Double bag vacuum insulation panel for stream chest molding

What is claimed is: 1. A vacuum insulation panel comprising: a core comprising a porous material, the core defining a three dimensional shape lacking cavities and depressions; a heat sealable inner envelope made from a gas impermeable first material having a first thickness, the inner envelope defining an interior occupied solely by the core, the inner envelope encapsulating the core so there are no gaps or spaces between the inner envelope and the core, the interior having a pressure of less than or equal to about 30 millibar; and an outer bag made from a gas impermeable second material and having a second thickness, the outer bag encapsulating the inner envelope; wherein the vacuum insulation panel has an R value of at least about 28 hr-ft 2 -° F/BTU-in; and the vacuum insulation panel is configured to prevent the R value from dropping more than 10% after being exposed to a temperature of up to 95 degrees C. for up to 7 seconds, wherein: the second thickness exceeding 300 microns but no greater than 375 microns. 2. The vacuum insulation panel of claim 1 wherein: the vacuum insulation panel has an R value of at least about 28 hr-ft 2 -° F/BTU-in and the vacuum insulation panel is configured to prevent the R value from dropping more than 1% after being exposed to a temperature of up to 95 degrees C. for up to 7 seconds. 3. The vacuum insulation panel of claim 1 wherein: the outer bag is pre-shaped so that the core and the heat sealable inner envelope fit snugly inside. 4. The vacuum insulation panel of claim 1 wherein: the outer bag comprises opposing first and second sides, a bottom edge, side edges extending between the first and second sides, a top flap and a sealing strip; the top flap extends from the second side and is configured to be folded over an exposed top edge of the core and lie flat against the first side; and the sealing strip secures the top flap against the first side. 5. The vacuum insulation panel of claim 1 wherein: the outer bag comprises opposing first and second sides, a bottom edge, side edges extending between the first and second sides and a top flap; the top flap extends from the second side and is configured to be folded over an exposed top edge of the core and lie flat against the first side; and the top flap includes adhesive for adhering the top flap to the first side. 6. A vacuum insulation panel comprising: a core comprising a porous material, the core defining a three dimensional shape lacking cavities and depressions; a heat sealable inner envelope made from a gas impermeable first material having a first thickness, the inner envelope defining an interior occupied solely by the core, the inner envelope encapsulating the core so there are no gaps or spaces between the inner envelope and the core, the interior having a pressure of less than or equal to about 30 millibar; and an outer bag made from a gas impermeable second material and having a second thickness, the outer bag encapsulating the inner envelope; wherein the vacuum insulation panel has an R value of at least about 28 hr-ft 2 -° F/BTU-in; and the vacuum insulation panel is configured to prevent the R value from dropping more than 10% after being exposed to a temperature of up to 95 degrees C. for up to 7 seconds wherein: the outer bag is made of multi-layer film comprising nylon and ethylene vinyl alcohol.