Infusion method and a system for an infusion method

The invention claimed is: 1. An infusion method for the manufacture of a fibre-reinforced composite component comprising: arranging semi-finished textile products in a moulding tool that is open on one side in a chamber to be evacuated, the semi-finished textile products configured to be infiltrated by a matrix material and the chamber to be evacuated being formed from a vacuum film which encloses the semi-finished textile products; forming a local gas reception space between the semi-finished textile products and a wall section of the chamber, wherein the local gas reception space is formed between a section of the vacuum film and at least one local semi-permeable membrane; infiltrating the semi-finished textile products with the matrix material; blocking off the local gas reception space from the matrix material by the at least one local semi-permeable membrane that is porous to gas, and into which volatile substances contained in the matrix material and/or in the system leak during the infiltration process; arranging a dimensionally stable gas reservoir in the local gas reception space, wherein the gas reservoir has a triangular cross-section, is used as a moulding element to laterally support a vertical portion of the semi-finished textile products, has an open-pore material structure, and is provided the at least one local semi-permeable membrane on contact surfaces facing toward the semi-finished textile products and located in contact with the latter, wherein the dimensionally stable gas reservoir contains the volatile substances leaked during the infiltration process; and evacuating the chamber by a vacuum channel that is separate from the dimensionally stable gas reservoir. 2. The infusion method in accordance with claim 1 , further comprising positioning the at least one local semi-permeable membrane on flat or slightly curved component surfaces. 3. The infusion method in accordance with claim 1 , further comprising evacuating the local gas reception space during evacuation of the chamber. 4. The infusion method in accordance with claim 1 , further comprising arranging another local gas reception space in a region of flow fronts that are running together. 5. The infusion method in accordance with claim 1 , further comprising combining the dimensionally stable gas reservoir with a closed moulding element. 6. The infusion method in accordance with claim 1 , further comprising extracting gases from the local gas reception space via a suction device. 7. The infusion method in accordance with claim 1 , wherein the dimensionally-stable gas reservoir is adapted for maintaining reduced pressure in the local gas reception space. 8. The infusion method in accordance with claim 1 , further comprising laterally supporting the vertical portion of the semi-finished textile products using a second dimensionally stable gas reservoir, wherein the second gas reservoir has a triangular cross-section, has an open-pore material structure, and is provided at least one local semi-permeable membrane on contact surfaces facing toward the semi-finished textile products and located in contact with the latter. 9. The infusion method in accordance with claim 1 , wherein the vacuum channel is positioned at a side of a foot section of the semi-finished textile products. 10. The infusion method in accordance with claim 9 , wherein the matrix material is provided by a sprue positioned at a side of a foot section of the semi-finished textile products.