With 16 panels, no. 12, and 14 would be better for the panel you mention. Looking at the second solar string prediction in my post above, you'll see that 8 panels in series will reach ~450Voc around zero F. So, two strings of 8 (written 8S2P) might fry your electronics. Since your winter lows dip below zero, a string of 8 is a no-no. Two parallel strings of 6 or 7 would give you a high, but still safe voltage that won't exceed your electronic's limits. You could even wire 21 panels in 7S3P, because each parallel string would be producing up to 9A of power, so 9A + 9A + 9A =27A. Use the link I provided and plug in your parameters yourself. Playing with the calculator will give you lots of insight into your design.
But, can you afford that much copper wire? That would require 2100 feet total of 10 gauge wire, which is going to cost a pretty penny. But, even just 14 of those panels would be >5500W of power, and you haven't mentioned anything yet about what you actually want to power.
Thoughtful design starts out with an itemized list of what you want to power, and then you select the components to accomplish that goal. Just one parallel string would likely power a house with near normal consumption patterns. Two would be 5500+W. What do you want to power that needs more then 5000W of solar? Making a list first is the single best thing you can do at this point in your design.