Batch and in-line electro pickling, innovative E-PICK technology
Analysis of the characteristics of the product to be treated and development of a cell electrolytic optimized via 3D CAD modeling to ensure maximum process efficiency.
Parameter optimization (T, I, t, ddP) with preliminary tests.
Design and construction of tanks, aspirations and roofs to maximize the productivity and allow easy cleaning and maintenance.
Study of the fluid dynamics of the electrochemical bath to obtain the uniformity and the passivation on all areas of the component to be treated.
Design of electrical contacts to maximize product quality, use of electrodes with lower resistivity and greater resistance to corrosive substances.
Implementation of independent loading / unloading facilities to facilitate the masking of loading / unloading times in batch plants and increasing the productivity.
Use of straighteners, pumps, and systems with high accessories performance to reduce energy requirements and related operating costs.
Analysis of the characteristics of the product to be treated and development of a cell electrolytic optimized via 3D CAD modeling to ensure maximum process efficiency.
Optimization of process parameters (T, I, t, ddP) with preliminary tests.
Design and construction of tanks, aspirations and roofs to maximize the productivity and allow easy cleaning and maintenance.
Study of the fluid dynamics of the electrochemical bath to obtain uniformity on all areas of the component to be treated.
Design of electrical contacts to maximize product quality, use of electrodes with lower resistivity and greater resistance to corrosive substances.
Implementation of independent loading / unloading facilities to facilitate the masking of loading / unloading times in batch plants and increasing the productivity.
Use of straighteners, pumps, and systems with high accessories performance to reduce energy requirements and related operating costs.
Analysis and normalization of the pickling times of the various components for the optimal plant design.
Optimization and analytical control of the process by measuring the parameters operational and appropriate analyzes.
Design and construction of tanks, aspirations and roofs to maximize the productivity and allow easy cleaning and maintenance.
Study of the fluidodynamics of the chemical bath to obtain uniformity on all areas of the component to be treated.
Choice and sizing of the optimal thermal group to guarantee the working temperature.
Implementation of independent loading / unloading facilities to facilitate the masking of loading / unloading times in batch plants and increasing the productivity.
Use of pumps, high performance accessory systems for reduce energy requirements and related operating costs.
Analysis of the characteristics of the product to be treated to identify the best type of transducers, frequency, power and optimal positioning of the transducers themselves.
Everything will be developed using 3D CAD modeling.
Optimization of process parameters (t, frequency, T) with preliminary tests.
Design and construction of tanks, aspirations and roofs to maximize the productivity, allow easy cleaning and maintenance and demolish them the sound impact.
Study of the fluid dynamics of the electrochemical bath to obtain uniformity on all areas of the component and minimize heat loss.
Implementation of independent loading / unloading facilities to facilitate the masking of loading / unloading times in batch plants and increasing the productivity.
Use of generators, pumps, and systems with high accessories performance to reduce energy requirements and related operating costs.
Analysis of the characteristics of the product to be washed to identify the best technique of washing.
Construction of batch or continuous immersion washing systems with temperature and quality control of the washing bath.
Creation of spray washing plants with optimized choice of pumps ed nozzles according to the washing to be performed.
Furthermore, the plants are built with the aim of avoiding aerosol dispersion in the workplace thanks to realization of static, automated coverings with possible aspirations dedicated.
Analysis of the type and quantity of the issue to be processed.
Study and design of the best felling or suction system.
Construction of controlled pressure loss plants for the management of emissions ensuring the safe evacuation of some elements and the containment of pollutants.
Technical support for improvements to the production cycle and obsolete systems
Production cycle analysis and related requirements, focus on the critical points of the cycle in terms of quality and productivity with related corrective proposals presented through an improvement plan.
Technical and project management support during the installation of new plants and new production lines.