You need to split two problems here. First you need to compute the pixel value. This should be a pure function of the scene and the coordinate of the ray you are firing into it. Then you need to write that pixel value to the screen.
So first you want a function:
type Coord = (Int, Int)
raytrace :: Scene -> Coord -> (Coord, Colour)
-- You will see why it returns this pair in a few lines
Then you want to call that function for every pixel in your surface, to get a list of coordinate-colour pairs:
allCoords :: Int -> Int -> [Coord]
allCoords width height = [(x,y) | x <- [0..width], y <- [0..height]]
allPixels :: Scene -> Int -> Int -> [(Coord, Colour)]
allPixels scene w h = map (raytrace scene) (allCoords w h)
And finally put the list of pixels onto the display surface using your "pixel" function.
writeScene :: Surface -> Scene -> Int -> Int -> IO ()
writeScene surface scene w h = mapM_ writePixel (allPixels scene w h)
where writePixel ((x,y),c) = pixel surface x y c
The only thing is, your "pixel" function returns an "IO Bool". I don't know why, so I've ignored it by using "mapM_" rather than "mapM".
This looks like it builds a horribly inefficient list of coordinate-colour pairs and then iterates through it to draw the picture. But in fact, thanks to the lazy nature of Haskell, it actually compiles down to a loop that generates each colour and then calls "pixel" on the result.