I've used thread local storage for database connections and sometimes for request / response objects. To give two examples, both from a Java webapp environment, but the principles hold.
A web app might consist of a large spread of code that calls various subsystems. Many of these might need to access the database. In my case, I had written each subsystem that required the db to get a db connection from a db pool, use the connection, and return the connection to the pool. Thread-local storage provided a simpler alternative: when the request is created, fetch a db connection from the pool and store it in thread-local storage. Each subsystem then just uses the db connection from thread-local storage, and when the request is completing, it returns the connection to the db pool. This solution had performance advantages, while also not requiring me to pass the db connection through every level: ie my parameter lists remained shorter.
In the same web app, I decided in one remote subsystem that I actually wanted to see the web Request object. So I had either to refactor to pass this object all the way down, which would have involved a lot of parameter passing and refactoring, or I could simply place the object into Thread Local storage, and retrieve it when I wanted it.
In both cases, you could argue that I had messed up the design in the first place, and was just using Thread Local storage to save my bacon. You might have a point. But I could also argue that Thread Local made for cleaner code, while remaining thread-safe.
Of course, I had to be very sure that the things I was putting into Thread Local were indeed one-and-only-one per thread. In the case of a web app, the Request object or a database connection fit this description nicely.