These are just different scales of representing the frequency spacings of the filters. MFCC uses filters whose center frequencies are spaced along the mel scale, while BFCC will use filters with center frequencies spaced along the bark scale.
The bark scale would simply be represented as:
Bark(f) = 6*ln( (f/600) + sqrt((f/600)^2 + 1)
f is the frequency in Hz.
Though you can use the bark scale to represent the center frequency spacings, research shows that using either mfcc or bfcc to represent feature vectors of an input speech sample has very little effect on ASR systems performance. The industry standard remains MFCC. In fact, I have not heard much of the BFCC.
If the code for the computation of filter coefficients is relatively generic and it takes in center frequencies as an input parameter, then I would say that you are OK. But, it is always best to double-check. Use MATLAB and plot frequency responses and check! You can check the following paper out for a comparison between MFCC, BFCC and uniform scale frequency spacings.
Update 1: The center frequency of a filter is either the arithmetic/geometric mean between the upper and lower cutoff frequencies of a band-pass/band-stop filter.
Also, the reverse equation to solve for
f given the Bark frequencies is not trivial. It will be a quadratic equation that will need to be solved. One way would be to have a table constructed for different values of f and Bark and then do a table lookup. But I have not been able to find any links to the reverse equation.