Fluid application system including electrically-actuated valves and fluid return line

What is claimed is: 1. A fluid application system comprising: a fluid supply line connected to a fluid supply; a plurality of nozzle assemblies connected in fluid communication with the fluid supply line, each nozzle assembly of the plurality of nozzle assemblies including: an inlet connected to the fluid supply line; a nozzle defining a spray outlet; a return line outlet; and an electrically actuated three-way valve fluidly connected between the inlet and each of the spray outlet and the return line outlet, the electrically actuated three-way valve configured to alternately direct fluid from the inlet to the return line outlet and the spray outlet, wherein the electrically actuated three-way valve seals a flow path to the spray outlet when the electrically actuated three-way valve directs fluid from the inlet to the return line outlet; and a return line connected in fluid communication with the return line outlet of each of the plurality of nozzle assemblies and configured to direct fluid from the return line outlet to the fluid supply line. 2. The fluid application system of claim 1 further comprising a flow meter connected to the fluid supply line and configured to measure an amount of fluid flow through the fluid supply line, wherein the return line is fluidly connected to the fluid supply line downstream of the flow meter. 3. The fluid application system of claim 2 further comprising: a tank for holding the fluid; and a pump fluidly connected between the tank and the fluid supply line, wherein the flow meter is fluidly connected between the tank and the pump, and wherein the return line is connected to an inlet of the pump. 4. The fluid application system of claim 1 further comprising a controller connected in communication with the electrically actuated three-way valve of each of the plurality of nozzle assemblies and configured to output an actuation signal to the electrically actuated three-way valve of each of the plurality of nozzle assemblies. 5. The fluid application system of claim 4 , wherein the controller is configured to actuate the electrically actuated three-way valve at a frequency and duty cycle. 6. The fluid application system of claim 5 , further comprising a pressure sensor connected in communication with the controller and configured to sense a pressure in the fluid supply line, wherein the controller is configured to determine a flow rate through the fluid supply line based at least on: the sensed pressure, a value associated with an orifice of the spray outlet, a value associated with an orifice of the return line outlet, and the duty cycle at which the electrically actuated three-way valve of each nozzle assembly is actuated. 7. The fluid application system of claim 4 , wherein each nozzle assembly further comprises a localized controller mounted to the nozzle assembly and connected in communication with the controller and the electrically actuated three-way valve, wherein the localized controller is configured to receive the actuation signal from the controller and modify the actuation signal based on at least one system operating parameter. 8. The fluid application system of claim 4 , wherein the controller is configured to control the electrically actuated three-way valve of each of the plurality of nozzle assemblies independently of one another. 9. The fluid application system of claim 1 , wherein the electrically actuated three-way valve includes: a valve body defining a poppet cavity, a valve inlet providing fluid flow between the inlet and the poppet cavity, a first valve outlet providing fluid flow between the poppet cavity and the spray outlet, and a second valve outlet providing fluid flow between the poppet cavity and the return line outlet; and a poppet disposed within the poppet cavity and moveable between a first position, in which the poppet seals the first valve outlet and permits fluid flow through the second valve outlet, and a second position, in which the poppet seals the second valve outlet and permits fluid flow through the first valve outlet. 10. The fluid application system of claim 1 , wherein the fluid includes at least one of water, a liquid fertilizer, and a pesticide. 11. A seed planting system for dispensing fluid on or adjacent to seeds dispensed from the system, the system comprising: a seed dispenser configured to dispense seeds through at least one of a plurality of seed dispensing outlets and into a furrow; a fluid supply line connected to a fluid supply; a plurality of nozzle assemblies connected in fluid communication with the fluid supply line, each nozzle assembly of the plurality of nozzle assemblies located proximate to a respective one of the plurality of seed dispensing outlets and including: an inlet connected to the fluid supply line; a nozzle defining a spray outlet; a return line outlet; and an electrically actuated three-way valve fluidly connected between the inlet and each of the spray outlet and the return line outlet, the electrically actuated three-way valve configured to alternately direct fluid from the inlet to the return line outlet and the spray outlet to dispense fluid on or adjacent to each seed, wherein the electrically actuated three-way valve seals a flow path to the spray outlet when the electrically actuated three-way valve directs fluid from the inlet to the return line outlet; and a return line connected in fluid communication with the return line outlet of each of the plurality of nozzle assemblies and configured to direct fluid from the return line outlet to the fluid supply line. 12. The seed planting system of claim 11 further comprising: a sensor configured to detect a seed dropping through a tube of the seed dispenser; and a controller connected in communication with the sensor and the electrically actuated three-way valve of each of the plurality of nozzle assemblies, the controller configured to output an actuation signal to the electrically actuated three-way valve of at least one of the plurality of nozzle assemblies in response to the sensor detecting a seed dropping through the seed tube. 13. The seed planting system of claim 12 wherein each nozzle assembly further comprises a localized controller mounted to the nozzle assembly and connected in communication with the controller and the electrically actuated three-way valve, wherein the localized controller is configured to receive the actuation signal from the controller and modify the actuation signal based on at least one system operating parameter. 14. The seed planting system of claim 12 , wherein the controller is configured to control the electrically actuated three-way valve of each of the plurality of nozzle assemblies independently of one another. 15. The seed planting system of claim 11 further comprising a flow meter connected to the fluid supply line and configured to measure an amount of fluid flow through the fluid supply line, wherein the return line is fluidly connected to the fluid supply line downstream of the flow meter. 16. The seed planting system of claim 15 further comprising: a tank for holding the fluid; and a pump fluidly connected between the tank and the fluid supply line, wherein the flow meter is fluidly connected between the tank and the pump, and wherein the return line is connected to an inlet of the pump. 17. The seed planting system of claim 11 , wherein the electrically actuated three-way valve includes: a valve body defining a poppet cavity, a valve inlet providing fluid flow between the inlet and the poppet cavity, a first valve outlet providing fluid f