As starblue mentioned in a comment, "Be aware that this is at best obfuscation, not encryption". And it's probably not even obfuscation.
One property of XOR is that
(Y xor 0) == Y. What this means for your algorithm is that for anyplace in your very big file where there are runs of zeros (which seems pretty likely given the size of the file), your key will show up in the cipher file. Plain as day.
Another nice feature of XOR encrypted stuff is that if someone has both the plaintext and the cipher text, XOR'ing those items together nets you an output that has the key used to perform the cipher repeated over and over. If the person knows that the 2 files are a plaintext/ciphertext pair, they've learned the key which is bad if the key is used for more than one encryption. if the attacker isn't sure if the plaintext and ciphertext are related, they have a pretty good idea after this since the key is a repeated pattern in the output. None of this is a problem with one time pad because each bit of the key is used only once, so one one learns anything new from this attack.
A lot of people make the mistake of assuming that because a one time pad is provably unbreakable, that an XOR encryption might be OK 'if done well' since the fundamental operation performed is the same. The difference is that a one time pad uses each random bit of the key exactly once. So among other things, if the plaintext has a run of zeros, nothing is learned about the key, unlike with a simple fixed-key XOR cipher.
As Bruce Schneier said: "There are two kinds of cryptography in this world: cryptography that will stop your kid sister from reading your files, and cryptography that will stop major governments from reading your files."
An XOR cipher is barely kid sister proof - if even that.