If your goal truly is only to boot an Android kernel with the RT patch, then it is likely trivial if the architecture of the device running the kernel is supported by the RT patch. For example, x86 is well supported, and I believe ARM is as well.
I use "trivial" in a loose sense; the RT patch may not apply cleanly to an arbitrary kernel with custom (i.e. non-mainline) changes such as the Android kernel, but architectural and lower-level integration into things such as concurrency control can be some of the biggest challenges. The RT patch is generally designed to work with arbitrary drivers, for example--but other problems may exist: the RT patch touches MANY subsystems. On the plus side, a significant amount of the RT patch has actually made it into the upstream kernel, which simplifies the task depending on the forked version the Android kernel is based on.
Assuming that the architecture is supported by the RT patch, it is successfully applied to an Android kernel with conflicts resolved, and boots, your job is still far from complete. Any user space applications such as the UIs that run on top of the JVM must be made aware of timing constraints, etc...
For more information on building application with the RT patch, you can consult this wiki for the RT patch: http://rt.wiki.kernel.org/ (note that at the time of writing this kernel.org is down due to the recent security breach).