If I understand correctly, the goal is to prevent someone who has physical access to the machine and access to the processes running on it from being able to determine the contents of the document. I don't think that is possible if the "bad guy" is extremely dedicated. He will be able to extract key information necessary to decrypt the document from the process space. As a general rule, if the attacker has physical access, then there is not a lot that can be done.
If the program can match parts of text of a document to known text, then the attacker will be able to observe that and extract the information. Obfuscation of the code may make it harder, but if the information is valuable enough, then the attacker will just work harder.
It seems that it would be better if the server can be run in a secure fashion and limiting physical access as much as possible. There are, of course, still a lot of issues involved (code would need to be audited for malicious code for example since the developers are apparently not trusted) but that at least gets you to a position that has a chance of being defended.
Edit A couple thoughts about encryption in the context of what you are trying to do. If you are using, for example, AES encryption in CBC (cipher block chaining) mode, then it is not possible to decrypt a single word from the document (assuming the document is encrypted as a whole). Each block of cipher text depends on the preceding block. Thus, it would be necessary to decrypt the entire document up to the point of interest. In other words, you would have to decrypt the entire document to search it.
Another encryption possibility would be to use AES in CTR mode. CTR mode generates cipher stream (based on the key and some initialization vector) and XORs that against the plain text to produce the cipher text. In this mode, it is possible to decrypt a portion in the middle of the document without decrypting the previous section. But that is somewhat misleading and a bit of a semantics argument. Even though you don't have to decrypt the preceding section, it is still necessary to generate the cipher stream for the entire document up to the point of interest. And from an attacker's standpoint, that would be the same as decrypting the document since the attacker would have access to the encrypted text (presumably in the situation you describe) and the generated XOR stream, which would yield the plain text.