Embodiments of the present disclosure include methods of radiant heat rejection, and structures for use in same, where Aluminet® is provided in a roof or an attic of a building structure. The Aluminet® material is installed by providing a structure for the material to breathe, that is, the material
Embodiments of the present disclosure include methods of radiant heat rejection, and structures for use in same, where Aluminet® is provided in a roof or an attic of a building structure. The Aluminet® material is installed by providing a structure for the material to breathe, that is, the material is provided so that an air space surrounds it.
대표청구항▼
1. A method of radiant heat rejection comprising: providing a radiant barrier material in a roof of a building structure along a bottom edge of at least one roof rafter so that a first air space is provided above the radiant barrier material and a second air space is provided below the radiant barri
1. A method of radiant heat rejection comprising: providing a radiant barrier material in a roof of a building structure along a bottom edge of at least one roof rafter so that a first air space is provided above the radiant barrier material and a second air space is provided below the radiant barrier material, wherein the first air space is positioned between the radiant barrier material and a surface of the roof and the second air space is positioned between the radiant barrier material and the at least one roof rafter; andwherein the first air space and the second air space provide for convective air flow that removes heat from the radiant barrier material. 2. The method of claim 1, wherein the radiant barrier material is provided between at least one roof purlin and the at least one roof rafter. 3. The method of claim 2, wherein the radiant barrier material comprises Aluminet®. 4. The method of claim 1, wherein the radiant barrier material comprises Aluminet®. 5. The method of claim 1, wherein the radiant barrier material further comprises a plurality of layers of the radiant barrier material. 6. The method of claim 1, wherein the building structure is selected from a group consisting of: a residential building structure, a commercial building structure, an agricultural building structure, a temporary building structure, and a combination thereof. 7. A building structure for radiant heat rejection comprising: a radiant barrier material comprising Aluminet® in a roof of the building structure, wherein the radiant barrier material is situated so that a first air space is provided above the radiant barrier material and a second air space is provided below the radiant barrier material, wherein the first air space is positioned between the radiant barrier material and a surface of the roof and the second air space is positioned between the radiant barrier material and a support component;wherein the radiant barrier material is situated along a bottom edge of at least one roof rafter, and the air space is provided above and below the radiant barrier material; andwherein the first air space and the second air space provide for convective air flow that removes heat from the radiant barrier material. 8. The building structure of claim 7, wherein the radiant barrier material is situated between at least one roof rafter and a roof sheathing, and the air space is provided below the radiant barrier material. 9. The building structure of claim 7, wherein the radiant barrier material is situated on top of at least one ceiling joist, and the air space is provided above the radiant barrier material. 10. The building structure of claim 7, wherein the building structure is selected from a group consisting of: a residential building structure, a commercial building structure, an agricultural building structure, a temporary building structure, and a combination thereof. 11. The building structure of claim 7, wherein the Aluminet® comprises at least one layer selected from a group consisting of Aluminet® 30%, Aluminet® 40%, Aluminet® 50%, Aluminet® 60%, Aluminet® 70%, Aluminet®80%, and a combination thereof. 12. A method of radiant heat rejection comprising: providing a radiant barrier material comprising Aluminet® in a roof of a building structure so that a first air space is provided above the radiant barrier material and a second air space is provided below the radiant barrier material, wherein the first air space is positioned between the radiant barrier material and a surface of the roof and the second air space is positioned between the radiant barrier material and at least one roof rafter; andwherein the first air space and the second air space provide for convective air flow that removes heat from the radiant barrier material. 13. The method of claim 12, wherein the radiant barrier material is provided between at least one roof purlin and the at least one roof rafter. 14. The method of claim 12, wherein the radiant barrier material further comprises a plurality of layers of the radiant barrier material. 15. The method of claim 12, wherein the building structure is selected from a group consisting of: a residential building structure, a commercial building structure, an agricultural building structure, a temporary building structure, and a combination thereof. 16. The method of claim 12, wherein the Aluminet® comprises at least one layer selected from a group consisting of Aluminet®30%, Aluminet® 40%, Aluminet® 50%, Aluminet® 60%, Aluminet® 70%, Aluminet® 80%, and a combination thereof.
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