Are there examples of nonKahler complex manifolds with holomorphically trivial canonical bundle?
Yes, you might look at the following paper by J. Fine and D. Panov: http://arxiv.org/abs/0905.3237 


This is covered in Andrei Halanay's answer, but it's worth mentioning the simplest examples, which are primary Kodaira surfaces. For the simplest of these: Take C^2 and quotient by the group generated by these a_k: a_1 : z > z + 1 a_2 : z > z + i a_3 : w > w + z + 1 a_4 : w > w  iz + i (I think this is it.) The quotient group is nonabelian. Here z is the fiber and w the base. 


Any nontrivial principal elliptic bundle $\pi:X \to B$ over a CalabiYau basis is nonKaehler but has trivial canonical bundle (because $\mathcal{K}_X \simeq \pi^*\mathcal{K}_B$). 


There is a reasonably extensive literature on nonKahler CalabiYau threefolds. They are of interest in string theory; see for example http://xxx.lanl.gov/abs/hepth/0301161, as well as http://xxx.lanl.gov/abs/0809.4748 for an analogue of Calabi's conjecture in this context. 


One can ask for nonKähler compact manifolds with holomorphically trivial tangent bundle, and still get many examples. By a result of Wang ( Proc. AMS 5 ), these are quotients of a complex Lie group $G$ by a discrete subgroup $\Gamma$. If the quotient is compact Kähler then $G$ must be abelian. Indeed, every vector subspace of the Lie algebra of $G$ gives rise to a holomorphic differential form on $G/\Gamma$. If $G$ is not abelian then one can choose a subspace not closed under the Lie bracket. The corresponding differential form is clearly not closed, what cannot happen in compact Kähler manifolds. For a thorough study of examples of this kind see this book by Winkelmann. 


More examples are given by nilmanifolds. Barberis, Dotti and Verbitsky proved in Theorem 2.7 in http://www.ams.org/mathscinetgetitem?mr=2496748 that nilmanifolds endowed with invariant complex structures have trivial canonical bundle. See also Cavalcanti and Gualtieri's Theorem 3.1 in http://www.ams.org/mathscinetgetitem?mr=2131642 On the other hand, nontori nilmanifolds never admit a Kaehler structure, because of Benson and Gordon, http://www.ams.org/mathscinetgetitem?mr=976592 , or Hasegawa, http://www.ams.org/mathscinetgetitem?mr=946638 , or ... 

