The wheel is basically a hashtable with separate chaining whose hash function is 'time to notification'. The separate chaining is implemented as an unbounded ordered set, so a wheel can practically hold unlimited number of timeouts.
If you schedule a timeout that times out in a distant future (i.e. large delay), the large delay will be divided by
wheelSize * tickDuration, and use its remainder as the hash of the timeout. Therefore, the current slot in a wheel can hold both the timeouts that will expire within the next
tickDuration and the timeouts that will expire in
(tickDuration * wheelSize * n) ms, where the variable
n will decrease as the timer thread iterates over the wheel. The latter will cost some CPU time when the timer thread visits the slot because it's not really their turn to get expired. (This is similar to collisions in traditional hashtables). To reduce the chance of the collisions, you can increase the size of the wheel.
For example, if you are sure most timeouts scheduled are going to expire within a minute, you can make
wheelSize * tickDuration a minute (e.g. 600 slots * 100 ms).
For the detailed information about hashed wheels, please read this.