Wow... Pkeeler and MalFet,
I've been doing all grain for about 15 years, and have always been confused by the chemistry. I mash in at 148-150ish for the light beers and Belgians, and 154-158 for porters and stouts. Always mash out around 170.
Anyway both of you seem to have a real grip on the chemistry here, could you boil down your thinking into a succinct sentence or two that my feeble mind can grasp.
i.e What are the real basics to adhere to and understand?
Like pkeeler said, the mechanics are less important than the outcomes. I really don't understand this stuff terribly well compared to kaiser, menschmachine, and some of the other denizens of the science forum, but my understanding of the punchline is this:
There are many enzymes critical to the conversion of starches to sugars, but when picking a mash temperature and time you are really only trying to manipulate two of them: alpha amylase and beta amylase. (Protein rests add more enzymes to the mix, but they're relatively rare these days.)
Starches are made up of long chains of simple sugars. Alpha and beta amylase both help to break down these large, complex starches (that are useless to yeast) into small, simple sugars (that yeast like to eat). Alpha amylase can break starches apart anywhere in the chain, and as a result produces a wide range of different products: small simple sugars, medium sized dextrins, slightly less large starches, etc. Beta amylase can attack the starches only at the ends can only break off a single maltose molecule from the complex chain. They work much more slowly, but produce a much simpler product. Imagine that you've got a bunch of logs that you need to break up. Alpha amylase is like a guy with an axe hacking the logs into pieces; some pieces will be big, and some pieces will be small. Beta amylase is like a guy with a power sander grinding away on the log from either end; he's only producing small pieces.
You can manipulate these two different enzymes to control your ultimate sugar profile. Alpha amylase stays active throughout all reasonable mash temperatures (say, 148F-158F). Beta amylase, on the other hand, quickly starts dying off as you move into the low 150s. Likewise, a high mash temperature will prioritize alpha amylase activity, which leads to more complex sugars and dextrins, and thus will give you a less fermentable wort appropriate to styles that should have a bit of residual sweetness and full body. A low mash temperature will prioritize beta amylase activity, which leads to more simple maltose, and thus a highly fermentable wort appropriate to styles that should finish very dry.
The last two batches I brewed were a Scottish ale at 158F and a saison at 147. The Scottish ale ended up with lots of dextrins and complex sugars (heavy and sweet), but it only attenuated 65% or so. The saison, on the other hand, has already attenuated 90% and isn't done yet. As a result of all that simple maltose that ended up in the wort, the saison will be dry as a bone.
For more details, check out Kaiser's page that pkeeler linked to. It's extremely good. Palmer's a smart guy too, but I find some of the metaphors that he uses in How to Brew to be pretty incomprehensible. That said, there's a lot of good detail about mash process in there.
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