You would only have a problem with blocking I/O if the push of a single message to a client was expected to take a long time. Just having the clients connected does not entail one thread per client. In fact, I am right now writing such a piece of software. You only need as many threads as there are concurrent message pushes going on at a particular point in time. This will normally not be high. Consider the ratio of time needed to push a message against the wait time for a message to arrive. Multiply the number of simultaneous clients with this number and you have your average active thread count.
You'll be maintaining a set of all open output streams, one for each client. They will just be sitting in memory until a message arrives that needs to be pushed to a client. At that point you'll need one thread to handle that one message. If, while the message is being pushed, you want to handle another event and push a message to another client, you'll need a second thread, but as soon as the first push is done, that thread is returned to the pool of available threads.
I can also advise an actor model implementation to coordinate your message pushing. The actor model is the exact match for this problem.