You don't normally get port listeners running inside an application hosted in Tomcat. You're usually best to keep the two things separated. In the main, web servers aren't meant to run separate threads of execution outside of their control.
You could consider using something like Spring Integration, JBossESB or Apache Camel to receive the messages and process them into a database, file folder (or whatever) that your Tomcat hosted web application then allowed you to manipulate. The ESB container could be hosted in the same JVM process as Tomcat but I wouldn't take that approach myself - I'd have a separate one doing the message processing and another running the webapp.
If you really wanted a "single application" you could consider creating a Java application that kicked off a listener as per the example you have, then started up an embedded version of Tomcat.
If you really really wanted to run it inside Tomcat, as part of web application itself, you could create a class which did the listening and get it loaded into the Application context of the web application. You can do this by adding an instance of it into the appl context within an autoloaded servlet - use
<load-on-startup>1</load-on-startup> within the servlet definition. You'd code the servlet to check if there was already an instance in context before adding a new one (on the off-chance it was ever manually invoked), or go down the Spring container route to manage this object as a singleton.
* EDIT: 20120114T004300Z *
Apache Camel is an example of a routing engine that might be used by an Enterprise Service Bus (ESB) such as Apache ServiceMix which allows multiple applications to interoperate by exchanging messages. You'd only use a fraction of the functionality availability for this app by the sounds of it. For what you're doing you might just be able to use Camel capability embedded in Spring, for example.
In essence, the ESB runs "adapters" (or endpoints) - one types of which would by the socket "listener" you talk about here, or might be watching a folder for files to arrive, or polling a database table for rows to appear, or waiting on a JMS queue, etc. The transport (the means by which the "message" (in your case the HL7 file) arrives becomes abstracted away from the functionality of the application itself. The adapter puts the message onto a channel which can be configure to transform the message en-route. Camel actually ships with a HL7 component which can understand the HL7 file format and unmarshal it into a HL7 model. (It also gives you the listener/adapter you need). You'd then set up routing in the ESB to pass that model into a "consumer" Java class that does whatever you need to do with it.
If you're dealing with "standard" transports, protocols and message types most of the file receipt, parsing, and routing is just handled by declarative configuration of the ESB rather than coding.
Your Tomcat webapp can run completely autonomously to this message handling. As mentioned, there are various deployment options as to how exactly you'd do this - including loading Camel inside a Spring container hosted in Tomcat by your webapp if you want to.
Apologies if this is a bit woffley. Take some time to read around the subject on the web, given that HL7 is a standard you'll probably find a lot of code/components already out there that might save you a lot of time in re-implementing the basic file handling so you can concentrate on the value-add webapp for your friend.