Your understanding is incomplete. In Java, an expression could return a value, and it could terminate due to an exception. Similar situations arise in other languages which support exceptions, and more generally. (For instance, in the C language, division by zero causes the current expression evaluation to terminate without returning a value.)
Another explanation is that (according to the JLS), a method invocation expression like
System.err.println("hello") can deliver a notional
void value to its context, and this really means that it is delivering no value.
I don't think this second explanation is sound. We start with an "expression" that is specified as delivering a void value. Then we are argue that since the void value is in reality not a value, the expression is delivering nothing. Finally, we say it is an expression that delivers no value.
A simpler explanation for this example is that an "expression" that delivers "void" is not really an expression in the intuitive sense. Certainly, in Java you cannot use a void-delivering MethodInvocation expression where a non-void-delivering expression is required. And you can't use a non-void-delivering expression as a Statement.
Alternatively, we can stick with the JLS treatment and say that the "void" value really is a value ... even though you can't ever do anything with it. By this argument,
System.err.println("Hi") is returning a value after all.