System for removing support structure using integrated fluid paths

What is claimed is: 1. A three-dimensional (3D) object printing system comprising: a platen; an ejector head having a first ejector configured to eject a first material towards the platen, a second ejector configured to eject a second material towards the platen, and a third ejector configured to eject a third material towards the platen; a fluid source; a heating device configured to heat the fluid; and a controller operatively connected to the ejector head and the heating device, the controller being configured to (i) operate the first ejector to eject the first material towards the platen to form an object, (ii) operate the second ejector to eject the second material towards the platen to form support for portions of the object, at least one portion of the support having a body with at least one fluid path that enables fluid to flow through the body of the support portion and contact a portion of the support material that formed the support, (iii) operate the third ejector to eject the third material towards the platen to form an inner portion of the support with a dielectric strength that is greater than the dielectric strength of the first material and the dielectric strength of the second material, (iv) operate the heating device to heat the fluid, and (v) connect the fluid source to the at least one fluid path. 2. The system of claim 1 further comprising: an image data source having image data that represents the object and the support; and the controller being further configured to: modify the image data received from the image data source to add the at least one fluid path to the at least one portion of the support; operate the first ejector to form the object using the modified image data; and operate the second ejector to form the support using the modified image data. 3. The system of claim 2 further comprising: a heating device configured to heat the fluid. 4. The system of claim 3 wherein the heating device is configured to heat the fluid before the fluid flows through the at least one fluid path. 5. The system of claim 3 wherein the heating device is a microwave radiator that directs microwave radiation toward the support and the fluid as the fluid flows through the at least one fluid path. 6. The system of claim 5 further comprising: a temperature sensor configured to generate a signal corresponding to a temperature of the fluid; and the controller is operatively connected to the temperature sensor, the controller being further configured to maintain the temperature of the fluid below a predetermined threshold temperature using the signal generated by the temperature sensor. 7. The system of claim 3 wherein the operation of the first ejector using the modified image data and the operation of the second ejector using the modified image data forms a plurality of objects within a block of the second material and forms a plurality of fluid paths through the block of the second material. 8. The system of claim 7 wherein the plurality of objects are positioned in rows and columns within the block of the second material and the plurality of fluid paths are positioned in rows and columns interspersed between the rows and columns of objects in the block of the second material. 9. The system of claim 8 , the controller being further configured to: connect the fluid source to only one row of fluid paths in the block of the second material to release only one row of objects in the block of the second material. 10. The system of claim 9 , the controller being further configured to: connect the fluid source to another row of fluid paths in the block of second material to release only one other row of objects in the block of second material after the release of the only one row of objects. 11. A three-dimensional (3D) object printing system comprising: a platen; an ejector head having a first ejector configured to eject a first material towards the platen, a second ejector configured to eject a second material towards the platen, and a third ejector configured to eject a third material towards the platen; a fluid source; a heating device configured to heat the fluid; and a controller operatively connected to the ejector head and the heating device, the controller being configured to (i) operate the first ejector to eject the first material towards the platen to form an object, (ii) operate the second ejector to eject the second material towards the platen to form support for portions of the object, at least one portion of the support having a body with at least one fluid path, (iii) operate the third ejector to eject the third material towards the platen to form an inner portion of the support with a particle additive that increases a dielectric strength of the third material relative to the dielectric strength of the third material without the particle additive, (iv) operate the heating device to heat the fluid, and (v) connect the fluid source to the at least one fluid path to cause fluid to flow through the body of the support portion and contact a portion of the support material that formed the support. 12. The system of claim 11 further comprising: an image data source having image data that represents the object and the support; and the controller being operatively connected to the image data source to receive image data that represents the object and the support, modify the image data to add the at least one fluid path to the at least one portion of the support, operate the first ejector to form the object using the modified imaged data, and operate the second ejector to form the support using the modified image data. 13. The system of claim 12 further comprising: a heating device configured to heat the fluid. 14. The system of claim 13 wherein the heating device is configured to heat the fluid before the fluid flows through the at least one fluid path. 15. The system of claim 13 wherein the heating device is a microwave radiator configured to direct microwave radiation towards the support and the fluid as the fluid flows through the at least one fluid path. 16. The system of claim 13 further comprising: a temperature sensor configured to generate a signal corresponding to a temperature of the fluid; and the controller being operatively connected to the temperature sensor, the controller being further configured to maintain the temperature of the fluid below a predetermined threshold temperature using the signal from the temperature sensor. 17. The system of claim 13 wherein the operation of the first ejector using the modified image data and the operation of the second ejector using the modified image data forms a plurality of objects within a block of the second material and forms a plurality of fluid paths through the block of the second material. 18. The system of claim 13 wherein the plurality of objects are positioned in rows and columns within the block of the second material and the plurality of fluid paths are positioned in rows and columns interspersed between the rows and columns of objects in the block of the second material. 19. The system of claim 18 , the controller being further configured to: connect the fluid source to only one row of fluid paths in the block of the second material to release only one row of objects in the block of the second material. 20. The system of claim 19 , the controller being further configured to: connect the fluid source to another row of fluid paths in the block of the second material to release only one other ro