There's a lot of math behind digital filtering. Sorry, I think it is important to at least understand basic filters (like those used in electronics). If you don't want to go through the basics: best to get an audio graphics equaliser where you can play with the (virtual) sliders. If you want to implement a very specific filter, please read on.
Real time: depends on your computing platform. If this is a small micro (like AVR, Microchip PIC,..) you'll need an efficient algorithm. This is likely a IIR band pass filter. The equivalent of a graphics equaliser consists of multiple band pass filters, all summed together. See http://en.wikipedia.org/wiki/Infinite_impulse_response
A more computing intensive algorithm uses FIR filters. In that case you can also control the phase of the filtered signal. http://en.wikipedia.org/wiki/Finite_impulse_response
If you find an algorithm (i.e. IIR), you'll need to calculate the coefficients. The algorithm is simple, calculating the coefficients is not.
I found a book matching your question: Audio digital signal processing in real time
I browsed through it; it seems to have the right answers.