Work vehicle sprayer system and method with switching nozzle apparatus

What is claimed is: 1. A nozzle apparatus for a sprayer system configured to distribute a primary fluid, the nozzle apparatus comprising: a manifold defining a plurality of manifold faces and a nozzle cavity within an interior of the manifold, wherein the manifold defines a fluid inlet passage extending between a first face of the manifold faces and the nozzle cavity, a fluid outlet passage extending between a second face of the manifold faces and the nozzle cavity, an air outlet passage extending between a third face of the manifold faces and the nozzle cavity, and an air inlet passage extending between an air inlet on at least one of the manifold faces and the nozzle cavity, and wherein the fluid inlet passage is configured to selectively receive the primary fluid and the air inlet passage is configured to selectively receive a flow of air; a nozzle holder arranged within the nozzle cavity; and at least one nozzle element mounted to or within the nozzle holder and defining a nozzle element passage with a nozzle element inlet and a nozzle element outlet, wherein the nozzle holder is selectively pivotable within the nozzle cavity, including between a nominal position and a cleaning position, wherein, in the nominal position, the nozzle element inlet is oriented toward the fluid inlet passage and the nozzle element outlet is oriented toward the fluid outlet passage such that the primary fluid flows through the fluid inlet passage, through the nozzle element passage, and out of the nozzle element outlet through the fluid outlet passage, and wherein, in the cleaning position, the nozzle element inlet is oriented toward the air outlet passage and the nozzle element outlet is oriented toward the air inlet passage such that the flow of air is directed through the air inlet passage, through the nozzle element, and out of the air outlet passage to direct debris from the nozzle element passage out through the air outlet passage. 2. The nozzle apparatus of claim 1 , further comprising a motor coupled to the nozzle holder and configured to move the nozzle holder between the nominal position and the cleaning position. 3. The nozzle apparatus of claim 2 , wherein an orientation of the nozzle holder when in the cleaning position is offset 90° relative to the nominal position. 4. The nozzle apparatus of claim 2 , further comprising a nozzle retainer positioned within the nozzle holder to retain the at least one nozzle element, the nozzle retainer defining at least one nozzle retainer flow passage aligned with the nozzle element passage to define at least a portion of an internal partial flow path within the nozzle holder. 5. The nozzle apparatus of claim 4 , wherein the internal partial flow path is pivoted with the nozzle holder by the motor. 6. The nozzle apparatus of claim 5 , wherein the nozzle holder has a cylindrical shape. 7. The nozzle apparatus of claim 6 , further comprising an inlet plate mounted at least partially within the fluid inlet passage of the manifold. 8. The nozzle apparatus of claim 7 , wherein the inlet plate includes an inlet plate adapter extending into the interior of the manifold. 9. The nozzle apparatus of claim 8 , wherein the inlet plate adapter has curved edges. 10. The nozzle apparatus of claim 1 , further comprising a support plate mounted to the manifold, the support plate forming at least a portion of the air inlet passage. 11. The nozzle apparatus of claim 10 , further comprising a motor mounted to the support plate and including a drive shaft coupled to the nozzle holder such that the motor is configured to drive the nozzle holder between the nominal position and the cleaning position. 12. The nozzle apparatus of claim 11 , wherein the nozzle holder is further selectively pivotable within the nozzle cavity by the motor to a second cleaning position, and wherein, in the second cleaning position, the nozzle element outlet is oriented toward the fluid inlet passage and the nozzle element inlet is oriented toward the fluid outlet passage such that the primary fluid is directed through the fluid inlet passage, from the nozzle element nozzle element outlet to the nozzle element inlet, and out of the nozzle apparatus through the fluid outlet passage. 13. A sprayer system, comprising: a fluid source configured to supply a primary fluid; and at least one nozzle apparatus fluidly coupled to the fluid source and configured to disperse the primary fluid over a geographical area; wherein the at least one nozzle apparatus comprises: a manifold defining a plurality of manifold faces and a nozzle cavity within an interior of the manifold, wherein the manifold defines a fluid inlet passage extending between a first face of the manifold faces and the nozzle cavity, a fluid outlet passage extending between a second face of the manifold faces and the nozzle cavity, an air outlet passage extending between a third face of the manifold faces and the nozzle cavity, and an air inlet passage extending between an air inlet on at least one of the manifold faces and the nozzle cavity, and wherein the fluid inlet passage is configured to selectively receive the primary fluid and the air inlet passage is configured to selectively receive a flow of air; a nozzle holder arranged within the nozzle cavity; and at least one nozzle element mounted to or within the nozzle holder and defining a nozzle element passage with a nozzle element inlet and a nozzle element outlet, and wherein the nozzle holder is selectively pivotable within the nozzle cavity, including between a nominal position and a cleaning position, wherein, in the nominal position, the nozzle element inlet is oriented toward the fluid inlet passage and the nozzle element outlet is oriented toward the fluid outlet passage such that the primary fluid flows through the fluid inlet passage, through the nozzle element passage, and out of the nozzle element outlet through the fluid outlet passage, and wherein, in the cleaning position, the nozzle element inlet is oriented toward the air outlet passage and the nozzle element outlet is oriented toward the air inlet passage such that the flow of air is directed through the air inlet passage, through the nozzle element, and out of the air outlet passage to direct debris from the nozzle element passage out through the air outlet passage. 14. The sprayer system of claim 13 , further comprising a motor coupled to the nozzle holder and configured to move the nozzle holder between the nominal position and the cleaning position. 15. The sprayer system of claim 14 , wherein an orientation of the nozzle holder when in the cleaning position is offset 90° relative to the nominal position. 16. The sprayer system of claim 14 , further comprising a nozzle retainer positioned within the nozzle holder to retain the at least one nozzle element, the nozzle retainer defining at least one nozzle retainer flow passage aligned with the nozzle element passage to define at least a portion of an internal partial flow path within the nozzle holder, and wherein the internal partial flow path is pivoted with the nozzle holder by the motor. 17. The sprayer system of claim 16 , further comprising an inlet plate mounted at least partially within the fluid inlet passage of the manifold. 18. The sprayer system of claim 17 , wherein the inlet plate includes an inlet plate adapter extending into the interior of the manifold, wherein the nozzle holder has a cylindrical shape, and wherein the inlet plate adapter has curved edges. 19. The sprayer system of claim 13 ,