There's very little difference between a Pratt parser and the so-called "shunting yard" parser (which has a much longer Wikipedia article attached); the main difference is that Pratt uses recursion and hence the stack, while Djikstra (the "shunting yard") keeps an explicit stack. Other than that, they do exactly the same sequence of operations. I suppose that Djikstra's expression of the algorithm is more common because of recursophobia.
There are some advantages to using the program stack; one of them is that it's easier to maintain type safety, since the entire stack doesn't have to be one type. On the other hand, many expression parsers only have one type.
The Dragon Book includes an algorthm which will generate an operator precedence table from a grammar. As it points out, the fact that the algorithm succeeds does not necessarily imply that the operator precedence parser will parse exactly the same language. There's more interesting information there which I've certainly forgotten; if you're interested in the algorithm, that's one of the places you could look. It includes the interesting insight that the < and > precendence relationship operators can be generated by looking at a derivation, if you surround the result of a production with < and > in the obvious way.
On the whole, my experience is that most of the time when you find a blog post saying "My God, I've just stumbled upon X and it's great and why don't more people know about it????", the answer is "Please don't assume that your ignorance is universal." But maybe I'm just in a cynical mood today.
By the way, the
Lua parser is a hand-built recursive descent parser which uses Pratt style parsing to parse expressions; that's a pretty common technique, I think, and you'll probably find it in other places, although you might have to winnow through the code to see the pattern.