Chapter XVII
THE CHEMISTRY OF THE COFFEE BEAN
Chemistry of the preparation and treatment of the green bean—Artificial aging—Renovating damaged coffees—Extracts—"Caffetannic acid"—Caffein, caffein-free coffee—Caffeol—Fats and oils—Carbohydrates—Roasting—Scientific aspects of grinding and packaging—The coffee brew—Soluble coffee—Adulterants and substitutes—Official methods of analysis
By Charles W. Trigg
Industrial Fellow of the Mellon Institute of Industrial Research, Pittsburgh, 1916–1920
When the vast extent of the coffee business is considered, together with the intimate connection which coffee has with the daily life of the average human, the relatively small amount of accurate knowledge which we possess regarding the chemical constituents and the physiological action of coffee is productive of amazement.
True, a painstaking compilation of all the scientific and semi-scientific work done upon coffee furnishes quite a compendium of data, the value of which is not commensurate with its quantity, because of the spasmodic nature of the investigations and the non-conclusive character of the results so far obtained. The following general survey of the field argues in favor of the promulgation of well-ordered and systematic research, of the type now in progress at several places in the United States, into the chemical behavior of coffee throughout the various processes to which it is subjected in the course of its preparation for human consumption.
Green Coffee
One of the few chemical investigations of the growing tree is the examination by Graf of flowers from 20-year-old coffee trees, in which he found 0.9 percent caffein, a reducing sugar, caffetannic acid, and phytosterol. Power and Chestnut[102] found 0.82 percent caffein in air-dried coffee leaves, but only 0.087 percent of the alkaloid in the stems of the plant separated from the leaves. In the course of a study[103] instituted for the purpose of determining the best fertilizers for coffee trees, it developed that the cherries in different stages of growth show a preponderance of potash throughout, while the proportion of P2O5 attains a maximum in the fourth month and then steadily declines.