Your question is apparently not an issue of not knowing how to solve the problem, but rather a question of *"how do I do better than brute force"*.

Though I haven't studied this game in particular, many similar games in the class of "making puzzles fit together" turn out to be combinatoric problems that will always suffer from some nasty worst-case behavior.

If you're new to this topic, there's a heck of a lot of reading about it. Even very simple-seeming games like Minesweeper or Tetris--when looked at in a formal way--do not have (known!) completely generalized solutions that are significantly better than brute force:

http://math.stackexchange.com/questions/39578/simple-real-life-np-hard-problems

One tool that you have in your arsenal is the idea of a "side-structure" of some kind. Just to throw a random example out there (which may not be a good idea) you could store a number on each cell saying how many connected cells it can reach. Each time a piece is added to the board, you could subtract from these numbers to reflect the new reality of the board. Then label each cell of each piece with the number of connected cells it has. This would suddenly give you the ability to "short-cut" your searches. (For instance, you wouldn't have to test any cells which couldn't reach at least 4 other cells, because no pentahex could possibly fit on it!)

The tradeoff though is always in the memory these side structures consume, and the time it takes to keep them up to date. My off-the-cuff example would probably cost more than it saved in the average pentahex game. So whether it's worth it depends on your specific cases.

It's good to be sensitive and informed about these issues, but don't let it stop you from writing the inefficient but "correct" version first...and then seeing where and how you could use an optimization boost.