At the upper end of these sweep-tables, the matters for washing are agitated in a chest, by a small wheel with vanes, or flap-boards. The conduit of the muddy waters opens above a little table or shelf; the conduit of pure water, which adjoins the preceding, opens below At the lower part of each of these tables, there is a transverse slit, covered by a small door with hinges, opening outwardly, by falling back towards the foot of the table. The water spreading over the table, may at pleasure be let into this slit, by raising a bit of leather which is nailed to the table, so as to cover the small door when it is in the shut position ; but when this is opened, the piece of leather then hangs I down into it. Otherwise the water may be allowed to pass freely above the leather, when the door is shut. The same thing may be done with a similar opening placed above the conduit. By means of these two slits, two distinct qualities of schlich may be obtained, which are de posited into two distinct conduits or canals. The refuse of the operation is turned into another conduit, and after wards into ulterior reservoirs, whence it is lifted out to undergo a new wash ing.
In the percussion tables, the water for washing the ores is sometimes spread in slender streamlets, sometimes in a full body, so as to let two cubic feet escape per minute. The number of shocks com municated per minute, varies from 15 to 36 ; and the table may be pushed out of its settled position at one time, three quar ters of an inch, at another nearly 8 in ches. The coarse ore-sand requires in general less water, and less slope of table, than the fine and pasty sand.
The mechanical operations which ores undergo, take place commonly at their out-put from the mine, and without any intermediate operation. Sometimes, how ever the hardness of certain gangues (vein-stones), and of certain iron ores, is diminished by subjecting them to cal cination previously to the breaking and stamping processes.
When it is intended to wash certain ores, an operation founded on the differ ence of their specific gravities, it may happen that by slightly changing the chemical state of the substances that com pose the ore, the earthy parts may become more easily separable, as also the other foreign matters. With this view, the ores of tin are subjected to a roasting, which by separating the arsenic, and oxidizing the copper which are inter mixed, furnishes the means of obtaining, by the subsequent washing, an oxide of tin much purer than could be otherwise procured. In general, however, these are rare cases ; so that the washing al most always immediately succeeds the picking and stamping ; and the roast ing comes next, when it needs to be em ployed.
The mechanical processes terminate here: the further treatment of them is chemical : this consists chiefly in c,alcim !diem or roasting.
The operation of roasting is in general executed by various processes, relatively to the nature of the ores, the quality of the fuel, and to the object in view. The greatest economy have to be studied in the fuel, as well as the labor ; two most important circumstances, on account of the great masses operated upon.
Three principal methods may be dis tinguishecl ; 1, the roasting in a heap in the open air, the most simple of the whole ; 2, the roasting executed between little walls, and which may be called case roasting ; and 3, roasting in furnaces. We may remark, as to the description about to be given of these different pro cesses, that in the first two, the fuel is always in immediate contact with the ore to be roasted, whilst in furnaces, this contact may or may not take place.
The roasting in the open air, and in heaps more or less considerable, is prac tised upon iron ores, and such as are py ritous or bituminous. The operation consists in general in spreading over a plane area, often bottomed with beaten clay, billets of wood arranged like the bars of a gridiron, and sometimes laid crosswise over one another, so as to form a uniform flat bed. Sometimes wood charcoal is scattered in, so as to fill up the interstices, and to prevent the ore from falling between the other pieces of the fuel. Coal is also employed in mo derately small lumps ; and even occasion ally turf. The ore, either simply broken into pieces, or even sometimes under the form of schlich, is piled up over the fuel most usually alternate beds of fuel and ore are formed.
The fire, kindled in general at the lower part, but sometimes., however, at the mid dle chimney, spreads from spot to spot, putting the operation in train. The com bustion must be so conducted as to be slow and suffocated, to prolong the ustu lation, and let the whole mass be equally penetrated with heat. The means em ployed to direct the fire, are to cover out wardly with earth the portions where too much activity is displayed, and to pierce with holes or to give air to those where it is imperfectly developed. Rains, winds, variable seasons, and especially good pri mary arrangements of a calcination, have much influence on this process, which re quires, besides, an almost incessant in spection at constant intervals.