If you need the numerical integration and sympy is not an option. Then you could try something like the following.
For this example it seems quick, but I have a suspicion you may run into problems in general, see how well it does for your use case.Perhaps this possibly imperfect answer will prompt someone to submit something better.

I use the fact that we can do the integrations one after the other, integrating out the y first, to get a function of x, then integrating that.

```
from scipy.integrate import quad
def integrand(x, y):
return (x ** 2 + y ** 2)
def y_integral(x):
# Note scipy will pass args as the second argument
# we can fiddle it to work correctly, but by symmetry we don't need to here.
return quad(integrand, 20, x-2, args=(x))[0]
```

We then use this y_integral function as the result function of the inner integral.

```
res = quad(y_integral, 22, 30)
print res
```

You could wrap this in a function if you use it regularly.