Scientific American Supplement, No. 711, August 17, 1889 eBook

This eBook from the Gutenberg Project consists of approximately 137 pages of information about Scientific American Supplement, No. 711, August 17, 1889.

Scientific American Supplement, No. 711, August 17, 1889 eBook

This eBook from the Gutenberg Project consists of approximately 137 pages of information about Scientific American Supplement, No. 711, August 17, 1889.

When distilled alone, various hydrocarbons, resin oil and resin pitch, are obtained.

I find that commercial spirits of turpentine varies in sp. gr. from 0.865 to 0.869 at 15 deg.  C. The higher sp. gr. appears to be connected with the presence of resinous bodies, the result of oxidation.  The boiling point is very uniform, ranging from 155 deg.  C. to 157 deg.  C. at 760 mm.  Taking these two points together, it is hardly possible to adulterate spirits of turpentine without detection.  I give the figures for a few imitations or adulterations: 

Sp. gr.    B.P. 
No. 1                        0.821  137 deg.  C.
No. 2                        0.884  165 deg.  C.
No. 3                        0.815  150 deg.  C.
No. 4                        0.895  156 deg.  C.

There is a considerable difference in the flashing point, no doubt due to the longer or shorter exposure of the crude turpentine, by which more or less of the volatile portion escapes.

* * * * *

ON THE OCCURRENCE OF PARAFFINE IN CRUDE PETROLEUM.[1]

   [Footnote 1:  An abstract of thesis by E.A.  Partridge, class of
   ’89, Univ. of Pa.  Read before the Chemical Section of the
   Franklin Institute by Prof.  S.P.  Sadtler.]

It is well known that the paraffine obtained by the distillation of petroleum residues is crystalline, while that obtained directly (as in the filtration of residuum) is amorphous.  Ozokerite or ceresine differs but slightly from paraffine, the principal distinction being want of crystalline structure in it as found.  Other characteristics, such as the melting point, specific gravity, etc., vary in both, and so are not of importance in a comparison.  Hence it has been asked, Is the paraffine occurring in petroleum and ozokerite identical with that which is produced by their distillation?  As crystalline paraffine could be obtained from ozokerite by distillation alone, many persons have supposed that it was engendered in the process.  Recently, however, crystalline paraffine has been obtained from ozokerite by dissolving the latter in warm amyl alcohol; on cooling the greater part separates out in crystals having the luster of mother-of-pearl.  By repetition of this process, a substance is obtained that is scarcely to be distinguished from the paraffine obtained by distillation.  Apparently there exists then in ozokerite, together with paraffine, other substances not capable of crystallization which keep the paraffine from crystallizing.  These colloids appear to be separated by amyl alcohol in virtue of their greater solubility in that menstruum.  It is also reasonable to suppose that they undergo change or decomposition by distillation.

So as petroleum residues are amorphous, and the crystalline paraffine is first produced by distillation, it has been argued that the paraffine present in crude petroleum is approximately the same thing as ozokerite.

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Scientific American Supplement, No. 711, August 17, 1889 from Project Gutenberg. Public domain.