You mentioned you have a few solutions, why not mention them.
Also, this is a very general question, are you looking for a symmetric algorithm or prefer public/private key, or something that uses both?
If you are looking at keeping the key on the server, since IP addresses are small (is this for IPv6, http://en.wikipedia.org/wiki/IPv6) then RSA would be a good choice, as you can then keep the public key on the server but no one can create a new key without the private key.
How will you be using the data? If you are going to decrypt all of them then just keep them in one file, zip it, then encrypt the entire file.
More details would help to narrow this down, as there are a large number of solutions.
But for libraries, in Java, I like BouncyCastle (http://bouncycastle.org/) as they give a large selection and works well if you need to exchange keys with .NET.
Based on the latest update to the question the biggest concern is how to exchange the encryption key.
Since this is being sent to a client, your best bet may be to use something like RSA to help with this. The client would have a private key, and the server would have the public key of each client, so that if one is compromised the entire system isn't. Then, the server generates a symmetric key (AES is fine, I like IDEA), and encrypts that key. Then, you transmit both pieces to the client, the client then decrypts the symmetric key and then the IP address.
This idea was made popular by PGP.
You may want to use BouncyCastle, as I mentioned, so that if your client is written in .NET or Java you can still do the key exchange, since it has APIs for both platforms.
How you get the key to the server, from the client, or vice versa, depends on many factors, but that will be the weak link in this whole system, and so that part needs to be designed carefully.