FOUNDRY
Foundries were one of the first industries to use local exhaust ventilation to control contaminants in the workplace and provide protection for the environment. Foundries continue to lead in this area today and Filmedia®dust collectors provide the advanced filter technology required to do so.Filmedia® dust collectors are installed in hundreds of foundries worldwide exhausting furnaces of all types, mold making and break-out, pouring, casting, and finishing operations.
The word “Foundries” encompasses a broad group from large multi building facilities that melt iron to cast counterweight blocks for cranes weighing hundreds of tons to a single room where precious metals are melted and cast into intricate shapes for jewelry. In general, most have the following common processes:
- Sand handling,
- Metal melting,
- Mold pouring, and
- Casting cleaning.
SAND HANDLING
This includes storage and handling of new sand, equipment to separate the castings from the molds, handling and reconditioning of the used sand for future reuse; i.e, shake-out or knock-out, mechanical and pneumatic conveying, bucket elevators, mixers and sand coolers.
METAL MELTING
There are a number of furnaces widely used in the ferrous and non-ferrous foundries. These include induction, electric arc, reverb, rotary, cupola, crucible and open hearth furnaces. It is essential that exhaust volumes are sufficient to control generated fume. Heavy fume generation during charging, the initial melt stage and any refining may increase the air volume required and consequently the collector size. Dirty scrap with oils or paint compounds the fume generation during charging and the initial melt and may require the addition of filtration aids to prolong filter life. Fumes include metal oxides, but the smoke resulting from contaminants such as oil and paint, unburned hydrocarbons, and products of combustion including moisture and fluxes used during the refining process produce hygroscopic salts that may compromise the life of any filter media.
POURING
Heavy concentrations of metal oxides are produced when the molten metal is exposed to the oxygen in air during the pour. The heat released during a pour creates high heat rise velocities making close capture of fume a hooding challenge so careful air volume management is critical.
CASTING CLEANING
After the metal casting is broken free from the mold, it is necessary to remove excess sand. In the blast room the castings are subjected to abrasive blasting or put through a barrel tumbler where the action of the sand or shot impinging on the casting loosens the adhered sand and cleans the casting surface. The cleaned casting may be subject to further processing such as grinding, chipping or machining.