There's something I'm trying to figure out. The description in the OP is ambiguous. Did you connect two cells in parallel (2p) 14 times, and then put the 14 2p's in series? Or did you connect 14 cells in series, twice, and then connect the two 14s blocks in parallel? Superficially, it shouldn't make a difference. Practically, it does. I don't have sufficient electrical engineering knowledge to explain why. I've never built batteries for ebikes, but do a lot of portable ham radio operation, and I have been taught by my betters to build voltage first, amp hours second.
So, for instance, if we wanted enough juice to run several radios for Field Day, which would be a 12 volt situation, we might employ used 6 V batteries which are cheap and plentiful. Put together two 6V batteries in series to get 12V, then add groups of 2 until there are enough amp hours to operate the whole event.
If that's what you did, great, and all you can do is figure out why there is so much draw. Cells have a discharge rate. If you've got the right voltage (you do), then amp hours only affect how long it can sustain that current. Why does the draw exceed the cells' discharge rate? There's the rub.