We introduce a model, similar to diffusion limited aggregation (DLA), which serves as a
discrete analog of the continuous dynamics of evaporation of thin liquid films. Within
mean field approximation the dynamics of this model, averaged over many realizations of
the growing cluster, reduces to that of the idealized evaporation model in which surface
tension is neglected. However fluctuations beyond the mean field level play an important
role, and we study their effect on the conserved quantities of the idealized evaporation
model. Assuming the cluster to be a fractal, a heuristic approach is developed in order to
explain the distinctive increase of the fractal dimension with the cluster size.