Instant coffee is also called soluble coffee or coffee powder. It is a beverage derived from brewed coffee beans. The major goal is to produce an instant coffee that taste as better as freshly brewed coffee. Modern technology uses methods that does not require addition of carbohydrate component during production. The process includes following steps. Read more
After natural / wet processing of coffee cherries, de-hulled coffee beans are roasted to give typical flavor and aroma. Roasting is a time temperature dependent process where chemical and physical changes takes place in the green coffee. During roasting, there is also loss of dry matter, primarily as CO2 gas and other volatile products of the pyrolysis. About half of total CO2 generated are retained in the roasted coffee together with a major proportion of the important volatile flavor substances. Roasting is normally carried out under atmospheric pressure with hot air and combustion gases as the primary heating agent. Though heat may also be provided by contact with hot metal surface.
Processing of coffee by wash/wash process includes various processing steps like harvesting, cleaning, pulping, fermentation, drying and storage. Individual processing steps should be carefully performed to avoid any chances of contamination and to prevent damage during processing.
Harvesting and cleaning:
1. For preparation of coffee by wet process, only ripe coffee beans should be harvested.
2. If over ripe or green cherries are harvested, should be stored out on a clean surface.
3. Clean bags should be used for collection of harvested cherries
4. Where fertilizer or cattle feed bags are used, they should be washed thoroughly in running water many times before being used. Read more
Coffee is a climacteric sensitive crop. Factors like elevation, rainfall, and temperature can influence the crop performance considerably. It requires hot humid climate with intervals of dry weather for proper ripening of fruits. The two commercially important species of coffee are Coffea arabica and Coffea robusta. The coffee plant is a small tree which extends to the height of 5 ft. in case of Coffea arabica and 5.5 to 6 ft. in case of Coffea robusta. Coffee can be grown up to 25 ft. in wild state but is pruned for two reasons; to facilitate harvesting and to maintain optimal tree shape. Read more
After completion of fermentation, it has to be stopped as soon as possible to avoid the over fermentation. Drying of the mass with hot air stop fermentation process. Drying reduce the moisture content of fermented leaves from 50 – 70 % moisture content to 3 %. In dry black tea, it also allows development of tea aroma. Drying is physically achieved by blowing hot air through fermented leaves as they are conveyed in chains. The temperature of hot air in the inlet is 100 – 120°C conveyed while that at the outlet is 56°C. Drying process takes about 15 to 30 minutes. The principle biochemical process involves conversion of chlorophyll to pheophytin and pheophorbide responsible for the black appearance in the manufactured tea. The high temperature during drying also cause loss of low volatile compounds, continuation of few reaction of fermentation stage and the formation of new compounds like β-ion and theaspirone which play an important role in the formation of aroma. Read more
The aim of rolling is to establish proper condition for an enzymatic oxidation (fermentation) of catchin and polyphenols by polyphenolase in the presence of atmospheric oxygen. Rolling twist the leaf, break the cell structure and expel the juices, catchin and enzymes. Catchin and enzymes are originally separated in fresh leaf by cell compartment. During rolling, both the polyphenols and enzymes polyphenolases are brought together and are exposed to the atmospheric condition that begins the oxidation process. Read more
Withering brings about physical and chemical changes in the shoots and leaves to produce quality tea. It also provides flush to tea leaves for rolling in subsequent step by reducing turgor pressure. Withering is generally achieved by thinly spreading the flush on mats or in thicker layer in trough for 8 – 20 hours, depending on condition of leaf. During this period, the moisture content of leaf drop between 60 – 65 % (in soft withering) and 50 – 55 % (in hard withering). The physical part of withering can be achieved quickly by passing blast of hot air (35°C) through the leaves but this may adversely affect quality of tea because of inhibition of full biochemical changes. Moisture evaporation in leaves takes place through stomata and highly through the epidermis. The rate of loss of moisture not only depends on external condition but also on the leaf standard. Leaves and buds loose moisture more easily than the stalk and shoots. Read more