Method for backwashing filter

The invention claimed is: 1. A method for operating a dust removal device, the dust removal device comprising: a pressure vessel comprising a partitioning plate contained within the vessel, a plurality of filter blocks supported by the partitioning plate and a dust hopper provided at a lower part of the pressure vessel, wherein each filter block comprises a plurality of filter elements and wherein partitioning plate partitions the pressure vessel into a space for dust-containing gas which includes the dust hopper and a space for purified gas, the dust removal device further comprising a back washing system provided to clean the plurality of filter elements, wherein the back washing system comprises: at least one purified-gas lead-out pipe, the at least one purified-gas lead-out pipe comprising at least one backwashing nozzle, wherein each nozzle is provided in the space for purified gas and wherein each nozzle is directed toward the filter elements, the at least one purified-gas lead-out pipe further comprising a first valve and a second valve, wherein the first and second valves are provided in the at least one purified-gas lead-out pipe, wherein the first and second valves are disposed in series and wherein the second valve operates at a slower speed than the first valve, the backwashing system is operated in a plurality of backwashing cycles, wherein each backwashing cycle provided backwashing gas to the nozzles so as to clean the filter elements and wherein each backwashing cycle comprises: a first step wherein the second valve is moved from a fully-closed position to a fully-open position in 2 to 10 seconds, with the first backwashing valve in a fully closed position; a second step wherein after the first step has completed, the first valve is maintained in the fully-closed position and the second valve is in the fully-opened position for 1 to 2 seconds; a third step wherein after the second step has completed, the first valve is moved from the fully-closed position to a fully-open position in 0.1 to 1 second with the second valve being maintained in the fully-open position; a fourth step wherein after the third step has completed, both the first and second valves are maintained in the fully-opened positions for 0.1 to 1 second such that backwashing gas flows through the first and second valves into the at least one purified gas lead-out pipe and through the at least one nozzle so as to clean the filter elements; a fifth step wherein after the fourth step has completed, the first valve is moved from the fully-open position to the frilly-closed position in 0.1 to 1 second with the second valve being maintained in the fully-open position; a sixth step wherein for 1 to 2 seconds after the fifth step has completed, the first valve is maintained in the fully-closed position and the second valve is maintained in the fully-opened position; and a seventh step wherein after the sixth step has completed, the second valve is moved from the fully-opened position to the fully-closed position in 2 to 10 seconds; wherein the next backwashing cycle is started after 4 to 10 minutes have passed after the seventh step is completed. 2. A method for operating a dust removal device, the dust removal device comprising: a pressure vessel comprising a partitioning plate contained within the vessel, a plurality of filter blocks supported by the partitioning plate and a dust hopper provided at a lower part of the pressure vessel, wherein each filter block comprises a plurality of filter elements and wherein partitioning plate partitions the pressure vessel into a space for dust-containing gas which includes the dust hopper and a space for purified gas, the dust removal device further comprising a back washing system provided to clean the plurality of filter elements, wherein the back washing system comprises: at least one purified-gas lead-out pipe, the at least one purified-gas lead-out pipe comprising at least one backwashing nozzle, wherein each nozzle is provided in the space for purified gas and wherein each nozzle is directed toward the filter elements, the at least one purified-gas lead-out pipe further comprising a first valve and a second valve, wherein the first and second valves are provided in the at least one purified-gas lead-out pipe, wherein the first and second valves are disposed in series, the backwashing system is operated in a plurality of backwashing cycles, wherein each backwashing cycle provided backwashing gas to the nozzles so as to clean the filter elements, the second valve is disposed in a downstream side of the first valve in a flowing direction of the backwashing gas, and wherein each backwashing cycle includes, a first step in which the first valve is moved rapidly from a fully-closed position to a fully-open position in 0.1 to 1 second; a second step in which backwashing is performed for 0.1 to 1 second with the first valve in the fully-opened position; and a third step in which the first valve is rapidly moved from the fully-open position to the fully-closed position in 0.1 to 1 second, and wherein a next backwashing cycle is started when 4 to 10 minutes have passed after the third step is finished, and wherein the second valve is maintained in a fully-open position during the backwashing cycle and throughout an entire period from an end of the backwashing cycle to a start of the next backwashing cycle.