System and method for coating a substrate

The invention claimed is: 1. A powder coating system, comprising: a feed input configured to receive a powder coating material and to melt the powder coating material into a homogenous fluid of powder coating material; a filament extension atomizer positioned in-line with the feed input, the filament extension atomize configured to receive the melted homogenous fluid of powder coating material and to atomize to homogenous fluid of powder coating material into multiple droplets of powder coating material; a cooling element configured to cool the droplets of powder coating material to a processing temperature that prevents the droplets from agglomerating to each other; and a deposition passage positioned in-line with the filament extension atomizer, the deposition passage configured to direct at least a portion of the cooled droplets towards the substrate. 2. The powder coating system of claim 1 , further including a substrate preparation area configured to treat the substrate before the at least a portion of the cooled droplets are directed towards the substrate. 3. The powder coating system of claim 1 , wherein the feed input is a twin screw apparatus. 4. The powder coating system of claim 1 , wherein the powder coating material is one of a thermoplastic or a thermoset. 5. The powder coating system of claim 1 , wherein the feed input is further configured to receive at least one of a colorant, a stabilizer and an additive, and to mix at least one of the colorant, the stabilizer and the additive into the homogenous fluid of powder coating material. 6. The powder coating system of claim 1 , further including a powder coating droplet size selector configured to exclude powder coating droplets from being directed through the deposition passage towards the substrate based on a physical parameter including at least one of a droplet size and weight. 7. The powder coating system of claim 1 , further including a curing area configured to cure the powder coating material directed towards the substrate into a cohesive layer that extends across the substrate. 8. The powder coating system of claim 1 , further including an electrostatic charging apparatus configured to electrostatically charge the at least a portion of the cooled droplets. 9. The powder coating system of claim 8 , wherein the electrostatically charged at least a portion of the cooled droplets are attracted to the substrate due to an electrostatic potential between the electrostatically charged at least a portion of the cooled droplets and the substrate.