One simple way would be with broadcasting

(array_2d == row).all(1).sum()
Considering memory efficiency, here's one approach considering each row from array_2d
as an indexing tuple on an ndimensional
grid and assuming positive numbers in the inputs 
dims = np.maximum(array_2d.max(0),row) + 1
array_1d = np.ravel_multi_index(array_2d.T,dims)
row_scalar = np.ravel_multi_index(row,dims)
count = (array_1d==row_scalar).sum()
Here's a post discussing the various aspects related to it.
Note: Using np.count_nonzero
could be much faster to count booleans instead of summation with .sum()
. So, do consider using it for both the above mentioned aproaches.
Here's a quick runtime test 
In [74]: arr = np.random.rand(10000)>0.5
In [75]: %timeit arr.sum()
10000 loops, best of 3: 29.6 µs per loop
In [76]: %timeit np.count_nonzero(arr)
1000000 loops, best of 3: 1.21 µs per loop
numpy
community is much smaller there. CR is better for code style review. I like working code on SO, it makes it easier to test my answer.