To compress, you actually need higher information content. You cannot in general compress randomness. Lucky for you, your problem specification allows you to reorder the data. Therefore, you may sort the data, thereby increasing its information content. Then, instead of storing the list of integers, you need only store the smallest and the sequence of first differences. The first differences will be smaller than the numbers themselves, so should fit into fewer bits.
The sorted randomly generated sequence
sorted seq (173 218 257 490 618 638 715 815 856 929 932 996)
number of bits ( 6 6 6 7 7 7 7 7 7 7 7 7)
can be stored as
first diff (173 45 39 233 128 20 77 100 41 73 3 64)
number of bits ( 6 4 4 6 5 3 5 5 4 5 2 5)
Where e.g. 45 is the difference between 173 and 218, the first and second elements. These numbers require 54 bits versus 81 above. If the numbers are fairly dense in the range from which they were drawn, you may see the maximum bits for the first difference be lower than the data enabling you to use a smaller fixed bit-length. If you do not use fixed size, you must also store delimiters or use some other adaptive scheme so you can determine where one number leaves off and the next begins. If your data has a large number of duplicates, as would occur if your numbers are drawn randomly from a relatively small range, you might also look into run length encoding the zeros in the first differences.