Fluid application systems including pressure dampeners

What is claimed is: 1. A fluid application system comprising: a manifold defining an internal passageway for fluid flow therethrough; and a plurality of nozzle assemblies connected in fluid communication with the internal passageway, wherein each nozzle assembly of the plurality of nozzle assemblies comprises: a body defining a fluid passage; an inlet connected to the manifold for receiving fluid flow into the fluid passage; a spray outlet for discharging fluid from the fluid passage; an electrically actuated valve fluidly connected between the inlet and the spray outlet and configured to control fluid flow through the fluid passage; and a pressure dampener connected in fluid communication with the fluid passage upstream of the electrically actuated valve, wherein the pressure dampener is configured to dampen fluctuations in fluid pressure within the fluid passage. 2. The fluid application system of claim 1 further comprising a controller communicatively connected to the electrically actuated valve of each of the plurality of nozzle assemblies, wherein the controller is configured to control the electrically actuated valves independently of one another. 3. The fluid application system of claim 1 , wherein the pressure dampener of each nozzle assembly comprises a standpipe. 4. The fluid application system of claim 3 , wherein the standpipe is a cylinder. 5. The fluid application system of claim 1 , wherein the pressure dampener of each nozzle assembly is oriented vertically and perpendicular to a travel direction of the fluid application system. 6. The fluid application system of claim 1 , wherein the pressure dampener of each nozzle assembly comprises a sidewall defining a cavity having a volume containing gas therein. 7. The fluid application system of claim 6 , wherein each nozzle assembly further comprises a fluid line defining a fluid passage providing fluid communication between the fluid passage of the nozzle assembly and the cavity of the pressure dampener. 8. 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 manifold defining an internal passageway for fluid flow therethrough; and a plurality of nozzle assemblies connected in fluid communication with the internal passageway, each nozzle assembly of the plurality of nozzle assemblies located proximate to a respective one of the plurality of seed dispensing outlets, wherein each nozzle assembly of the plurality of nozzle assemblies comprises: a body defining a fluid passage; an inlet connected to the manifold for receiving fluid flow into the fluid passage; a spray outlet for discharging fluid from the fluid passage; an electrically actuated valve fluidly connected between the inlet and the spray outlet and configured to control fluid flow through the fluid passage; and a pressure dampener connected in fluid communication with the fluid passage upstream of the electrically actuated valve, wherein the pressure dampener is configured to dampen fluctuations in fluid pressure within the fluid passage. 9. The seed planting system of claim 8 , further comprising a controller communicatively connected to the electrically actuated valve of each of the plurality of nozzle assemblies, wherein the controller is configured to control the electrically actuated valves independently of one another. 10. The seed planting system of claim 8 , wherein the pressure dampener of each nozzle assembly comprises a standpipe. 11. The seed planting system of claim 10 , wherein the standpipe is a cylinder. 12. The seed planting system of claim 8 , wherein the pressure dampener of each nozzle assembly comprises a sidewall defining a cavity having a volume containing gas therein. 13. The seed planting system of claim 12 , wherein the pressure dampener of each nozzle assembly is oriented vertically and perpendicular to a travel direction of the seed planting system. 14. The seed planting system of claim 12 , wherein each nozzle assembly further comprises a fluid line defining a fluid passage providing fluid communication between the fluid passage of the nozzle assembly and the cavity of the pressure dampener. 15. The seed planting system of claim 8 , wherein the seed dispenser includes a seed meter configured to dispense seeds into the furrow at a seed frequency. 16. A nozzle assembly for use with a fluid application system, the nozzle assembly comprising: a body defining a fluid passage; an inlet for receiving fluid flow into the fluid passage; a spray outlet for discharging fluid from the fluid passage; an electrically actuated valve fluidly connected between the inlet and the spray outlet and configured to control fluid flow through the fluid passage; and a pressure dampener connected in fluid communication with the fluid passage upstream of the electrically actuated valve, wherein the pressure dampener is configured to dampen fluctuations in fluid pressure within the fluid passage. 17. The nozzle assembly of claim 16 , wherein the pressure dampener comprises a sidewall defining a cavity having a volume containing gas therein. 18. The nozzle assembly of claim 17 further comprising a fluid line defining a fluid passage providing fluid communication between the fluid passage defined by the nozzle assembly body and the cavity of the pressure dampener. 19. The nozzle assembly of claim 16 , wherein the pressure dampener comprises a standpipe. 20. The nozzle assembly of claim 19 , wherein the standpipe is a cylinder.