"Functional" is a bunch of different features, each of which is independently useful, and its found more useful to look at each individually.
Now that I'm familiar with it, any time I can get away with returning an immutable result, I always try to do that, even in an object oriented program. It's easier to reason about the program if you have value-type data.
Functions as First Class Types
Whatever you want to call it, passing around delegates, actions, or functions, is a really handy way to solve a whole class of real world problems, like the "hole in the middle pattern".
Being able to compose functions (for instance turning Action into just an Action is also quite useful in some scenarios.
We should also note Lambda syntax here, because you only get Lambda syntax when you promote functions to first class types. Lambda syntax can be very expressive and concise.
This is a subtle but very powerful construct. It's as powerful as the yield keyword used to create IEnumerable classes in C#. Essentially it's building a state machine for you under the covers, but your logic looks linear.
Lazy Evaluation & Recursion
I put these together because while they're always lumped in as features of functional programming, they've made their way so quickly into otherwise-imperative languages that it's hard to call them functional anymore.
I guess I'm not sure where to put this, but the ability to treat the un-compiled code as an object (and inspect/modify it), such as Lisp S-Expressions, or LINQ Expressions, is, in some ways, the most powerful tool of functional programming. Most new .NET "fluent" interfaces, and DSLs, use a combination of lambda syntax and LINQ Expressions to create some very concise APIs. Not to mention Linq2Sql/Linq2Nhibernate where your C# code is "magically" executed as SQL instead of as C# code.