Separation apparatus and method of operating separation apparatus

The invention claimed is: 1. A separation apparatus comprising: a separation membrane complex including a porous support and a separation membrane formed on said support; a housing including therein said separation membrane complex; a sheath including therein said housing; and a supply part that supplies a fluid having a temperature higher than a temperature around said sheath to an inside of said housing, wherein said housing includes: a first exhaust port through which a non-permeated substance in said fluid is exhausted to an outside of said housing, the non-permeated substance being a substance other than a permeated substance that has permeated through said separation membrane complex; and a second exhaust port through which said permeated substance in said fluid is exhausted to the outside of said housing, either of said permeated substance and said non-permeated substance exhausted from said housing can be led into an exterior space through either of said second exhaust port and said first exhaust port, respectively, serving as a lead-in port, the exterior space being a space inside said sheath and between said sheath and said housing, said sheath includes an exterior exhaust port through which said either of said permeated substance and said non-permeated substance, led into said exterior space through said lead-in port, is exhausted, and at least part of said separation membrane complex is included in a space surrounded by said sheath, said lead-in port, and said exterior exhaust port. 2. The separation apparatus according to claim 1 , wherein said exterior space exists at least in a direction of a normal to a main surface of said separation membrane. 3. The separation apparatus according to claim 1 , wherein said housing includes: a tube-shaped part having an opening at least at one end; a flange part extending outward from said tube-shaped part around said opening; and a lid part fixed to said flange part while covering said opening to seal said opening. 4. The separation apparatus according to claim 1 , wherein 50 percent or more of said separation membrane complex by volume is included in said space surrounded by said sheath, said lead-in port, and said exterior exhaust port. 5. The separation apparatus according to claim 1 , wherein said either of said permeated substance and said non-permeated substance led into said exterior space is said permeated substance. 6. The separation apparatus according to claim 1 , further comprising: a heating part that heats said fluid before said fluid is supplied to said housing. 7. The separation apparatus according to claim 1 , wherein said fluid supplied from said supply part has a temperature higher than or equal to 70° C. 8. The separation apparatus according to claim 1 , further comprising: a thermal insulation part arranged around said sheath to thermally insulate at least part of an outer surface of said sheath. 9. The separation apparatus according to claim 1 , wherein said separation membrane is a zeolite membrane. 10. The separation apparatus according to claim 9 , wherein a maximum number of membered rings in a zeolite constituting said zeolite membrane is 8 or less. 11. The separation apparatus according to claim 9 , wherein said fluid contains one or more types of substances among hydrogen, helium, nitrogen, oxygen, water, steam, carbon monoxides, carbon dioxides, nitrogen oxides, ammonia, sulfur oxides, hydrogen sulfides, sulfur fluorides, mercury, arsine, hydrocyanic acids, carbonyl sulfides, C1 to C8 hydrocarbons, organic acids, alcohol, mercaptans, ester, ether, ketone, and aldehyde. 12. A method of operating the separation apparatus according to claim 1 , the method comprising: a) supplying said fluid having a higher temperature than a temperature around said sheath to an inside of said housing; b) leading either of said permeated substance in said fluid and said non-permeated substance in said fluid into said exterior space through either of said second exhaust port and said first exhaust port, respectively, serving as a lead-in port; and c) exhausting said either of said permeated substance and said non-permeated substance from said exterior space, the exhausting substance passing through at least part of said exterior space, the exterior space existing in a direction of a normal to a main surface of said separation membrane.