Installation of anode waste washing plant
The aim of the project was to develop the concept, construction design and detailed design for the construction of anode waste washing installation at the Electrorefining Department. Machine capacity – 450 anode waste per hour. The scope of the study covered the following disciplines:
– architecture;
– construction;
– sanitary;
– electrical;
– railway;
– technological and pipeline;
– automatic and teletechnical;
The scope of the project covered, among others:
– Determining the location of washing machines together with the infrastructure for the installation of machines;
– development of the concept of anode waste transport;
– making power balances for the machines used;
– technical and financial analysis in the scope of machine installation;
– making a complete building permit design and detailed designs in each industry.
As part of our work we have designed, among others:
In the technological sector:
– modernization of the existing DN300 steam pipeline and supplying new pipelines to receivers;
– installation of demineralised water;
– installation of industrial compressed air and dried air;
– installation of central heating pipelines;
– installation of clean and acidified condensate;
– installation of process wastewater and sludge;
– waste washing-evaporative collection system;
In the construction industry:
– buildings of washing machines;
– a pipe-rack for technological pipelines;
– reconstruction of existing pipe-racks and the existing production hall;
– foundations for tracks;
– foundations for technological equipment;
In the installation industry:
– collision solution between the existing infrastructure and the planned investment;
– external water supply systems;
– heating installations together with a heat distribution centre;
– ventilation and air conditioning installations – efficiency of the air handling unit 12000m3/h;
In the electrical industry:
– electrical installations for the designed buildings;
– extension of the existing 500V switchgear – peak power of the switchgear for a single designed building is 222kW;
– 400V switchgear – peak power in summer 134kW;
– cable routes 400V / 500V;
