System.Drawing.Bitmap is a tiny managed object. It wraps a handle returned by the unmanaged GDI+ api, stored in the private nativeImage field. Finding the bitmap data from that handle is an exercise in needle in the haystack hunting. Nor is that bitmap data in any way compatible with an image file format, only the Bitmap::Save() call can do that, running the required image encoder.
Scratch this idea.
Having memory problems with Bitmap objects is otherwise very common. Far too many programmers ignore that Bitmap inherits IDisposable. You can write a lot of .NET programs and never once call Dispose() or use the using statement and the program runs just fine. The garbage collector keeps them out of trouble. The Bitmap class however is the singular .NET class where that cannot work anymore. The problem is that it is tiny. You can create tens of thousands of them before ever triggering a garbage collection. Not nearly often enough to get the garbage collector to release the unmanaged GDI+ handle. As a result, the program runs very heavy, using lots of unmanaged memory. An OOM crash is very likely when the program runs in 32-bit mode. Or a commit size of gigabytes in 64-bit mode
Before getting lost in Windbg, first carefully review the source code for the program. And verify that you can pair every Bitmap variable with a corresponding Dispose() call or using statement. Watch out of things like assigning a PictureBox.Image property without code that calls the Dispose() method on the previous image. A .NET memory profiler is otherwise the better tool to debug this.