If you want to mimic Haskell's laziness, you can use the LazyList type found in FSharp.PowerPack.dll. The LazyList.Cons(p,xs) is a pattern match corresponding to p:xs in Haskell. The 'Delayed' in consDelayed is necessary, because the regular LazyList.cons will be too eager and take infinitely (limited by your patience of course) long.
You might also find this question interesting. It's another Haskell prime sieve in F#.
Here's your code in F# (unfortunately rather ugly):
//A lazy stream of numbers, starting from x
let rec numsFrom x = LazyList.consDelayed x (fun () -> numsFrom (x+1I))
let rec sieve = function
| LazyList.Cons(p,xs) ->
LazyList.consDelayed p (fun () ->
xs |> LazyList.filter (fun x -> x%p <> 0I) |> sieve)
| _ -> failwith "This can't happen with infinite lists"
let primes() = sieve (numsFrom 2I)
Example output in FSI:
> primes() |> Seq.take 14 |> Seq.toList;;
Real: 00:00:00.000, CPU: 00:00:00.000, GC gen0: 0, gen1: 0, gen2: 0
val it : System.Numerics.BigInteger list =
[2I; 3I; 5I; 7I; 11I; 13I; 17I; 19I; 23I; 29I; 31I; 37I; 41I; 43I]