Turbine engine wall having at least some cooling orifices that are plugged

The invention claimed is: 1. A turbine engine multiple-perforated wall having a cold side and a hot side, the perforated wall being an annular wall extending along an axis and comprising a plurality of cooling orifices for enabling air flowing on the cold side of said multiple-perforated wall to penetrate to the hot side in order to form a film of cooling air along said multiple-perforated wall, said cooling orifices being distributed in a plurality of circumferential rows that are axially spaced apart from one another and the axes of each of said cooling orifices being inclined at an angle of inclination relative to a normal to said multiple-perforated wall, wherein, at a first operating condition of the turbine engine, at least some of said cooling orifices being plugged by a plugging material so as to define a minimum level of porosity for said multiple-perforated wall corresponding to putting said turbine engine into service, said plugged cooling orifices being suitable for being unplugged progressively throughout a lifetime of said turbine engine, and a second operating condition of the turbine engine corresponding to an end of lifetime for the turbine engine, some of the plugged cooling orifices are unplugged to define a maximum level of porosity, and wherein, at the first operating condition of the turbine engine, said plugging is performed by alternating at least one of the following rows or lines: circumferential rows, axial rows, diagonal lines, so as to lie in the range one-third to one-half of said maximum porosity. 2. The wall according to claim 1 , wherein the transition from said minimum porosity to said maximum porosity takes place locally as a function of an increase in the temperature of said multiple-perforated wall. 3. The wall according to claim 1 , wherein said plugging material is a metal alloy based on aluminum or on brass having a melting temperature lying in the range 650° C. to 800° C. 4. The wall according to claim 3 , wherein said plugging material is applied by metal plating or in the form of a paste that sets, or in the form of a paint. 5. A turbine engine combustion chamber comprising at least one wall according to claim 1 . 6. A cooled turbine engine nozzle comprising at least one wall according to claim 1 . 7. A turbine engine reheat chamber comprising at least one wall according to claim 1 . 8. A turbine engine comprising a combustion chamber according to claim 5 . 9. A turbine engine comprising a cooled nozzle according to claim 6 . 10. A turbine engine comprising a reheat chamber according to claim 7 .