std::string is just a normal class1, so the usual rules apply.
If you allocate
std::string objects on the stack, as globals, as class members, ... you don't need to do anything special, when they go out of scope their destructor is called, and it takes care of freeing the memory used for the string automatically.
std::string mystring="Just a string.";
// no need to do anything, mystring goes out of scope and everything is cleaned up automatically
The only case where you have to do something is when you allocate an
std::string on the heap using the
new operator; in that case, as with any object allocated with
new, you have to call
delete to free it.
// for some reason you feel the need to allocate that string on the heap
std::string * mystring= new std::string("Just a string.");
// deallocate it - notice that in the real world you'd use a smart pointer
As implied in the example, in general it's pointless to allocate a
std::string on the heap, and, when you need that, still you should encapsulate such pointer in a smart pointer to avoid even risking memory leaks (in case of exceptions, multiple return paths, ...).
std::string is defined as
typedef std::basic_string<char> string;
so it's a synonym for the instantiation of the
basic_string template class for characters of type
char (this doesn't change anything in the answer, but on SO you must be pedantic even on newbie questions).