The voxelation link posted by @Alexandre C. looks good.
Here's a brief overview of how we solved this problem when converting regular quad/triangle models to a cubical array of indices of refraction/epsilon values for a photonics/EM simulation.
- Create a BSP tree of your scene. (Yes, really)
- Iterate at regular intervals over X,Y,Z across your model or solution space. (The interval in each axis should be equal to the desired voxel dimensions.)
At each point in your x/y/z loop, check the point against the BSP tree. If it's inside an entity, create a voxel at that point, and set it's attributes (color, texture coordinates, etc) based on the source model (as referenced from your BSP node).
(Optimization Hint: If your inner-most loop is along the Y axis (vertical axis) and you're creating terrain or an XZ-oriented surface, you can exit the Y loop whenever you create a voxel.)
Building the BSP is the only semi-complicated part (and it's a lot easier than it looks at first glance), but it's been documented out the ying-yang all over the web. This will work for pretty much any model shape, and also gives you a nice tree you can use for collision detection and visibility determination, among other things.
Also, note that this whole process should happen at compile time or using a dedicated tool (which would, obviously, produce a file containing the tree and voxel field that you would use at run time). If you're using XNA, it's pretty easy to import anything into the content pipeline.