Multiple head dosing arm device, system and method

What is claimed is: 1. A doser for dispensing a cryogenic fluid comprising: a. a doser body configured to receive the cryogenic fluid; b. a dosing arm having a proximal end and a distal end, said dosing arm having a central passage extending between the proximal and distal ends and configured to receive cryogenic fluid from the doser body; c. a plurality of dosing heads with a first one of the plurality of dosing heads individually mounted to the distal end of the dosing arm and a second one of the plurality of dosing heads individually mounted to a branch arm and each of the plurality of dosing heads including a dosing valve and configured to receive cryogenic fluid from the central passage of the dosing arm and to dispense the cryogenic fluid when the dosing valve is opened; d. said branch arm including a branch arm proximal end mounted to the dosing arm, a branch arm distal end individually mounted to the at least second one of the plurality of dosing heads and an elbow positioned between the branch arm proximal end and the branch arm distal end; wherein the distal end of the branch arm extends beyond the distal end of the dosing arm in a direction from the distal end of the dosing arm, wherein the direction is parallel to a longitudinal axis of the dosing arm and perpendicular to a dispensing direction of the plurality of dosing heads. 2. The doser of claim 1 wherein the proximal end of the dosing arm is removably attached to the doser body. 3. The doser of claim 2 further comprising a bayonet connection removably connecting the proximal end of the dosing arm to the doser body. 4. The doser of claim 2 wherein the dosing arm proximal end includes a female bayonet connector. 5. The doser of claim 2 further comprising an outlet fitting in fluid communication with the doser body, said outlet fitting provided with a male bayonet connector having an insertion stem removably positioned within the central passage of the dosing arm. 6. The doser of claim 1 wherein the doser body includes a doser body outer jacket and an inner tank positioned within the doser body outer jacket so that a doser body insulation space is defined therebetween, said space evacuated of air. 7. The doser of claim 1 wherein the cryogenic fluid is liquid nitrogen. 8. The doser of claim 1 wherein the dosing arm is insulated. 9. The doser of claim 1 wherein the proximal end of the dosing arm is fixedly attached to a side of the dosing body. 10. The doser of claim 1 wherein the proximal end of the dosing arm is fixedly secured to a bottom of the dosing body. 11. The doser of claim 1 further comprising a plurality of actuators with one of the plurality of actuators for each dosing valve for independently opening and closing the plurality of dosing valves. 12. The doser of claim 1 further comprising a plurality of branch arms individually mounting the plurality of dosing heads to the dosing arm so that the plurality of dosing heads each receives cryogenic fluid in parallel. 13. The doser of claim 1 wherein the branch arm is mounted to the dosing arm at an angle less than 90 degrees. 14. The doser of claim 1 wherein the elbow forms an angle of greater than 90 degrees. 15. A dosing arm device comprising a dosing arm including a proximal end and a distal end and a central passage extending between the proximal and distal ends that is configured to receive a cryogenic fluid and a plurality of dosing heads, a first one of said plurality of dosing heads individually mounted to the distal end of the dosing arm and a second one of the plurality of dosing heads individually mounted to the dosing arm by a branch arm and each of the plurality of dosing heads including a dosing valve and configured to receive cryogenic fluid from the central passage and to dispense the cryogenic fluid when the dosing valve is opened, said branch arm including a branch arm proximal end mounted to the dosing arm, a branch arm distal end individually mounted to the second one of the plurality of dosing heads and an elbow positioned between the branch arm proximal end and the branch arm distal end; wherein the distal end of the branch arm extends beyond the distal end of the dosing arm in a direction from the distal end of the dosing arm, wherein the direction is parallel to a longitudinal axis of the dosing arm and perpendicular to a dispensing direction of the plurality of dosing heads. 16. The dosing arm device of claim 15 further comprising: a. a dosing arm outer jacket; b. a dosing arm inner pipe positioned within the dosing arm outer jacket and having the central passage; c. a sleeve connected to the dosing arm outer jacket and inner pipe at a proximal end of the dosing arm so that a sealed annular space is defined between the dosing arm outer jacket and the inner pipe, said annular space evacuated of air. 17. The dosing arm device of claim 15 further comprising a plurality of branch arms individually mounting the plurality of dosing heads to the dosing arm so that the plurality of dosing heads each receives cryogenic fluid in parallel. 18. The dosing arm device of claim 15 wherein the branch arm is mounted to the dosing arm at an angle less than 90 degrees.