I went over the matter at length with a co-worker and we came up with a calculation he seems satisfied, but I am still uneasy
I'm going to try to articulate things a little better now that I am calmer about the whole mess.
The method I am working from was designed for corn syrup. It calls for weighing out 50-100 grams of syrup and adding 100 mL water to dilute. For the titration, 10 mL of the corn syrup solution is transferred to a flask and another 100 mL of water is added. Treat then titrate.
the calculation is given as ppm SO
2 =
Sample titer - blank titer (mL) x Normality Iodide x 0.032 x 10
6sample weight (g)
Of course I'm not working with corn syrup. I have two kinds of samples: various process liquids and corn.
To titrate the process liquids I simply draw off 10 mL and dilute with 100 mL of water. Treat & titrate with 0.02N
For my SO
2 calculation
Sample titer - blank titer (mL) x 0.02N Iodine x 0.032 x 10
610 mL of sample
My understanding is that I do not need to worry about the 100 mL of water because the method only calls for it to make seeing the titration endpoint easierNext is the corn itselfThis time I weigh out 50 grams of steeped corn, add 100 mL water and use a blender to puree it. The mixture has to be centrifuged to separate the solid matter and I pour off the liquid fraction into a beaker. From that beaker I draw 10 mL out and add 100 mL of water as usual. Treat and titrate.
For this, my co-worker has suggested that the calculation be:
Sample titer - blank titer (mL) x 0.02N Iodine x 0.032 x 10
650 grams sample
AND multiply the whole thing by 100/10 = 10
Am I accounting for the initial 100 mL of water and drawing out 10 mL in this case because it is more of an extraction than solution preparation?BTW, Borek, I saw your point about using good glassware and normally I would, but this could eventually become something tested by our quality technicians and no way do they use volumetric glassware.