oxyplus was H202 i bought that 35% from online..... so on the 5th day i went down and got some oxy plus....as that foodgrade stuff was still in transit....
can someone tell me if Zyme or hygrozyme gather around the root mass and looks like a brown slime, cos thats why i dont use the hygrozyme anymore....even with running near death levels of H202, there is a slight browning on my roots, and this is out of my bubble cloner....im thinking its the Bennies, and now im killing them with the H202???? fucking hydro newb's hahaha
heres the process Skizz---- you know a bit of chemistry dont ya?....this is a C+P but i cleaned it up for others to understand easier,
Formerly, hydrogen peroxide was prepared by the
electrolysis of an aqueous solution of
sulfuric acid or acidic
ammonium bisulfate (NH4HSO4), followed by
hydrolysis of the
peroxodisulfate ((SO4)2)2− that is formed. Today, hydrogen peroxide is manufactured almost exclusively by the
autoxidation of a 2-alkyl anthrahydroquinone (or 2-alkyl-9,10-dihydroxyanthracene) to the corresponding 2-alkyl anthraquinone in the so called
anthraquinone process. Major producers commonly use either the 2-ethyl or the 2-amyl derivative. The cyclic reaction depicted below shows the 2-ethyl derivative, where
2-ethyl-9,10-dihydroxyanthracene (C16H14O2) is oxidized to the corresponding
2-ethylanthraquinone (C16H12O2) and hydrogen peroxide. Most commercial processes achieve this by bubbling compressed air through a solution of the
anthracene, whereby the oxygen present in the air reacts with the labile hydrogen atoms (of the hydroxy group), giving hydrogen peroxide and regenerating the anthraquinone. Hydrogen peroxide is then
extracted and the
anthraquinone derivative is reduced back to the dihydroxy (anthracene) compound using
hydrogen gas in the presence of a metal
catalyst. The cycle then repeats itself
H2 + O2 → H2O2
Thats the old process, In 2008 a new process was created......
Hydrogen peroxide is most commonly available as a solution in water. For consumers, it is usually available from pharmacies at 3 and 6 wt% concentrations. The concentrations are sometimes described in terms of the volume of oxygen gas generated,one milliliter of a 20-volume solution generates twenty milliliters of oxygen gas when completely decomposed.
For laboratory use, 30 wt% solutions are most common. Commercial grades from 70% to 98% are also available, but due to the potential of solutions of >68% hydrogen peroxide to be converted entirely to steam and oxygen (with the temperature of the steam increasing as the concentration increases above 68%) these grades are potentially far more hazardous, and require special care in dedicated storage areas. Buyers must typically submit to inspection by the small number of commercial manufacturers.