RU2017118973A - FILTRATION SYSTEM AND METHOD FOR CLEANING THE GAS TURBINE INTAKE AIR - Google Patents

Claims (14)

1. A filtration system, in particular for cleaning the incoming air of a gas turbine, comprising: a flow channel (110) surrounded by walls (142), with an inlet (146) and an outlet (148), a dividing wall (108), which is located between the inlet (146) and the outlet (148) and is limited by the wall (142 ) a flow channel (110) and at least two filters (100, 106, 156) for cleaning a fluid flowing through a flow channel (110), in which at least one first filter (100, 106, 156) forms one assembly unit and is mounted on the dividing wall (108), and at least one second filter (100, 106, 156) also forms one assembly unit and mounted on a partition wall (108), characterized in that it: a second filter (100, 106, 156) is located between the first filter (100, 106, 156) and the overlapping first and second filter (100, 106, 156) while the overlap is at least partial in one direction, mainly - in the direction perpendicular to the dividing wall (108). 2. The system according to claim 1, characterized in that it has an area on which the frames (118) of the first and second filters (100, 106, 156) overlap at least partially in one direction, mainly in the direction perpendicular to the dividing wall (108), is at least 5% of the total calculated filtration area in the dividing wall (108). 3. The system according to any one of paragraphs. 1 or 2, characterized in that in it the filters (100, 106, 156) are located in at least one row (136) in the dividing wall (108), and the filters (100, 106, 156) of one row (136 ) project alternately to the dirty side (122) and to the clean side (124) of the separation wall (108). 4. A method of cleaning the inlet air of a gas turbine by means of a flow channel (110) surrounded by walls (142) with an inlet (146) and an outlet (148), a dividing wall (108) which is located between the inlet (146) and the outlet ( 148) and is limited by the wall (142) of the flow channel (110) with at least two filters (100, 106, 156) for cleaning the flowing fluid, forming a single assembly unit mounted on the dividing wall (108), and, according to at least one second filter (100, 106, 156), which is also an image a single assembly unit which is mounted on the dividing wall (108), characterized in that it: a second filter (100, 106, 156) is located between the first filter (100, 106, 156) and the first and second filters (100, 106, 156) at least partially overlapping in one direction, mainly in the direction perpendicular to the separation wall (108). 5. The method according to p. 4, characterized in that in it the area on which the frames (118) of the first and second filters (100, 106, 156) overlap in one direction, mainly perpendicular to the dividing wall (108), is at least 5% of the total estimated filtration area in the dividing wall (108). 6. The method according to any one of paragraphs. 4 or 5, characterized in that the filters (100, 106, 156) are arranged in it in at least one row (136) in the dividing wall (108), and the filters (100, 106, 156) of one row are fixed ( 136) alternately protrude into the dirty side (122) and the clean side (124) of the separation wall (108). 7. A set of filters with at least one first filter (100, 106, 156), which is a single assembly unit, and adapted for installation on a partition wall (108) of a filtration system according to one of claims. 1-3, and with at least one second filter (100, 106, 156), which is a single assembly unit, and adapted for installation on a partition wall (108), according to any one of paragraphs. 1-3. 8. A kit according to claim 7, in which the second filter (100, 106, 156) is made with a filter frame (118), the corresponding filter material (128) of which is installed in the opposite direction — when viewed in the direction of the fluid flow through the partition wall (108) - compared with the first filter (100, 106, 156).