Nozzle for dispensing system

The invention claimed is: 1. A fluid dispensing nozzle comprising: a housing including an outlet to discharge fluid to a surrounding environment; and a nozzle insert disposed in the housing and including an inlet in fluid communication with a source of fluid to receive a fluid flow, a first outlet orifice and a second outlet orifice positioned upstream from the first outlet orifice, wherein the nozzle insert is selectively movable relative to the housing between a first position in which fluid from the inlet is discharged through the outlet at a first flow rate, and a second position in which the fluid from the inlet is discharged through the outlet at a second flow rate larger than the first flow rate, the nozzle insert movable between the first position and the second position independent of the pressure of fluid at the inlet, wherein the first outlet orifice is in fluid communication with the outlet in the first position and the second position, and wherein the second outlet orifice is separately in selective fluid communication with the outlet only in the second position. 2. The fluid dispensing nozzle of claim 1 , wherein the nozzle insert is movable between the first position and the second position in response to an actuating fluid introduced into the housing. 3. The fluid dispensing nozzle of claim 2 , wherein the housing and the nozzle insert cooperatively define a gap, and wherein the actuating fluid is introduced into the gap. 4. The fluid dispensing nozzle of claim 3 , wherein the nozzle insert has a flange positioned adjacent the inlet, and wherein the actuating fluid acts upon the flange to move the nozzle insert between the first position and the second position. 5. The fluid dispensing nozzle of claim 1 , further comprising a bias element coupled to the nozzle insert to bias the nozzle insert toward the first position. 6. The fluid dispensing nozzle of claim 1 , wherein the nozzle insert has a central bore extending from the inlet to the first outlet orifice to define a first flow path through the nozzle insert, and the second outlet orifice defines a second flow path different from the first flow path. 7. The fluid dispensing nozzle of claim 6 , wherein the second outlet orifice is defined by a plurality of openings. 8. The fluid dispensing nozzle of claim 6 , wherein the housing defines an outlet chamber adjacent the outlet, wherein in the first position, fluid is directed along the first flow path through the outlet, and wherein in the second position, fluid is directed along the first flow path and the second flow path through the outlet. 9. The fluid dispensing nozzle of claim 8 , wherein in the first position, an end of the nozzle insert disposed adjacent the first outlet orifice is positioned to contact an interior wall of the housing to impede fluid flow along the second flow path to the outlet. 10. The fluid dispensing nozzle of claim 9 , wherein the end of the nozzle insert is spaced from the interior wall when the nozzle insert is in the second position to permit fluid flow along the second flow path to the outlet. 11. A fluid dispensing nozzle comprising: a housing defining an outlet; and a nozzle insert disposed in the housing and including an inlet positioned to receive a flow of fluid from a fluid source, the nozzle insert selectively movable relative to the housing between a first position in which fluid from the inlet is discharged through the outlet at a first flow rate and a second position in which fluid from the inlet is discharged through the outlet at a second flow rate larger than the first flow rate independent of the pressure of fluid at the inlet, the nozzle insert further including a first outlet orifice in fluid communication with the inlet to discharge fluid from the nozzle insert toward the outlet, and a second outlet orifice positioned upstream of the first outlet orifice and in fluid communication with the inlet to discharge fluid from the nozzle insert, the second outlet orifice separately in selective fluid communication with the outlet, wherein fluid is configured to be discharged from the nozzle insert to the outlet only through the first outlet orifice when the nozzle insert is in the first position, and wherein fluid is configured to be discharged from the nozzle insert to the outlet through the first outlet orifice and the second outlet orifice when the nozzle insert is in the second position. 12. The fluid dispensing nozzle of claim 11 , wherein nozzle insert is defined by an elongated body having a first end defining the inlet and a second end defining the first outlet orifice, and wherein the second outlet orifice is defined in a wall of the elongated body between the first end and the second end. 13. The fluid dispensing nozzle of claim 12 , wherein in the first position, the second end of the nozzle insert is positioned to contact an interior wall of the housing to impede fluid flow from the second outlet orifice to the outlet. 14. The fluid dispensing nozzle of claim 13 , wherein in the second position, the second end of the nozzle insert is spaced from the interior wall to permit fluid flow from the second outlet orifice to the outlet. 15. The fluid dispensing nozzle of claim 11 , wherein the nozzle insert is movable between the first position and the second position in response to an actuating fluid introduced into the housing. 16. The fluid dispensing nozzle of claim 15 , wherein the housing and the nozzle insert cooperatively define a gap, and wherein the actuating fluid is introduced into the gap. 17. The fluid dispensing nozzle of claim 16 , wherein the nozzle insert has a flange positioned adjacent the inlet, and wherein the actuating fluid acts upon the flange to move the nozzle insert between the first position and the second position. 18. A fluid dispensing system comprising: a fluid source; a pipeline coupled to the fluid source and extending from the fluid source to convey fluid from the fluid source; a nozzle coupled to the pipeline, the nozzle including a housing coupled to the pipeline and including an outlet to discharge fluid from the pipeline to a surrounding environment, a nozzle insert disposed in the housing and defining an inlet and a first outlet orifice arranged to dispense fluid from the nozzle insert along a longitudinal axis, the nozzle insert further defining a second outlet orifice positioned upstream of the first outlet orifice, the nozzle insert selectively movable relative to the housing between a first position in which fluid is discharged through the nozzle insert and the outlet at a first flow rate and a second position in which fluid is discharged through the nozzle insert and the outlet at a second flow rate larger than the first flow rate, wherein the nozzle insert movable between the first position and the second position independent of the pressure of fluid at the inlet, wherein the first outlet orifice is in fluid communication with the outlet in the first position and the second position, and wherein the second outlet orifice is separately in selective fluid communication with the outlet only in the second position, wherein the housing and the nozzle insert cooperatively define a gap, and the housing includes a port in communication with the gap and further adapted to be in communication with a source of actuating fluid to selectively vary the position of the nozzle insert within the housing to adjust the flow rate of fluid discharged from the outlet, and wherein a flow rate of fluid entering the nozzle insert through the inlet is subs