A pickling installation for applying a pickling treatment to a metal strip in continuous movement, the pickling treatment using an acid solution, the pickling installation including: a plurality of cascading treatment tanks among which at least one treatment tank includes a spray/injection section for spraying/injecting the acid solution on the metal strip; and collection means for retrieving the sprayed acid solution after use and redirecting the sprayed acid solution to each spray/injection section. The at least one treatment tank has a first header in front of a first face of the metal strip and a second header in front of a second face of the metal strip. In a first treatment tank configuration, each of the first header and the second header have an internal flat surface intended to be parallel respectively to first and second faces of metal strip, and at a distance thereof.

A pickling facility includes: a pickling tank for storing an acid solution; a conveyance part for continuously conveying a steel plate immersed in the acid solution; a measurement part for measuring at least one parameter which has a correlation with a heat transfer coefficient between the acid solution and a reference surface disposed in the acid solution so as to face the steel plate; and a conveyance speed decision part configured to decide a conveyance speed of the steel plate conveyed by the conveyance part, on the basis of a measurement result of the at least one parameter.

A method for pickling a steel plate having a first steel plate portion and a second steel plate portion which is connected to a tail end of the first steel plate portion and which requires a longer time for pickling than the first steel plate portion when pickled under the same condition includes: a step of pickling the steel plate by immersing the steel plate in an acid solution in at least one pickling tank while conveying the steel plate; a step of circulating the acid solution, through a circulation line connected to any of the at least one pickling tank, between the pickling tank and an oxidizing device disposed in the circulation line; a step of oxidizing Fe.sup.2+ in the acid solution to Fe.sup.3+ by the oxidizing device using a gaseous oxidant; and a feeding start step of, upon switching from pickling of the first steel plate portion to pickling of the second steel plate portion, starting feeding of a liquid oxidant for oxidizing Fe.sup.2+ in the acid solution to Fe.sup.3+ to any of the at least one pickling tank or to the circulation line.

A method for continuously cleaning a moving strip in a cleaning installation including a tank containing an aqueous solution, at least a roll immerged in the aqueous solution for guiding the strip into the tank, at least an ultrasound emitter a feed for feeding an aqueous solution inside the tank, a tank emptier for emptying the tank, an aqueous solution estimator for estimating the aqueous solution level in the tank, a distance calculator for calculating, for each ultrasound emitter, its distance to the aqueous solution level and a power controller for controlling the power of the at least one ultrasound emitter including the following steps, performed continuously: —estimating the aqueous solution level in the tank, —calculating for each ultrasound emitter its distance to the aqueous solution level, —comparing for each ultrasound emitter its distance to the aqueous solution level to a determined threshold.

A pickling system for surface treatment, using a pickling medium, of strip steel in the form of standard steel, electric strip, high-grade steel, and extra-high-strength and ultra-high-strength third-generation steel in order to thereby provide a surface suitable for a subsequent shaping process for further processing. The system includes a plurality of treatment tanks connected in series. The pickling system has a modular construction and, starting from the strip infeed, at least one first treatment tank in the form of a dipping bath module is provided in the working direction, downstream of which a plurality of treatment tanks in the form of spray pickling modules are arranged, and at least one final second dipping bath module is arranged downstream of the spray pickling modules.

Pickling a plurality of steel strips (2) having initial material properties (ME) on a pickling line: A computer (5) defines a number of sequences (Gi), which each contain the number of strips (2) to be pickled. For each of the defined sequences (Gi), the computer (5) determines an optimized mode of operation of the pickling line and, on the basis of the mode of operation, at least one measure (M), by means of a model (9) of the pickling line based on mathematical physical equations and by using the initial material properties (ME) of the strips. As long as a termination criterion (K) is not met, the computer (5) varies the defined sequences (Gi) and determines respective optimized modes of operation of the pickling line and associated measures (M) anew. As soon as the termination criterion (K) is met, the computer (5) either selects one of the last defined sequences (Gi) and initiates the control of the pickling line in accordance with the selected sequence (Gi) or offers to an operator (13) a plurality of the last defined sequences (Gi) together with the respective measures (M) thereof, receives a selection command (SEL) for selecting one of the offered sequences (Gi) from the operator (13), and initiates the control of the pickling line in accordance with the sequence (Gi) selected from the operator (13).

Pickling a plurality of steel strips (2) having initial material properties (ME) on a pickling line: A computer (5) defines a number of sequences (Gi), which each contain the number of strips (2) to be pickled. For each of the defined sequences (Gi), the computer (5) determines an optimized mode of operation of the pickling line and, on the basis of the mode of operation, at least one measure (M), by means of a model (9) of the pickling line based on mathematical physical equations and by using the initial material properties (ME) of the strips. As long as a termination criterion (K) is not met, the computer (5) varies the defined sequences (Gi) and determines respective optimized modes of operation of the pickling line and associated measures (M) anew. As soon as the termination criterion (K) is met, the computer (5) either selects one of the last defined sequences (Gi) and initiates the control of the pickling line in accordance with the selected sequence (Gi) or offers to an operator (13) a plurality of the last defined sequences (Gi) together with the respective measures (M) thereof, receives a selection command (SEL) for selecting one of the offered sequences (Gi) from the operator (13), and initiates the control of the pickling line in accordance with the sequence (Gi) selected from the operator (13).

The present invention is a washing assembly having at least one washing chamber at which at least one sheet metal passing through for producing copper-coated double-layer steel pipe. The washing assembly comprises at least one pair of wiper pair accommodated by the washing chamber.

The present invention is a washing assembly having at least one washing chamber at which at least one sheet metal passing through for producing copper-coated double-layer steel pipe. The washing assembly comprises at least one pair of wiper pair accommodated by the washing chamber.

An ultrasonic cleaning equipment (1) according to the present invention includes a treatment tank (10) that stores a cleaning liquid that cleans an object to be cleaned and in which the object to be cleaned is immersed; an ultrasonic application mechanism (20) that applies ultrasonic waves to the cleaning liquid retained in an interior of the treatment tank; and a curved surface member (30) that is located in a range defined by an angle of inclination from a perpendicular direction in an end portion of a vibrating surface of the ultrasonic application mechanism to an outside with respect to the vibrating surface and that is held on a wall surface and/or a bottom surface of the treatment tank.