A Riemannian manifold $(M, g)$ is said to be an almost Ricci soliton if there exists a complete vector field $X \in \Gamma(TM)$ and a smooth function $\lambda: M \to \mathbb{R}$ such that 
$$\operatorname{Ric} + \frac{1}{2}\mathscr{L}_{X} g = \lambda g$$ When this vector field is the gradient of a smooth function $f: M \to \mathbb{R}$, we say $M$ is a gradient almost Ricci soliton, and this equation becomes:
$$\operatorname{Ric} + \operatorname{Hess}(f) = \lambda g$$
Obviously, any Einstein manifold is a Ricci soliton and hence an almost Ricci soliton (gradient as well, trivially), so these are trivial examples.  
If $M$ satisfies: $$\operatorname{div}({\operatorname{Rm}}) = 0$$
we then say $M$ has harmonic curvature. I think that part of some work I've been doing with some other people shows that any gradient almost Ricci soliton satisfies the property that for any $p \in M$, there is a neighborhood $U_p \ni p$ such that $U_p$ has constant sectional curvature (and is therefore necessarily Einstein). 

As a sanity check, I'm looking for some explicit examples of nontrivial gradient almost Ricci solitons (preferably of dimension $\geq 5$). Can anyone here provide some examples? I'd appreciate any help. Thanks in advance!