System and method of distributing airflow in a transport refrigeration unit

What is claimed is: 1. An airflow distribution system for a transport unit, comprising: an airflow distributor configured to form an airflow passage with a roof of the transport unit, the airflow distributor extending in a longitudinal direction of the transport unit, and the airflow distributor having a front end and a back end that are opposite ends of the airflow distributor in the longitudinal direction, wherein the airflow distributor defines a first opening at the front end that allows air to enter the airflow passage and a second opening at the back end that allows air to exit the airflow passage; a mesh material covering the second opening at the back end of the airflow distributor; and a plurality of spacing devices, wherein when the airflow distribution system is installed to the transport unit, air flows in the longitudinal direction through the mesh material from the airflow passage, and longitudinal sides of the airflow distributor are spaced away from the roof of the transport unit by the plurality of spacing devices. 2. The airflow distribution system of claim 1 , wherein the mesh material is configured to incline from the roof of the transport unit in a direction that is away from a back end of the transport unit, when the airflow distribution system is installed to the transport unit. 3. The airflow distribution system of claim 1 , further comprising a mounting bracket; wherein the mounting bracket is configured to couple an end of the airflow distribution system to an airflow exit of a transport refrigeration unit. 4. The airflow distribution system of claim 3 , wherein the mounting bracket includes at least one anchor point for attaching a reference line. 5. The airflow distribution system of claim 1 , wherein the plurality of spacing devices are a plurality of spacers that are positioned between the roof of the transport unit and the airflow distributor. 6. The airflow distribution system of claim 1 , wherein the mesh material is configured to provide a desired back pressure to the airflow passage in operation. 7. The airflow distribution system of claim 1 , wherein the mesh material is configured so that a ratio of an amount of airflow discharged from gaps along the longitudinal sides of the airflow distributor and an amount of the airflow discharged from the mesh material is about 1:1. 8. The airflow distribution system of claim 1 , wherein an airflow permeability of the mesh material is greater than an airflow permeability of a material of the airflow distributor. 9. The airflow distribution system of claim 1 , wherein gaps are formed along each longitudinal side of airflow distributor, each of the gaps defined by one of the longitudinal sides of the airflow distributor, the roof of the transport unit, and two of the plurality of spacing devices. 10. An airflow distribution system for an internal space of a transport unit, the transport unit configured to transport a load in the internal space, the airflow distributor comprising: an airflow distributor extending in a longitudinal direction of the transport unit, the airflow distributor including a first wing section, a second wing section, and a middle section in between the first and second wing sections, wherein when the airflow distribution system is installed in the transport unit, the middle section is configured to be attached to a roof of the transport unit, the first and second wing sections are configured to curve downwardly from the middle section, and the first and second wing sections and the middle section span across a width of the transport unit forming a reversed “U” shape. 11. The airflow distribution system of claim 10 , wherein the airflow distributor has a length in the longitudinal direction of the transport unit, and the length of the airflow distributor is ¼ of a length of the transport unit in the longitudinal direction. 12. The airflow distribution system of claim 10 , wherein when the airflow distribution system is installed in the transport unit, an area between the first and second wing sections and the roof are sealed. 13. An airflow distribution system for a transport unit, comprising: an airflow distributor configured to form an airflow passage with a roof of the transport unit, the airflow distributor extending in a longitudinal direction of the transport unit, and the airflow distributor having a front end and a back end that are opposite ends of the airflow distributor in the longitudinal direction, wherein the airflow distributor defines a first opening at the front end that allows air to enter the airflow passage and a second opening at the back end that allows air to exit the airflow passage; and a mesh material covering the second opening at the back end of the airflow distributor, wherein an airflow permeability of the mesh material is greater than an airflow permeability of a material of the airflow distributor, and wherein when the airflow distribution system is installed in the transport unit, air flows in the longitudinal direction through the mesh material from the airflow passage. 14. The airflow distribution system of claim 13 , wherein the mesh material has a lifted middle portion. 15. The airflow distribution system of claim 13 , wherein the mesh material is configured to incline from the roof of the transport unit in a direction that is away from a back end of the transport unit, when the airflow distribution system is installed to the transport unit. 16. A method of distributing airflow in a transport unit, comprising: receiving airflow from a first end of the transport unit; directing the airflow in an airflow passage formed by an airflow distributor and a roof of the transport unit along a longitudinal direction of the transport unit toward a second end of the transport unit; discharging airflow from a gap along a side of the airflow passage; discharging airflow from an end of the airflow passage in the longitudinal direction through a mesh material; and providing a back pressure to the airflow passage at the end of the airflow passage, so that an amount of airflow discharged from the gap and an amount of airflow discharged from the back end is at a desired ratio. 17. The airflow distribution system of claim 16 , wherein an airflow permeability of the mesh material is greater than an airflow permeability of a material of the airflow distributor.