German Letter. - ACS Publications - American Chemical Society

German Letter. Walter Roth. Ind. Eng. Chem. , 1924, 16 (12), pp 1285–1285. DOI: 10.1021/ie50180a033. Publication Date: December 1924. ACS Legacy ...
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December, 1924

INDUSTRIAL A N D ENGINEERING CHEiWISTRY

the council. H. M. Tory is the president of the Research Council. This council is expected to represent the Government in the promotion of research work in all its phases in Canada and t o carry out investigations on its own, in much the same way as the Bureau of Standards does a t Washington. The idea is to combine in this governmental body the functions of a Bureau of Standards and a Mellon Institute. RESEARCH COUNCIL, OF ALBERTA The propagation of industrial research in Canada under government auspices is not confined t o the Dominion Government, but is also carried on by the Provincial Government of Alberta. The Annual Report of the Scientific and Industrial Research Couiicil of Alberta, which has just come from the press, indicates that the principal investigations conducted during the year dealt with fuels. Methods of storing coals were studied and progress was made during the year in working out suitable methods for testing domestic heaters. Work on the briquetting of carbonized lignite was continued and methods for reducing the ash content of certain high-ash coals were developed. Geological investigations were carried on in the gas and oil areas and a salt well log was studied. The investigation of the bituminous sands of Northern Alberta was continued with a view to their separation and utilization in road construction. The Research Council of Alberta is providing a considerable fund of information with respect to the utilization of raw materials found in that province. November 3, 1924

German Letter By WaIter Roth C ~ T I I E NGERXANY ,

SCIENTIFIC MEETINGAT INNSBRUCK Autumn is the time of conventions in Germany. The most important of these is.. the meeting of the Gesellschaft Deutscher Naturforscher und Arzte, which celebrated its centennial two years ago, and this year met in the beautiful Innsbruck in GermanAustria. About six thousand people were present a t this meeting and over five hundred papers were read before the thirty-three sections. The chief value of scientific meetings lies, not in the sectional, but in the general sessions,where up-to-date information on the most important features of research in medicinal and natural science is given by well-known authorities and in this way an attempt is made to bring physicians and natural scientists closer together. Of these general papers, that of Vegard, of Christiania, on the northern lights was outstanding. He advocates the theory that the largest part of the aurora borealis is due to cathode rays, also that in the region where i t occurs the atmosphere consists chiefly of nitrogen but that owing to the low temperature the atoms unite to form extremely small particles of molecular size in the manner of union characteristic of the solid condition. Reference should also be made to the paper by Decker, of Jena, which showed that the decaterpene C~OH,forms the real cell of the diamond lattice and comes into consideration for the synthesis of diamonds. Already Liebig has advanced the theory that the diamond originated from fossil resins, which have a terpene-like structure and owing to pressure kept losing more and more hydrogen forming ring compounds. Of the other addresses that of Ott, of Miinster, should be mentioned. He discussed the utilization of cyanuric compounds in the chemical industry. Cyanuric triazide has been suggested as a primer; moreover, the cyanuric ring, especially cyclic azine, is suitable for the production of dyes. Like cyanuric chloride, the chloride of cyanuric tricarbonic acid, (CSN1) (COCl)s, recently obtained by Ott, can be used in the preparation of vat dyes. Among the new medicinals first reported at Innsbruck are Albert 102, said to be superior to salvarsan, and a lime preparation, Oscalsan. Other innovations were displayed a t the exhibition that was connected with the convention-namely, various insulin preparations, bismuth and antimony remedies, colloidal medicines, etc. SEPARATION OF CHEMICALS AND MINERALSBY FLOTATION Professor Traube, who has been working for some time on the so-called flotation method for the preparation of minerals, recommends this process also for the separation of chemicals. For example, if about equal parts of anthracene or carbazole are mixed with alizarin and the mixture is poured into water in a test tube and shaken, if the alizarin is pure it separates almost quantitatively from anthracene because of its good wetting power to-

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ward water. If the alizarin crystals are not absolutely pure, then no separation occurs, even on vigorous shaking, although the addition of a drop of a colloid solution-e. g., a 1per cent solution of albumin-will bring about an almost quantitative separation. The white anthracene remains on the surface, the red alizarin collects a t the bottom of the test tube. On the basis of the experiments of Traube and his collaborators it should be possible to separate oils and fats that are bound t o chemicals and other materials by adsorption, by means of good wetting colloids in water solution. For example, when a dark brown, very oily naphthalene is shaken two or three times with small quantities of very dilute sulfite liquor, pure white naphthalene and an oil emulsion, from which oil can easily be separated, are obtained. CATALYTIC OXIDATION O F AMMONIA Professor Kassner describes a new oxidation catalyst, Nitroxan, which is a combination or mixture of barium metaplumbate and barium manganate. At low temperatures (260" to 450' C.) this catalyst immediately forms barium nitrate when added to ammonia; a t higher temperatures (over 500" C.) it oxides the ammonia to saltpeter and nitrous gases, the nitrogen dioxide content of which compared with the nitrogen oxide content increases as the temperature approaches the decomposition temperature of barium nitrate (about 550' C.) Thus the Nitroxan is useful as a catalyst in two ways: (1) in continuous processes, in which the mixtures of ammonia with air or air containing more oxygen than usual are converted a t high temperature to saltpeter and nitrous gases having a high nitrogen dioxide content, and finally condensed in the usual way to nitric acid; or (2) in batch processes, where the hydrolyzed Nitroxan is treated a t low temperatures (about 260" to 450" C.) with ammonia-air mixtures. From time t o time the barium nitrate formed is withdrawn from the nitrate-containing catalyst by lixiviation or (less desirable) by ignition, the lost barium being replaced by the addition of powdered barium hydroxide. By this method an almost 100 per cent conversion of ammonia to nitrate is made possible-that is, without loss of nitrogen. SUBSTITUTE POR PLATINUM A. Gawalowski recommends as a substitute for platinum, alloys of aluminium and silver whose surfaces have been dusted with platinum black and then hammered or subjected to heavy pressure. Alloys of this kind are on the market under the names Alargan, Platalargan, and Platnik. Alargan consists only of aluminium and silver, Platalargan contains in addition platinum, while Platnik consists only of nickel and platinum. These alloys will not take the place of platinum in analytical work, but only in mechanical practice. Moreover, there are still certain practical difficulties to overcome. ACID-RESISTANT RUBBER LININ+ According to F. Ahrens, only the cheapest kinds of raw gum are used for the production of acid-resistant rubber linings. Rubber coatings of soft rubber show a much greater resistance and permanence than those of hard rubber. Hard rubber softens a t 60 to 70" C., whereas soft rubber keeps its shape up to 120" C. for a considerable length of time. Coating large kettles is really accomplished more easily with soft rubber than with hard rubber. To prepare coatings of this kind the iron surFace is first cleaned by means of a sand blast, then coated with the rubber solution, covered with a sheet of rubber several millimeters thick, coated a second time with the solution and covered with tin foil, which latter is removed after vulcanization as it is only used to protect the rubber from deformation during the vulcanization and the softening a t the beginning of the procedure. ROTOXIT This new acid-resistant material is a copper-silicon alloy which is especially suitable for making armatures, valves, stopcocks, pumps, etc., in chemical industries. This material is resistant to sulfuric acid, as well as to alkalies and hydrochloric acid, being ten times more resistant than 18 per cent ferrosilicon. For use with nitric acid the addition of tin is recommended, and even then the alloy should be cheaper than tin bronze or similar alloys. October 20, 1924

Italian Requirement for Denaturing Alcohol for the Manufacture of Formaldehyde-According to a cablegram from the commercial attache at Rome, an Italian decree of August 5 , 1924, provides that pure methanol intended for the manufacture of formaldehyde may be denatured as follows, in order to benefit by the refund of the manufacturing tax when manufactured for industrial use: To each hectoliter of pure methanol must be added 1 liter of formaldehyde a t 40 per cent and 1 gram of methylene blue.

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