Hybrid high temperature insulation

What is claimed is: 1 . A hybrid high temperature thermal insulation, comprising: a mix of inorganic granules, the mix comprising at least 70 weight percent first porous inorganic granules in the form of expanded perlite, and at most 30 weight percent second porous inorganic granules, the second porous inorganic granules being other than expanded perlite; and a binder. 2 . The hybrid high temperature thermal insulation of claim 1 , wherein the second porous inorganic granules comprise aerogel particles. 3 . The hybrid high temperature thermal insulation of claim 2 , wherein the second porous inorganic granules comprise silica aerogel particles. 4 . The hybrid high temperature thermal insulation of claim 1 , wherein the second porous inorganic granules comprise fumed silica particles. 5 . The hybrid high temperature thermal insulation of claim 1 , wherein the second porous inorganic granules comprise precipitated silica particles. 6 . The hybrid high temperature thermal insulation of claim 1 , wherein the binder is sodium silicate. 7 . The hybrid high temperature thermal insulation of claim 1 , further comprising reinforcing fibers. 8 . The hybrid high temperature thermal insulation of claim 1 , wherein the insulation has a density of between 9 and 16 lbs/ft 3 . 9 . The hybrid high temperature thermal insulation of claim 1 , wherein the insulation has a thermal conductivity of less than 0.6 BTU-in/(ft 2 -h-° F.) when measured at 500° F. 10 . The hybrid high temperature thermal insulation of claim 1 , wherein the insulation has a thermal conductivity of less than 0.5 BTU-in/(ft 2 -h-° F.) when measured at 500° F. 11 . The hybrid high temperature thermal insulation of claim 1 , wherein the second porous inorganic granules are hydrophobic. 12 . The hybrid high temperature thermal insulation of claim 11 , wherein the second porous inorganic granules comprise an organic coating that renders the second porous inorganic granules hydrophobic. 13 . The hybrid high temperature thermal insulation of claim 1 , wherein the second porous inorganic granules are hydrophilic. 14 . The hybrid high temperature thermal insulation of claim 1 , wherein the mix comprises at least 80 weight percent expanded perlite. 15 . The hybrid high temperature thermal insulation of claim 1 , wherein the mix comprises at least 85 weight percent expanded perlite. 16 . The hybrid high temperature thermal insulation of claim 1 , wherein the mix comprises at least 90 weight percent expanded perlite. 17 . The hybrid high temperature thermal insulation of claim 1 , wherein the mix comprises at least 94 weight percent expanded perlite. 18 . A method of making thermal insulation, the method comprising: forming a mixture having at least 70 weight percent porous inorganic granules in the form of expanded perlite and at most 30 weight percent second porous inorganic granules, the second porous inorganic granules being other than expanded perlite; adding a binder to the mixture; pressing the mixture to a predetermined shape; and oven drying the pressed shape. 19 . The method of claim 18 , wherein pressing the mixture to a predetermined shape comprises pressing the mixture into a hollow semi-cylindrical shape configured to fit over a round tube of a predetermined diameter. 20 . The method of claim 18 , wherein pressing the mixture to a predetermined shape comprises pressing the mixture into a board shape. 21 . The method of claim 18 , further comprising cutting the predetermined shape to a final size. 22 . The method of claim 18 , wherein the second porous inorganic granules comprise aerogel particles. 23 . The method of claim 18 , wherein the second porous inorganic granules comprise fumed silica particles or precipitated silica particles.