BOOK XII. 565 



This kind of earth having first been dug up in such quantity as would 

 make three hundred wheelbarrow loads, is thrown into two tanks ; then the 

 water is turned into them, and if it (the earth) contains vitriol it must be 

 diluted with urine. The workmen must many times a day stir the 

 ore with long, thick sticks in order that the water and urine may be 

 mixed with it ; then the plugs having been taken out of both tanks, the 

 solution is drawn off into a trough, which is carved out of one or two trees. 

 If the locaUty is supphed with an abundance of such ore, it should not 

 immediately be thrown into the tanks, but first conveyed into open spaces 

 and heaped up, for the longer it is exposed to the air and the rain, the better it 

 is ; after some months, during which the ore has been heaped up in open 

 spaces into mounds, there are generated veinlets of far better quality than 

 the ore. Then it is conveyed into six or more tanks, nine feet in length 

 and breadth and five in depth, and afterward water is drawn into them 

 of similar solution. After this, when the water has absorbed the alum, the 

 plugs are pulled out, and the solution escapes into a round reservoir forty 

 feet wide and three feet deep. Then the ore is thrown out of the tanks 

 into other tanks, and water again being run into the latter and the urine 

 added and stirred by means of poles, the plugs are withdrawn and 

 the solution is run off into the same reservoir. A few days afterward, 

 the reservoirs containing the solution are emptied through a small launder, 

 and run into rectangular lead caldrons ; it is boiled in them until the 



from this description exactly how they were separated. In a condensed solution allowed to 

 cool, the alum would precipitate out as " alum meal," and the vitriol would " float on top " — 

 in solution. The reference to "meal" may represent this phenomenon, and the re-boiling 

 referred to would be the normal method of purification by crystallization. The " asbestos " 

 and gypsum deposited in the ceddrons were no doubt feathery and mealy calcium sulphate. 

 The alum produced would, in any event, be mostly ammonia alum. 



The second process is certainly the manufacture from " alum rock " or " alunite " 

 (the hydros sulphate of aluminium and potassium), such as that mined at La Tolfa in the 

 Papal States, where the process has been for centuries identical with that here described. The 

 alum there produced is the double basic potassium alum, and crystallizes into cubes instead of 

 octrahedra, i.e., the Roman alum of commerce. The presence of much ferric oxide gives the 

 rose colour referred to by Agricola. This account is almost identical with that of Biringuccio 

 (ii., 4), and it appears from similarity of details that Agricola, as stated in his preface, must 

 have " refreshed his mind " from this description ; it would also appear from the preface that 

 he had himself visited the locality. 



The third process is essentially the same as the first, except that the decomposition 

 of the pyrites was hastened by roasting. The following obscure statement of some interest 

 occurs in Agricola's De Naiura Fossiliiim, p. 2og :— ". . . . alum is made from vitriol, 

 " for when oil is made from the latter, alum is distilled out (expirat). This absorbs the clay 

 " which is used in cementing glass, and when the operation is complete the clay is macerated 

 "with pure water, and the alum is soon afterward deposited in the shape of small cubes." 

 Assuming the oil of vitriol to be sulphuric acid and the clay " used in cementing glass " to 

 be kaolin, we have here the first suggestion of a method for producing alum which came into 

 use long after. 



" Burnt alum " (alumen cocium). — Agricola frequently uses this expression, and on p. 

 568, describes the operation, and the substance is apparently the same as modern dehydrated 

 alum, often referred to as "burnt alum." 



Historical Notes. — Whether the Ancients knew of alum in the modern sense is a 

 most vexed question. The Greeks refer to a certain substance as stypteria, and the Romans 

 refer to this same substance as alumen. There can be no question as to their knowledge and 

 common use of vitriol, nor that substances which they believed were entirely different from 

 vitriol were comprised under the above names. Beckmann (Hist, of Inventions, Vol. i., 

 p. 181) seems to have been the founder of the doctrine that the ancient alumen was vitriol, 

 and scores of authorities seem to have adopted his arguments without inquiry, until that belief 



