Inline silicon deposition in a pickling plant

1 - 10 . (canceled) 11 . A device for depositing undissolved silicon compounds from a pickling fluid in a pickling plant having at least one pickling circuit, the pickling circuit comprising: a pickling tank of the pickling plant for pickling metal strips; a return line between the pickling tank and a circuit tank; a pressure line between the circuit tank and the pickling tank; a circulation pump having a maximum pump capacity of from 500 to 600 cubic meters per hour for circulating a main volume flow of pickling fluid; and a heating device arranged in the pressure line for heating the main volume flow to a process temperature; wherein the device comprises: a flocculation device having one or more mixing zone containers configured to introduce at least one flocculation aid into the main volume flow; and a deposition device arranged in the circuit tank configured to deposit undissolved silicon compounds directly from the main volume flow. 12 . The device as claimed in claim 11 , wherein: the circuit tank has a volume from 2 to 3 times greater than the pickling tank in the pickling circuit; the deposition device comprises at least a settling zone, a sedimentation zone, and a reception zone; a first overflow is arranged between the settling zone and the sedimentation zone; and a second overflow is arranged between the sedimentation zone and the reception zone. 13 . The device as claimed in claim 11 , wherein the flocculation device has at least two mixing zone containers configured to add at least two different flocculation aids into the main volume flow. 14 . The device as claimed in claim 11 , wherein a sum of volumes of all of the mixing zone containers is from 8 to 25 cubic meters. 15 . The device as claimed in claim 11 , wherein the deposition device is configured as a lamella separating device comprising a multiplicity of mutually parallel flow channels. 16 . The device as claimed in claim 15 , wherein the flow channels are inclined at an angle relative to a vertical and consist of an acid-resistant and heat-resistant material which permanently withstands temperatures of at least 90° C. 17 . The device as claimed in claim 16 , wherein the angle is 15-60°. 18 . The device as claimed in claim 16 , wherein a normal distance between neighboring flow channels is at least 50 mm. 19 . A method for depositing undissolved silicon compounds from a pickling fluid in at least one pickling circuit of a pickling plant, the pickling circuit comprising: a pickling tank of the pickling plant for pickling metal strips; a return line between the pickling tank and a circuit tank; a pressure line between the circuit tank and the pickling tank; a circulation pump; and a heating device arranged in the pressure line; wherein the method comprises: circulating, by the circulation pump, a main volume flow of from 500 to 600 cubic meters per hour of pickling fluid from the pickling tank through the return line into the circuit tank and via the pressure line back into the pickling tank; introducing, by a flocculation device, at least one flocculation aid into the main volume flow having one or more mixing zone containers; depositing, by a deposition device arranged in the circuit tank, undissolved silicon compounds directly from the main volume flow; and heating, by the heatin device, the main volume flow to a process temperature. 20 . The method as claimed in claim 19 , wherein: when pickling a first type of metal strips by means of a first mixing zone container, a first flocculation aid is introduced into the main volume flow; and when pickling a second type of metal strips exclusively by means of a second and/or a third mixing zone container, at least a second flocculation aid is introduced into the main volume flow.