the analysis of non-alcoholic lemon and orange extracts

lemon, 467 gals, per ton of loganberries and 290 gals, per ton of blackberries were obtained, in this laboratory. III— Orange jelly stock was found ...
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May, 1916

T H E JOCR.VAL O F 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

one lemon, 467 gals. per ton of loganberries and 290 gals. per ton of blackberries were obtained in this laboratory. 111-Orange jelly stock was found t o clear satisfactorily b y settling twenty-four hours; other juices required a longer time and did not settle so completely as t h e orange jelly stock did. All juices tested were clarified satisfactorily b y t h e addition of 1000--2000 g. Spanish clay per hectoliter (from a I O or 2 0 per cent suspension of t h e clay in water), followed by heating t o 100' C. and settling. IT'-Changes in and loss of fruit flavors a n d aromas in jelly making were found t o be due t o decomposition by heat and t o direct loss b y volatilization. V-Jellies with practically all of t h e aroma and flavor of t h e fresh fruit were made by crushing fruits high in pectin, pressing out t h e juice, and adding sufficient sugar t o increase the Brix degree to 65". Loganberries and currants were especially adapted t o this procedure VI-An acidity between 0.5 and 1.5 per cent for fruit juices t o be made into jelly seemed t o be the optimum range for production of satisfactory jellies. VII-A Brix degree of 6 j O was necessary t o prevent spoilage by mold and yeasts where jellies were inoculated with these organisms. UNIVERSITY OF CALIFORAIA EXPERIMENT STATIOK BERKELEY

THE ANALYSIS OF NON-ALCOHOLIC LEMON AND ORANGE EXTRACTS B y E. I,. RFDFERN Received November 29, 1915

During the last year there have appeared on t h e market various flavoring extracts containing no alcohol b u t made u p with gum tragacanth a n d glycerine in which the essential oils are held in suspension. It is obvious t h a t the amount of oil present cannot be determined by t h e ordinary methods a n d an attempt was made t o devise Some method b y which t h e oils could be determined quantitatively t o see if this class of extracts was up t o t h e legal standard. These extracts are quite viscous and unless warmed slightly, pour with difficulty, but. by warming for a few minutes they can be measured in an accurately graduated cylindrical graduate. The use of a pipette for measuring is not satisfactory. as a considerable amount of the mixture adheres t o the inside of the pipette and is difficult t o remove. while with a graduate it can be removed by letting the graduate drain for a few minutes into the flask t o be used in t h e analysis and then rinsing with a little alcohol. A standard extract containjng j per cent of lemon oil was made u p as follows: Ijo cc. gum tragacanth, which had been soaked in water and reduced t o the proper consistency, 40 cc. glycerine and I O cc. pure lemon oil. First a n a t t e m p t was made t o extract t h e oil in a separatory funnel with ether b u t an emulsion was formed which could be only partly broken u p b y running in the centrifuge. The ether was drawn off through a small dry filter into a tared flask, evaporated off spontaneously and dried for a few hours in a

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desiccator. T h e final weight of oil obtaiiied from I O cc. of the j per cent extract was 0.2664 and 0 . 2 2 4 6 g. in duplicate determinations. Ten grams of extract were then mixed with anhydrous CuSOd t o apparent dryness and extracted in a Soxhlet extractor with anhydrous ether b u t only 1 7 per cent of t h e oil was recovered. Distillation with steam gave 24 per cent recovery of oil. The fact t h a t gums are precipitated with alcohol suggested a possible solution of the difficulty: 2 j CC. of the standard extract were measured out and transferred t o a 200-cc. Erlenmeyer flask, 2 j cc. of 95 per cent alcohol were added and the flask was then shaken vigorously. The alcohol was filtered o n a Gooch crucible and collected in a 100-cc. graduated flask, care being taken t o prevent a n y of t h e precipitated gum from running into t h e crucible. The precipitate was washed several times with 9 j per cent alcohol and t h e filtrate made u p t o IOO cc. The precipitation method using j o cc. of this solution did not give uniform results, owing t o the fact t h a t with this high strength of alcohol a considerable quantity of t h e oil was held in solution. The method suggested b y Howard1 was then used which gave 4 96 and j per cent oil in duplicate tests on the j per cent standard. An orange extract was made u p as in the case of lemon, using orange oil, and gave in duplicate tests with Howard's method 4 . 8 0 per cent of oil. Duplicate tests of a n unknown extract gave j 2 and j . 0 4 per cent. I n these tests a Babcock milk bottle graduated t o I per cent was used t o insure more accurate reading as t h e amount of oil in t h e dilutions is small. Especially is this t r u e in substandard extracts. If the analysis of an extract shows t h a t it is much below standard, t h e author has found it advisable t o repeat t h e analysis using a skim milk bottle graduated t o 0.01per cent, which makes it possible t o read very small amounts of oil. The supernatant liquid in t h e skim milk bottle can be easily drawn off b y attaching a suction tube t o t h e filling tube on t h e bottle and decanting off the remaining small amount through the capillary tube as the chloroform carries t h e oil present and remains on t h e bottom. The method has been used in this laboratory for several months a n d has given uniform results. IOWADAIRYA N D FOODCOMMISSION DES MOINES

THE ANALYSIS OF MAPLE PRODUCTS, VI11 The Application of the Conductivity and Volumetric Lead Subacetate Tests to Maple Sugar By J. F. SNELLA N D G . J. \'AX ZOEREN Received August 27, 1915

I n Papers I 2 and VI13 of this series a conductivity test and in Paper VI4 a volumetric lead subacetate test for purity of maple syrup have been described. The question remained how these tests could best be applied t o sugars. Two methods of procedure suggested themselves: ( I ) A quantity of sugar sufficient 1

J. A m . Chem. SOC.,1908, 608.

2

THISJOURNAL,6

a 4

(19131, 740.

Ibid., 8 (1916), 331. I h i d . , 8 (19161, 241.