a) Per request. It is more scalable and allows physical JDBC connection pooling.
b) Each request will be one transaction. This transaction may span different transactional resources. In this case you are mostly interested for database. For each database a session will be created (assuming the database is accessed within the particular request). At the end of the request cycle either all transactional resources will be committed or none (two phase commit). In a managed environment (application server), the transactional resources are implicitly enlisted to the transaction that is taking place on the current thread when accessed. The user (your application) may interact with this transaction to set boundaries using the JTA api (see UserTransaction).
c) Each newly created Session will receive a connection from a connection pool.
d) At most one hibernate session for each database per JTA transaction
e) Yes. I assume that each Session is actually used to do something with the DB (see the above points). First reason is the natural bottleneck of application server and database server resources (CPU, memory, network). The second reason has to do with database locks (transaction scope) and, a bit indirectly, the used version locking scheme (conversation scope)
When outside the container you have to use a standalone connection pool / JTA implementation. One example is JOTM with XaPool. However, Hibernate has APIs for interaction with stuff like JOTM and C3P0 from what I've seen.