Actually, you can remove an item from the middle of a heap without trouble.
The idea is to take the last item in the heap and, starting from the current position (i.e. the position that held the item you deleted), sift it up if the new item is greater than the parent of the old item. If it's not greater than the parent, then sift it down.
That's the procedure for a max heap. For a min heap, of course, you'd reverse the greater and less cases.
Finding an item in a heap is an O(n) operation, but if you already know where it is in the heap, removing it is O(log n).
I published a heap-based priority queue for DevSource a few years back. See A Priority Queue Implementation in C#. It has a
RemoveAt method that does exactly what I described.
Full source is at http://www.mischel.com/pubs/priqueue.zip
Several have asked if it's possible to move up after moving the last node in the heap to replace the deleted node. Consider this heap:
7 8 3
If you delete the node with value 7, the value 3 replaces it:
You now have to move it up to make a valid heap:
The key here is that if the item you're replacing is in a different subtree than the last item in the heap, it's possible that the replacement node will be smaller than the parent of the replaced node.