An Evaporating Bath of Sea Sand Heated by Steam - Industrial

An Evaporating Bath of Sea Sand Heated by Steam. P. P. Peterson. Ind. Eng. Chem. , 1917, 9 (7), pp 686–686. DOI: 10.1021/ie50091a028. Publication Da...
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T H E J O U R N A L OF I N D U S T R I A L A N D E N G I N E E R I N G C H E M I S T R Y AN EVAPORATING BATH OF SEA SAND HEATED BY STEAM B Y P. P. I'BTFIRSON

neceivedi-.bruary 24. 1417

The apparatus herewith described has been found so convenient and useful in the laboratories of t h e Department of Soils a t the University of Idaho t h a t i t is thought worth while t o tell other chemists about it. It is made of coils of pipe in a bath of sea sand. The heat is supplied by superheated steam, the flow of which is controlled hy a Sarco steam trap. The tray ( A , Fig. I) is made of No. 24 galvanized iron. Of course, it may be any size. Ours is z it. square and 4 in. deep. B is a coil of iron pipe well fitted so t h a t i t can carry a pressure of 100 t o 1 5 0 lbs. per s q . in. A t the end of this pipe is a Sarco steam trap, C, which allows the escape of steain until a certain temperature is reached when i t closes automatically. The coil B is covered with sifted sea sand of about the size t h a t will pass a 20-mesh sieve and washed free from small adhering particles. It is found t h a t by the use of this bath a much more rapid evaporation can be obtained than with a hot water or steam bath. Aside from this t h e escape of large amounts of steam into the room and the noise often accompanying the same is avoided. T o obtain t h e best results the sand should cover the coils t o the to z in. so t h a t the evaporating dish or depth of I > / ~ casserole may be pressed down into it. When the hot sand is allowed t o come u p on t h e side of the evaporating dish the evaporation is greatly accelerated. A temperature of 140' C. can be obtained in the sand be-

bowever, i t has been found t h a t t o avoid this contamination requires no more care than is necessary with t h e old style boiling water bath or the steam

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bath. Thorough washing of the sand t o remove all small particles makes the avoidance of contamination rather easy. Fig. I1 is a cut of the completed bath. Son, P s a r i ~ i r vLABORAIOKY UNIYQXJiIY

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AN IMPROVED FORM OF A FUMELESS DIGESTION APPARATUS By

3. S . MCHIROUE

Received Pcbruary 23, 1917

In a recent, investigation involving a relatively large nurnlier of nitrogen determinations, it became necessary, on account of t h e lack of flue facilities, to make use of a Sy Fumeless Nitrogen Digestion Apparatus. During the time t h e nitrogen digestions were being made, a number of objectionable features t o this particular apparatus were experienced. The writer has, therefore, enlarged and modified the Sy apparatus in such an advantageous manner as t o consider the changes so made worthy of brief notice in thc chemical Iiteraturc. The chief ooints in which the aooaratus shown in t h e accompanying photograph differs from the Sy apparatus and the advantages gained therehy are as follows: r--Increased capacity. Since most ready-made nitrogcn distillation apparatus provides for 6 distillations t o be carried on a t the same time, there is a saving ol time by having an equal number of digestions provided for. *--The lead pipe and t h e absorption bottle is a more pcrmanent and satisfactory arrangement for controlling and disposing of the acid fumes during digcstion. Practically all the fumes are absorbed in the bottle mhich can be easily emptied and the acid recovered by evaporation, thereby effecting a saving of acid and the corrosive action on the drain pipes as well. The pump used in drawing the fumes into t h e absorption bottle is the ordinary type in general use in Iaboratorics. S-Thc shelf E holds 6 beakers which are placed beneath the lower end of tlie condensing bulbs, and catch tlic acid that drains from the condensing tubes after the digestion flasks are removed. After the digestion is stopped and the flasks become cool, a

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tw-em the pipes. Over the hot plaie, whether lieatcd by a gas flame or electricity, this bath has t h e advantage t h a t there is almost no danger at all of spattering. With the hot plate it is almost impossible to avoid this trouble. The objection t h a t contamination from the sand is likely to take place may be raised and, of course, is t o be taken into account. I n this laboratory,

Vol. 9, No. 7