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Cooley's Cyclopaedia of Practical Receipts Volume Ii Part 162

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7. MINERAL MATTER.--_a._ A weighed quant.i.ty of pure beer evaporated to dryness, and then incinerated, does not furnish more than from 20% to 35% of ash, the quant.i.ty varying within these limits with the strength of the liquor and the character of the water used in brewing it.

_b._ A solution of this ash, made by decoction with distilled water, should be only rendered slightly turbid by solutions of acetate of lead, b.i.+.c.hloride of platinum, nitrate of baryta, nitrate of silver, oxalate of ammonia, and sulphuretted hydrogen.

_c._ If the beer contained common salt, the above solution will give a cloudy white precipitate with a solution of nitrate of silver. Each grain of this precipitate is equivalent to 1/2 gr. of common salt (nearly).

_d._ If GREEN COPPERAS (sulphate of iron) is present, ferridcyanide of pota.s.sium gives a blue precipitate, and ferrocyanide of pota.s.sium a bluish-white one, turning dark blue in the air; solution of chloride of barium gives a white precipitate, each grain of which, after being washed, dried, and ignited, represents 1188 gr. of crystallised protosulphate of iron.

_e._ The ash, digested in water slightly acidulated with nitric acid, and then boiled, yields a solution which, when cold, gives a black precipitate with sulphuretted hydrogen, and a white one with dilute sulphuric acid when lead is present.



8. _Wittstein's method for the detection of_ ADULTERANTS _in beer_.[118]

One litre of the suspected beer is evaporated by a moderate heat to the consistence of a thick syrup. This is poured into a tared gla.s.s cylinder capable of containing ten times its volume and weighed; five times its weight of 93 to 95 alcohol is added, and the whole frequently stirred, by means of a thick gla.s.s rod, during twenty-four hours.

[Footnote 118: 'Archiv der Pharmacie,' January, 1876, ('Pharm. Journal,'

3rd series, v.)]

By this means all the gum, dextrin, sulphates, phosphates, and chlorides are separated, and a comparatively small portion is obtained in solution.

After clearing, this solution is decanted, the residue is again treated with fresh alcohol, the two products mixed, filtered, and the alcohol driven off by a gentle heat.

_a._ Of the syrupy residue left after this evaporation, a small portion is diluted with three times its bulk of water, and tested for picric acid, according to the directions already given.

_b._ The remaining largest portion of the syrup is agitated for some time with six times its weight of pure colourless benzol (boiling point 80 C.); this is decanted off, and the operation is repeated with fresh benzol, and the two liquors, the first of which has become yellow, the second having scarcely changed colour, are evaporated at a gentle heat.

The pale, yellow, resinous residue thus obtained may possibly contain brucine, strychnine, colchicine, or colocynthin. To ascertain this, three portions of the resin are placed on a porcelain capsule; one is treated with nitric acid (sp. gr. 133 to 140), another with concentrated sulphuric acid, and the third, after a few morsels of red chromate of potash have been added, also with sulphuric acid. A red colour, produced by the nitric acid, indicates brucine with certainty, and a violet colour colchicine; a red colour produced by sulphuric acid indicates colocynthin, and a purple violet, produced by sulphuric acid and b.i.+.c.hromate of potash, reveals strychnine. Resin in which one or other of these colorations is produced possesses an extremely bitter taste; that in which the coloration does not take place is also bitter, but the bitterness recalls the well-known hop flavour.

_c._ The syrup which has been treated with benzol is freed, by gentle heating, from the small quant.i.ty of benzol remaining, and agitated twice with pure colourless amylic alcohol (boiling point 132 C.). The first portion of the alcohol acquires a more or less wine or golden-yellow colour. It would take up any picrotoxin or aloes if present, and thereby acquire a strongly bitter taste.

If neither of these two substances be present, the amylic alcohol does not become bitter, because neither the hop bitter nor the remaining four bitter principles--absinthin, gentipicrin, menyanthin, and qua.s.siin--are soluble in it.

In order to distinguish picrotoxin from aloes a portion of the first obtained amylic alcoholic solution is poured upon gla.s.s, and allowed to evaporate spontaneously. If a fine white crystallisation be formed picrotoxin is present, if not aloes is present, and can only be recognised by its peculiar, saffron-like odour.

_d._ The syrup which has been treated with benzol and amylic alcohol is freed by means of blotting paper from the small quant.i.ty of amylic alcohol adhering to it, evaporation by heat being impracticable in consequence of the high boiling point of the alcohol, and shaken with anhydrous ether.

This takes up the hop bitter yet present and absinthin. After evaporation the latter is easily recognised through its wormwood-like aroma; it also gives a reddish-yellow solution with concentrated sulphuric acid, which changes quickly to an indigo-blue colour.

_e._ After treating with ether the syrup has yet to be tested for gentipicrin, menyanthin, and qua.s.siin. As it is now free from the hop bitter, a decidedly bitter taste points to one of these three substances.

Any remaining ether is removed, and the syrup is dissolved in water and filtered; to one portion is added strong ammoniacal solution of silver, and it is then heated.

If it remains clear qua.s.siin is present; if a silver mirror be formed it originates either with gentipicrin or menyanthin. Another portion is evaporated to dryness on porcelain, and concentrated sulphuric acid added.

If, while cold, no change of colour takes place, but on heating it becomes carmine red, gentipicrin is present; menyanthin would give a yellowish-brown colour, gradually changing to violet.

For further information connected with this subject, see ALCOHOLOMETRY, ALE, BEER, BREWING, MALT LIQUORS, &c.

=PORT-FIRE.= A paper tube, from 9 to 12 inches in length, filled with a slow-burning composition of metal powder, nitre, and sulphur, rammed moderately hard, by a similar process to that adopted for small rockets.

It is used in lieu of a touch-match, to fire guns, mortars, pyrotechnical devices, &c.

=PORTLAND CEMENT.= A species of mortar formed by calcining a mixture of limestone and argillaceous earth, and grinding the calcined ma.s.s to powder, in which state it must be preserved from the air. It is characterised by absorbing a large quant.i.ty of water, and then rapidly becoming solid, and, after a time, acquiring considerable hardness. See MORTAR and CEMENT.

=POSOL'OGY.= See DOSE.

=POS'SET.= _Syn._ POSSETUM, L. Milk curdled with wine or any other slightly acidulous liquor. It is usually sweetened with either sugar or treacle, and is taken hot.

_Prep._ From new milk, 1/2 pint; sherry or marsala, 1 wine-gla.s.sful; treacle, 1 or 2 tablespoonfuls, or q. s.; heat them together in a clean saucepan until the milk coagulates. This is called 'treacle posset' or 'mola.s.ses posset,' and, taken on retiring to rest, is highly esteemed in some parts of the country as a domestic remedy for colds. Lemon juice, strong old ale, or even vinegar, is occasionally subst.i.tuted for wine, and powdered ginger or nutmeg added at will.

=POT METAL.= See c.o.c.k METAL.

=POT'ASH.= The 'potash,' or 'potashes' of commerce is an impure carbonate of pota.s.sium, so named after the pots or vessels in which it was first made. The 'potash,' or 'pota.s.sa,' of the chemist is the hydrate of a peculiar metal, pota.s.sium, which is more particularly referred to below.

The word potash is vulgarly applied to the crude or commercial carbonate of pota.s.sium. See CARBONATE OF POTa.s.sIUM, &c.

Potash is now princ.i.p.ally obtained from the following sources:--

1. From carnallite,[119] a hydrated double chloride of pota.s.sium and magnesium, which occurs a.s.sociated with other salts of pota.s.sium and magnesium, as well as of sodium, in a bed of clay, at Sta.s.sfurth, near Madgeburg, in Prussia.

[Footnote 119: Carnallite contains nearly a fourth of its weight of pota.s.sium chloride.]

2. Feldspar and similar minerals.

3. Sea water, and the mother-liquor of salt works.

4. Native saltpetre.

5. The ashes of several plants.

6. The calcined residue of the mola.s.ses of beet-root sugar remaining after distillation.

7. The seaweeds, as a by-product of the manufacture of iodine.

8. From the fleece of the sheep.[120]

[Footnote 120: Maumene and Rogelet state that a fleece weighing 9 lbs.

contains about 6 ounces of pure potash.]

The following is a process for obtaining alkali from seaweed, described in the 'Chemical News' for Nov. 10th, 1876:--

At the chemical works at Aalbourg, in Jutland, Denmark, where about 30 tons of alkali are made per week by the ammonia process, Mr Theobald Schmidt, the director of the manufactory, proposes to work, in conjunction with this process, a method devised by himself of treating seaweed so as to obtain iodine, potash, salts, and other marketable products therefrom.

In Denmark a very heavy duty is levied on the importation of common salt, whilst enormous quant.i.ties of seaweed rich in iodine and potash can be obtained at small cost in the neighbourhood of the works. Mr Schmidt's process is as follows:--After the seaweed is dried and burnt, a concentrated solution of the ash is made and added to the liquor, containing chlorides of sodium and calcium, left after the ammonia has been recovered in the ammonia-soda process by boiling with lime. The sulphates of potash, soda, and magnesia, contained in the ash of the seaweed are thereby decomposed, and hydrated sulphate of lime and hydrated magnesia are precipitated in a form which may be available for paper-making, as 'pearl-hardening.' The last traces of sulphates are got rid of by adding a small quant.i.ty of solution of chloride of barium. To the clear solution nitrate of lead is now added, until all the iodine is precipitated as iodide of lead, which is then separated by filtration and treated for the production of iodine or iodides. After filtration the liquid is boiled; nitrate of soda is added to convert the chloride of pota.s.sium present into nitrate of potash. The latter is separated by crystallisation. There remains a solution of common salt, containing traces of ammonia from the previous soda operation, and a trace of chloride of pota.s.sium. This solution is again treated by the ordinary ammonia-soda process for the production of bicarbonate of soda and white alkali. See CARBONATE OF POTa.s.sIUM, &c.

=POTAS'SIUM.= K. The metallic base of potash. It was discovered, in 1807, by Sir H. Davy, who obtained it by submitting moistened pota.s.sium hydrate, under a film of naphtha, to the action of a powerful voltaic current. It has since been procured by easier methods, of which the following, invented by Brunner, is the best.

_Prep._ An intimate mixture of carbonate of pota.s.sium and charcoal is prepared by calcining, in a covered iron pot, the crude tartar of commerce; when cold, it is rubbed to powder, mixed with 1-10th part of charcoal in small lumps, and quickly transferred into a retort of stout hammered iron; the latter may be one of the iron bottles in which quicksilver is imported, a short and somewhat wide iron tube having been fitted to the aperture; the retort, thus charged, is placed upon its side, in a furnace so constructed that the flame of a very strong fire, preferably fed with dry wood, may wrap round it, and maintain every part of it at a very high and uniform degree of heat. A copper receiver, divided in the centre by a diaphragm, is next connected to the iron pipe, and kept cool by the application of ice, whilst the receiver itself is partly filled with mineral naphtha, to preserve the newly formed pota.s.sium as it distils over. The arrangement of the apparatus being completed, the fire is gradually raised until the requisite temperature, which is that of full whiteness, is reached, when decomposition of the alkali by the charcoal commences, carbonic acid gas is abundantly disengaged, and pota.s.sium distils over, and falls in large drops into the liquid. To render the product absolutely pure, it is redistilled in an iron or green-gla.s.s retort, into which some naphtha has been put, that its vapour may expel the air, and prevent the oxidation of the metal. The pieces of charcoal are introduced for the purpose of absorbing the melted carbonate of pota.s.sium and preventing its separation from the finely divided carbonaceous matter. _Prod._ 3% to 4% of the weight of tartar acted on; 1 lb. yielded 280 gr.

_Prop., &c._ Pure pota.s.sium is a brilliant white metal, with a high l.u.s.tre; at the common temperature of the air it is soft, and may be easily cut with a knife, but at 32 Fahr. it is brittle and crystalline; it melts completely at 136 Fahr., and in close vessels distils unaltered at a low red heat. Sp. gr. 865. Its most remarkable property is its affinity for oxygen, which is so great that it takes it from most other substances containing it. Exposed to the air, its surface is instantly tarnished, and quickly becomes covered with a crust of oxide or hydrate. It inflames spontaneously when thrown on water, and burns with a beautiful purple or purple-red flame, yielding a pure alkaline solution. It can only be preserved in naphtha, rock oil, or some other fluid hydrocarbon.

The salts of pota.s.sium are all soluble in water, the tartrate, periodate, and fluosilicate being the least so; they are usually colourless, unless the acid be coloured, crystallise readily, and form numerous double compounds. They can be recognised as follows:--

Sulphuretted hydrogen, sulphide of ammonium, and carbonate of ammonium, do not affect them. A solution of tartaric acid, added in excess, to moderately strong neutral or alkaline solutions of pota.s.sium salts, gives a quickly subsiding, gritty or crystalline, white precipitate, which is redissolved on heating the liquid, and again separates as it cools; and is also soluble in aqueous solutions containing free alkali, or free mineral acids. Platinic chloride produces, in neutral and acid solutions, a yellow crystalline precipitate. Alkaline solutions require to be first slightly acidulated with hydrochloric acid. The separation of the precipitate here, as well as that produced by tartaric acid, is promoted by violent agitation and friction against the sides of the vessel, and the delicacy of both is increased by the addition of some alcohol. When converted into carbonate by igniting with excess of carbonate of ammonium and alcohol, and treated with sulphuretted hydrogen solution and nitro-prusside of sodium, gives a splendid violet colour, turning through red to green on standing.

Pota.s.sium salts give with sodium periodate and hydro-fluosilicic acid white precipitates soluble in much water.

Heated in the inner flame of the blow-pipe on platinum wire, they impart a violet coloration, masked, however, by a mere trace of sodium salts.

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