Henley's Twentieth Century Formulas, Recipes and Processes

Part 95

Chapter 953,725 wordsPublic domain

By weight Cassia extract, 2d pomade 100 parts Violet extract, 2d pomade 300 parts Jasmine extract, 2d pomade 100 parts Rose extract, 2d pomade 100 parts Oil of geranium, African 1 part Ionone, 10 per cent 15 parts Solution of vanillin, 10 per cent 5 parts Infusion of orris from coarse ground root 270 parts Infusion of musk 10 parts

Double Extract.—

By weight Cassia extract, 2d pomade 100 parts Violet extract, 2d pomade 150 parts Jasmine extract, 2d pomade 100 parts Rose extract, 2d pomade 100 parts Oil of geranium, reunion 2 parts Ionone, 10 per cent 10 parts Solution of vanillin, 10 per cent 10 parts Infusion of ambrette 20 parts Infusion of orris from coarse ground root 300 parts Spirit 210 parts

White Rose.—

Rose oil 25 minims Rose geranium oil 20 minims Patchouli oil 5 minims Ionone 3 minims Jasmine oil (synthetic) 5 minims Alcohol 10 ounces

Ylang-Ylang Perfume.—

I.—Ylang-ylang oil 10 minims Neroli oil 5 minims Rose oil 5 minims Bergamot oil 3 minims Alcohol 10 ounces

One grain of musk may be added.

II.—Extract of cassie (2d) 96 ounces Extract of jasmine (2d) 24 ounces {519} Extract of rose 24 ounces Tincture of orris 4 ounces Oil of ylang-ylang 6 drachms Glycerine 6 ounces

TOILET WATERS.

Toilet waters proper are perfumed liquids designed more especially as refreshing applications to the person—accessories to the bath and to the operations of the barber. They are used sparingly on the handkerchief also, but should not be of so persistent a character as the “extracts” commonly used for that purpose, as they would then be unsuitable as lotions.

Ammonia Water.—Fill a 6-ounce ground glass stoppered bottle with a rather wide mouth with pieces of ammonium carbonate as large as a marble, then drop in the following essential oils:

Oil of lavender 30 drops Oil of bergamot 30 drops Oil of rose 10 drops Oil of cinnamon 10 drops Oil of clove 10 drops

Finally fill the bottle with stronger water of ammonia, put in the stopper and let stand overnight.

Birch-Bud Water.—Alcohol (96 per cent), 350 parts; water, 70 parts; soft soap, 20 parts; glycerine, 15 parts; essential oil of birch buds, 5 parts; essence of spring flowers, 10 parts; chlorophyll, quantity sufficient to tint. Mix the water with an equal volume of spirit and dissolve the soap in the mixture. Mix the oil and other ingredients with the remainder of the spirit, add the soap solution gradually, agitate well, allow to stand for 8 days and filter. For use, dilute with an equal volume of water.

Carmelite Balm Water.—

Melissa oil 30 minims Sweet marjoram oil 3 minims Cinnamon oil 10 minims Angelica oil 3 minims Citron oil 30 minims Clove oil 15 minims Coriander oil 5 minims Nutmeg oil 5 minims Alcohol (90 per cent) 10 fluidounces

Angelica oil is obtained principally from the aromatic root of _Angelica archangelica_, L. (N. O. Umbelliferæ), which is commonly cultivated for the sake of the volatile oil which it yields.

Cypress Water.—

Essence of ambergris 1⁠/⁠2 ounce Spirits of wine 1 gallon Water 2 quarts

Distill a gallon.

Eau de Botot.—

Aniseed 80 parts Clover 20 parts Cinnamon cassia 20 parts Cochineal 5 parts Refined spirit 800 parts Rose water 200 parts

Digest for 8 days and add

Tincture of ambergris 1 part Peppermint oil 10 parts

Eau de Lais.—

Eau de cologne 1 part Jasmine extract 0.5 parts Lemon essence 0.5 parts Balm water 0.5 parts Vetiver essence 0.5 parts Triple rose water 0.5 parts

Eau de Merveilleuse.—

Alcohol 3 quarts Orange flower water 4 quarts Peru balsam 2 ounces Clove oil 4 ounces Civet 1 1⁠/⁠4 ounces Rose geranium oil 1⁠/⁠2 ounce Rose oil 4 drachms Neroli oil 4 drachms

Edelweiss.—

Bergamot oil 10 grams Tincture of ambergris 2 grams Tincture of vetiver (1 in 10) 25 grams Heliotropin 5 grams Rose oil spirit (1 in 100) 25 grams Tincture of musk 5 drops Tincture of angelica 12 drops Neroli oil, artificial 10 drops Hyacinth, artificial 15 drops Jasmine, artificial 1 gram Spirit of wine, 80 per cent 1,000 grams

Honey Water.—

I.—Best honey 1 pound Coriander seed 1 pound Cloves 1 1⁠/⁠2 ounces Nutmegs 1 ounce Gum benjamin 1 ounce Vanilloes, No. 4 1 drachm The yellow rind of 3 large lemons.

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Bruise the cloves, nutmegs, coriander seed, and benjamin, cut the vanilloes in pieces, and put all into a glass alembic with 1 gallon of clean rectified spirit, and, after digesting 48 hours, draw off the spirit by distillation. To 1 gallon of the distilled spirit add

Damask rose water 1 1⁠/⁠2 pounds Orange flower water 1 1⁠/⁠2 pounds Musk 5 grains Ambergris 5 grains

Grind the musk and ambergris in a glass mortar, and afterwards put all together into a digesting vessel, and let them circulate 3 days and 3 nights in a gentle heat; then let all cool. Filter, and keep the water in bottles well stoppered.

II.—Oil of cloves 2 1⁠/⁠2 drachms Oil of bergamot 10 drachms English oil of lavender 2 1⁠/⁠2 drachms Musk 4 grains Yellow sandalwood 2 1⁠/⁠2 drachms Rectified spirit 32 ounces Rose water 8 ounces Orange flower water 8 ounces English honey 2 ounces

Macerate the musk and sandalwood in the spirit 7 days, filter, dissolve the oils in the filtrate, add the other ingredients, shake well, and do so occasionally, keeping as long as possible before filtering.

Lilac Water.—

Terpineol 2 drachms Heliotropin 8 grains Bergamot oil 1 drachm Neroli oil 8 minims Alcohol 12 ounces Water 4 ounces

Orange Flower Water.—

Orange flower essence 8 ounces Magnesium carbonate 1 ounce Water 8 pints

Triturate the essence with the magnesium carbonate, add the water, and filter.

To Clarify Turbid Orange Flower Water.—Shake 1 quart of it with 1⁠/⁠4 pound of sand which has previously been boiled out with hydrochloric acid, washed with water, and dried at red heat. This process doubtless would prove valuable for many other purposes.

Violet Waters.—

I.—Spirit of ionone, 10 per cent 1⁠/⁠2 drachm Distilled water 5 ounces Orange flower water 1 ounce Rose water 1 ounce Cologne spirit 8 ounces

Add the spirit of ionone to the alcohol and then add the waters. Let stand and filter.

II.—Violet extract 2 ounces Cassie extract 1 ounce Spirit of rose 1⁠/⁠2 ounce Tincture of orris 1⁠/⁠2 ounce Green coloring, a sufficiency. Alcohol to 20 ounces.

«PERFUMED PASTILLES.»

These scent tablets consist of a compressed mixture of rice starch, magnesium carbonate, and powdered orris root, saturated with heliotrope, violet, or lilac perfume.

Violet.—

Ionone 50 parts Ylang-ylang oil 50 parts Tincture of musk, extra strong 200 parts Tincture of benzoin 200 parts

Heliotrope.—

Heliotropin 200 parts Vanillin 50 parts Tincture of musk 100 parts Tincture of benzoin 200 parts

Lilac.—

Terpineol 200 parts Muguet 200 parts Tincture of musk 200 parts Tincture of benzoin 200 parts

Sandalwood 2 drachms Vetivert 2 drachms Lavender flowers 4 drachms Oil of thyme 1⁠/⁠2 drachm Charcoal 2 ounces Potassium nitrate 1⁠/⁠2 ounce Mucilage of tragacanth, a sufficient quantity.

«Perfumes for Hair Oils.»—

I.—Heliotropin 8 grains Coumarin 1 grain Oil of orris 1 drop Oil of rose 15 minims Oil of bergamot 30 minims

II.—Coumarin 2 grains Oil of cloves 4 drops Oil of cassia 4 drops Oil of lavender flowers 15 minims Oil of lemon 45 minims Oil of bergamot 75 minims

«Soap Perfumes.»—

See also Soap.

I.—Oil of lavender 1⁠/⁠2 ounce Oil of cassia 30 minims Add 5 pounds of soap stock.

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1 1⁠/⁠2 drachms of each: II.—Oil of caraway Oil of clove Oil of white thyme Oil of cassia Oil of orange leaf (neroli petit grain) Oil of lavender

Add to 5 pounds of soap stock.

PERFUMES (FUMIGANTS): See Fumigants.

PERSPIRATION REMEDY: See Cosmetics.

«Petroleum»

(See also Oils.)

«The Preparation of Emulsions of Crude Petroleum.»—Kerosene has long been recognized as a most efficient insecticide, but its irritating action, as well as the very considerable cost involved, has prevented the use of the pure oil as a local application in the various parasitic skin diseases of animals.

In order to overcome these objections various expedients have been resorted to, all of which have for their object the dilution or emulsification of the kerosene. Probably the best known and most generally employed method for accomplishing this result is that which is based upon the use of soap as an emulsifying agent. The formula which is used almost universally for making the kerosene soap emulsion is as follows:

Kerosene 2 gallons Water 1 gallon Hard soap 1⁠/⁠2 pound

The soap is dissolved in the water with the aid of heat, and while this solution is still hot the kerosene is added and the whole agitated vigorously. The smooth white mixture which is obtained in this way is diluted before use with sufficient water to make a total volume of 20 gallons, and is usually applied to the skin of animals or to trees or other plants by means of a spray pump. This method of application is used because the diluted emulsion separates quite rapidly, and some mechanical device, such as a self-mixing spray pump, is required to keep the oil in suspension.

It will be readily understood that this emulsion would not be well adapted either for use as a dip or for application by hand, for in the one case the oil, which rapidly rises to the surface, would adhere to the animals when they emerged from the dipping tank and the irritating effect would be scarcely less than that produced by the plain oil, and in the second case the same separation of the kerosene would take place and necessarily result in an uneven distribution of the oil on the bodies of the animals which were being treated.

Within recent years it has been found that a certain crude petroleum from the Beaumont oil fields is quite effective for destroying the Texas fever cattle ticks. This crude petroleum contains from 40 to 50 per cent of oils boiling below 300° C. (572° F.), and from 1 to 1.5 per cent of sulphur. After a number of trials of different combinations of crude oil, soap, and water, the following formula was decided upon as the one best suited to the uses in view:

Crude petroleum 2 gallons Water 1⁠/⁠2 gallon Hard soap 1⁠/⁠2 pound

Dissolve the soap in the water with the aid of heat; to this solution add the crude petroleum, mix with a spray pump or shake vigorously, and dilute with the desired amount of water. Soft water should, of course, be used. Various forms of hard and soft soaps have been tried, but soap with an amount of free alkali equivalent to 0.9 per cent of sodium hydroxide gives the best emulsion. All the ordinary laundry soaps are quite satisfactory, but toilet soaps in the main are not suitable.

An emulsion of crude petroleum made according to this modified formula remains fluid and can be easily poured; it will stand indefinitely without any tendency toward a separation of the oil and water and can be diluted in any proportion with cold soft water. After sufficient dilution to produce a 10 per cent emulsion, a number of hours are required for all the oil to rise to the surface, but if the mixture is agitated occasionally, no separation takes place. After long standing the oil separates in the form of a creamlike layer which is easily mixed with the water again by stirring. It is therefore evident that for producing an emulsion which will hold the oil in suspension after dilution, the modified formula meets the desired requirements.

In preparing this emulsion for use in the field, a large spray pump capable of mixing 25 gallons may be used with perfect success.

In using the formula herewith given, it should be borne in mind that it is recommended especially for the crude {522} petroleum obtained from the Beaumont oil fields, the composition of which has already been given. As crude petroleums from different sources vary greatly in their composition, it is impracticable to give a formula that can be used with all crude oils. Nevertheless, crude petroleum from other sources than the Beaumont wells may be emulsified by modifying the formula given above. In order to determine what modification of this formula is necessary for the emulsification of a given oil, the following method may be used:

Dissolve 1⁠/⁠2 pound of soap in 1⁠/⁠2 gallon of hot water; to 1 measure of this soap solution add 4 measures of the crude petroleum to be tested and shake well in a stoppered bottle or flask for several minutes.

If, after dilution, there is a separation of a layer of pure oil within half an hour the emulsion is imperfect, and a modification of the formula will be required. To accomplish this the proportion of oil should be varied until a good result is obtained.

«Petroleum for Spinning.»—In order to be able to wash out the petroleum or render it “saponifiable,” the following process is recommended: Heat the mineral oil with 5 to 10 per cent of olein, add the proper amount of alcoholic lye and continue heating until the solvent (water alcohol) evaporates. A practical way is to introduce an aqueous lye at 230° F. in small portions and to heat until the froth disappears. For clearness it is necessary merely to evaporate all the water. In the same manner, more olein may be added as desired if the admixture of lye is kept down so that not too much soap is formed or the petroleum becomes too thick. After cooling, a uniform gelatinous mass results. This is liquefied mechanically, during or after the cooling, by passing it through fine sieves. Soap is so finely and intimately distributed in the petroleum that the finest particles of oil are isolated by soap, as it were. When a quantity of oil is intimately stirred into the water an emulsion results so that the different parts cannot be distinguished. The same process takes place in washing, the soap contained in the oil swelling between the fibers and the oil particles upon mixture with water, isolating the oil and lifting it from the fiber.

«Deodorized Petroleum.»—Petroleum may be deodorized by shaking it first with 100 parts of chlorinated lime for every 4,500 parts, adding a little hydrochloric acid, then transferring the liquid to a vessel containing lime, and again shaking until all the chlorine is removed. After standing, the petroleum is decanted.

«Petroleum Briquettes.»—Mix with 1,000 parts of petroleum oil 150 parts of ground soap, 150 parts of rosin, and 300 parts of caustic soda lye. Heat this mixture while stirring. When solidification commences, which will be in about 40 minutes, the operation must be watched. If the mixture tends to overflow, pour into the receiver a few drops of soda, and continue to stir until the solidification is complete. When the operation is ended, flow the matter into molds for making the briquettes, and place them for 10 or 15 minutes in a stove; then they may be allowed to cool. The briquettes can be employed a few hours after they are made.

To the three elements constituting the mixture it is useful to add per 1,000 parts by weight of the briquettes to be obtained, 120 parts of sawdust and 120 parts of clay or sand, to render the briquettes more solid.

Experiments in the heating of these briquettes have demonstrated that they will furnish three times as much heat as briquettes of ordinary charcoal, without leaving any residue.

PETROLEUM EMULSION: See Insecticides.

PETROLEUM JELLIES: See Lubricants.

PETROLEUM SOAP: See Soap.

PEWTER: See Alloys.

PEWTER, TO CLEAN: See Cleaning Preparations and Methods.

«PEWTER, AGEING:»

If it is desired to impart to modern articles of pewter the appearance of antique objects, plunge the pieces for several moments into a solution of alum to which several drops of hydrochloric or sulphuric acid have been added.

«PICTURES, GLOW.»

These can be easily produced by drawing the outlines of a picture, writing, etc., on a piece of white paper with a solution of 40 parts of saltpeter and 20 parts of gum arabic in 40 parts of warm water, using a writing pen for this purpose. All the lines must connect and one of them {523} must run to the edge of the paper, where it should be marked with a fine lead-pencil line. When a burning match is held to this spot, the line immediately glows on, spreading over the whole design, and the design formerly invisible finally appears entirely singed. This little trick is not dangerous.

«PHOSPHATE SUBSTITUTE.»

An artificial phosphate is thus prepared: Melt in an oven a mixture of 100 parts of phosphorite, ground coarsely, 70 parts of acid sulphate of soda; 20 parts of carbonate of lime; 22 parts of sand, and 607 parts of charcoal. Run the molten matter into a receiver filled with water; on cooling it will become granular. Rake out the granular mass from the water, and after drying, grind to a fine powder. The phosphate can be kept for a long time without losing its quality, for it is neither caustic nor hygroscopic. Wagner has, in collaboration with Dorsch, conducted fertilizing experiments for determining its value, as compared with superphosphate or with Thomas slag. The phosphate decomposes more rapidly in the soil than Thomas slag, and so far as the experiments have gone, it appears that the phosphoric acid of the new phosphate exercises almost as rapid an action as the phosphoric acid of the superphosphate soluble in water.

«PHOSPHORESCENT MASS.»