One approach would be to build a small pattern-matching language and to embed it in Haskell.
In your example, a pattern is basically a list of character specifications. Let's define a type of abstract characters the values of which will serve as such specifications,
data AbsChar = Exactly Char | Vowel | Any
together with an "interpreter" that tells us whether a character matches a specification:
(=?) :: AbsChar -> Char -> Bool
Exactly c' =? c = c == c'
Vowel =? c = c `elem` "aeiou"
Any =? c = True
Vowel =? 'x' will produce
Vowel =? 'a' will produce
Then, indeed, a pattern is just a list of abstract characters:
type Pattern = [AbsChar]
Next, we write a function that tests whether the prefix of a string matches a given pattern:
matchesPrefix :: Pattern -> String -> Bool
matchesPrefix  _ = True
matchesPrefix (a : as) (c : cs) = a =? c && matchesPrefix as cs
matchesPrefix _ _ = False
> matchesPrefix [Vowel, Exactly 'v'] "eva"
> matchesPrefix [Vowel, Exactly 'v'] "era"
As we do not want to restrict ourselves to matching prefixes, but rather match anywhere within a word, our next function matches the prefixes of every end segment of a string:
containsMatch :: Pattern -> String -> Bool
containsMatch pat = any (matchesPrefix pat) . tails
It uses the function
tails which can be found in the module
Data.List, but which we can, to make this explanation self-contained, easily define ourselves as well:
tails :: [a] -> [[a]]
tails  = []
tails l@(_ : xs) = l : tails xs
> tails "xabbaua"
Now, finally, the function you were looking for, that selects all strings from a list that contain a matching segment, is written simply as:
select :: Pattern -> [String] -> [String]
select = filter . containsMatch
Let's test it on your example:
> let pat = [Vowel, Exactly 'b', Exactly 'b', Any, Vowel]
> select pat ["xabbaua", "bbbaacv", "ggfeehhaa", "uyyttaccaa", "ibbatb"]