Just do the backwards calculation, you want to know how many days that there are assumed in a year, if 1,000,000,000 seconds gives you 31.69 year.
31.69 = 1,000,000,000 / (Y * 60 * 60 * 24) => Y = 365.228
That sort of hints that if you round to two decimals, then Y = 365.25. And if you test it out you get ~31.688 which rounded to two decimals is 31.69. You can't get closer to the original value of Y, unless you have more data.
Chosing Y = 365.25 makes sense if you follow the rule that every fourth year is a leap year then the average number of days in a year is
365 + 1/4.
However this is not entirely true, as a solar year is slightly shorter than 365.25 days, so the Gregorian Calendar omits three leap days per 400 years. The omitted days fall in years that are multiples of 100 but are not multiples of 400. So 1300, 1400, 1500 are not leap years, but 1600 and 2000 are. So the average number of days in a year is 365 + 1/4 − 1/100 + 1/400 = 365.2425.
The above is only an approximation as it doesn't take leap seconds into account, If you want to be totally accurate, you need an actual interval of dates, and find a table of leap seconds, and take those into account as well.