O óleo do café torrado Brasileiro obtido através de extração com CO 2 supercrítico mostrou consideráveis propriedades aromáticas, constituído principalmente por cinco compostos aromáticos: 2-metilpirazina; 2-furfuril álcool, 2,5-dimetilpirazina; γ -butirolactona e 2-furfuril acetato. Análises sensoriais foram usadas para verificar a influência da mistura destas importantes classes de compostos aromáticos de café (pirazinas, furanos e lactonas) e do óleo aromático de café torrado no aroma e sabor de bebidas preparadas com café solúvel instantâneo liofilizado e seco por spray dryer. Na análise da aceitação do aroma, a amostra preparada com café liofilizado sem a mistura de compostos voláteis (amostra 4) não diferiu da amostra de café liofilizados com adição de óleo (amostra 5) nem tão pouco da amostra de café liofilizado com adição da mistura dos cinco voláteis (amostra 3), coincidentemente oriundas do mesmo processo de secagem. Entretanto a amostra 3 não diferiu das amostras preparadas com café seco por spray dryer sem (amostra 1) e com (amostra 2) a mistura de voláteis. Indicando que a adição desta mistura, com relação a este atributo não interfere na aceitação desta bebida. Na avaliação do sabor, as amostras preparadas com café solúvel liofilizado enriquecida com óleo aromático (5) e as amostras com (3) e sem (4) a mistura dos cinco voláteis não diferiram significativamente, entretanto a amostra (4) não diferiu das amostras (1) e (2). Para este atributo, a adição do óleo aromático de café torrado ou da mistura de voláteis nas amostras de café liofilizado fez com que tivessem uma melhor aceitação que aquelas secas por spray dryer (1) e (2). Desta forma, o enriquecimento das bebidas com o óleo aromático de café torrado, ou mesmo com a mistura dos cinco componentes não influenciou a aceitação do consumidor com relação ao aroma, mas exerce influência com relação ao sabor.
The oil obtained from Brazilian roasted coffee by supercritical CO 2 extraction shows considerable aromatic properties, mainly composed by five aromatic compounds, 2-methylpyrazine; 2-furfurylalcohol, 2,5-dimethylpyrazine; γ-butyrolactone and 2-furfurylacetate. Sensory analyses were used to verify the influence of a mixture of these important classes of aromatic coffee compounds (pyrazines, furans and lactones) and of the roasted coffee aromatic oil on the coffee aroma and flavour of black instant freeze and spray-dried coffee beverages. In the acceptance evaluation of the aroma, the samples prepared with freeze-dried instant coffee without the mixture of volatile compounds (sample 4) were not significantly different from the freeze-dried instant coffee in which the aromatic coffee oil was added (sample 5) and from the sample prepared with freeze-dried coffee in which the mixture of the five volatile was added (sample 3), coincidentally from the same drying process. Therefore, sample (3) did not differ from samples prepared with spray dried instant coffee without (sample 1) and to which (sample 2) the mixture of volatile was added. Therefore, with respect to this attribute, the addition of this mixture did not interfere in this drink acceptance. Taking into consideration the flavor, samples prepared with freeze-dried instant coffee in which the aromatic coffee oil was added (5) and the samples with (3) and without (4) the mixture of the five volatile was added did not differ significantly, however sample (4) did not differ from samples (1) and (2). Regarding this attribute, the addition of the aromatic oil of roasted coffee or a mixture of volatile in samples of freeze-dried instant coffee had a better acceptance than those dried by spray dryer (1) and (2). Thus, the enrichment of drinks with the aromatic oil of roasted coffee, or even with the mixture of the five components did not influence the consumer acceptance with respect to the aroma, but exerts influence with respect to flavour.