To insert an element into a heap, you can place it anywhere and swap it with its parent until the heap constraint is valid again. Swap-with-parent is an operation that keeps the binary tree structure of the heap intact. This means a heap of size N will be represented as an N-cell array, and you can add a new element in logarithmic time.

A binary search tree can be represented as an array of size N using the same representation structure as a heap (children 2n and 2n+1), but inserting an element this way is a lot harder, because unlike the heap constraint, the binary search tree constraint requires rotations to be performed to retrieve a balanced tree. So, either you do manage to keep an N-node tree in an N-cell array at a cost higher than logarithmic, or you waste space by keeping the tree in a larger array (if my memory serves, a red-back tree could waste as much as 50% of your array).

So, a binary search tree in an array is only interesting if the data inside is constant. And if it is, then you don't need the heap structure (children 2n and 2n+1) : you can just sort your array and use binary search.