Coffee Science
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Item Coffee and blood pressure(Universidade Federal de Lavras, 2024-06-17) Nurvita, Silvia; Rizkaprilisa, WindyCoffee has a characteristic taste, aroma and color that attracts its fans. Coffee is one of the drinks most consumed after mineral water. Annual coffee consumption is estimated at around 500 billion cups/year. Coffee contains a lot of caffeine and other chemical compounds. Coffee having a positive impact on health, also has a negative impact on health. The negative impact of coffee on health is that coffee affects blood pressure (BP) and the risk of hypertension. This research aims to determine the effect of coffee on blood pressure according to existing research. This research method uses the Literature Review (LR) research type. The article inclusion criteria used for this research were articles published in 2020-2023 with the keywords coffee, blood pressure, the relationship between coffee and blood pressure, the effect of coffee and blood pressure. This research found three articles that met the inclusion criteria for this research. The results of this research explain that three articles, there are two articles which prove that coffee consumption has no effect on blood pressure, but there is one article which shows that the duration of coffee consumption has an effect on systolic blood pressure. The conclusion of this literature study from these three articles can be concluded that on average coffee consumption has no effect on blood pressure. Coffee that is good for health is pure coffee that is brewed without a sugar.Item Roasting variations and brewing methods in the preparation of clear Coffee Beverages from Gayo Arabica Coffee(Universidade Federal de Lavras, 2024-07-29) Sulaiman, Ismail; Marsyanda; Erika, CutCoffee drinks are trendy drinks around the world, and they usually contain caffeine. However, this research focuses on creating a coffee drink that does not contain caffeine so that those who cannot consume it can enjoy it. The resulting coffee drink is a colorless coffee drink. The coffee production process initially produces a black-colored drink, but it can turn it into a clear-colored drink through distillation and chemical methods. This research aims to study the process of making clear coffee by varying roasting and brewing levels with various variations to obtain clear-colored coffee and low caffeine levels. Preparation of clear coffee drinks is done by brewing espresso and Tobruk, which is then analyzed for pH, caffeine, and color tests on the results of the clear coffee drink. Based on the ranking test on each parameter tested on clear coffee drinks, the best treatment is using the distillation method, espresso brewing, and medium roasting level. The analysis results of this selected formulation produced a transparent beverage color (clear), pH 3.5, and caffeine levels of 4.639 mg/mL.Item Cold coffee beverages extracted by cold and hot methods: composition and sensory acceptance by youngers(Editora UFLA, 2021) Violin, João Leonardo; Acre, Lucas Bonfanti; Francisco, Julyene Silva; Mori, André Luiz Buzzo; Benassi, Marta de ToledoBrazil is the second largest coffee consumer in the world, however, the participation of the young public in this market is not very expressive. The objective of this study was to evaluate the impact of non-sensory (packaging color, information, and images) and brewing methods (hot or cold extraction) on the acceptance of cold coffee beverages by young consumers. A coffee:water ratio of 1:10 (w:v) and infusion during 4 min and 24 h was used for both hot and cold extractions, respectively. Hot extraction was performed at 95 °C, then cooled in a refrigerator and served at 6 to 10 °C, the same temperature that the cold extraction was performed and served. The beverages were characterized by composition and extraction yield. The packaging of the beverages was designed aiming to appeal to the young Brazilian public (15 to 24 years old), and it was used for the Expectation Evaluation. The type of extraction (hot or cold) produced beverages with differences in composition but with similar acceptance. Except for pH (average value of 5.1), the beverages differed in all the studied parameters. Hot-extracted beverages (iced coffees) had higher contents of caffeine, chlorogenic acids, and melanoidins (92.9, 258.2, and 360.8∙10-6 kg 100 mL-1, respectively); they also presented higher acidity (3.4 mL of NaOH 20 mL-1) as well as higher yield compared to the cold-extracted beverages (cold brews). The use on product labels of brown and black colors, coffee bean images, and the inclusion of information regarding the bever ages (extraction method, consumption temperature, non-addition of sugar) generated a positive expectation that was assimilated by the young public. In conclusion, both proposals of cold coffee beverages (by hot or cold extraction) were well accepted considering their sensory and non-sensory aspects.Item Physicochemical, microbiological, and sensory characterization of fermented coffee pulp beverages(Editora UFLA, 2021) Cruz, Claudia Milena Amorocho; Cortés, Yenifer MuñozCoffee pulp is the first by-product generated from coffee processing, a contaminating residue due to its composition and production volume. So, this research presents the use of coffee pulp with honey and sugar cane juice to elaborate alcoholic beverage and infusion. The harvested coffee was washed, pulped; the pulp was distributed in 3 treatments, by duplicates, (T) coffee pulp and water, (M) coffee pulp, water and honey, (G) coffee pulp and sugar cane juice. Then, each treatment was brought to 85 °C for 15 minutes, warmed up and yeast was added to each container. Fermentation was carried out for 14 days at 15 °C. After the liquid was separated from the pulp, the liquid fraction was left to ferment another 14 days, it was clarified with bentonite, it was bottled and for 102 days mature, the degrees of alcohol was measured by simple distillation. The pulp was placed in an oven at 75 °C for 3 days, the chemical composition was analyzed by FTIR, it was packed in hermetic bags, the dry coffee pulp was used to prepare an infusion. For its use, a fermented drink and an infusion were elaborated, evaluating physicochemical, microbiological, and sensorial characteristics through three treatments. The fermented drinks presented values of alcohol degrees 7°- 6°. The treatment with honey obtained a greater acceptance followed by the treatment with sugar cane juice. The infusions were acceptable, differentiated by herbal notes, pleasant aromas, and sweet flavors. In the pulp, the following were characterized by FTIR chemical compounds and wavelengths that show their absorbencies; caffeine with ranges of 2920-2850 and 1620 cm-1, 3280 cm-1 H2O, 1740 cm-1 lipids, 1240 cm-1 chlorogenic acid, and 1015 cm-1 carbohydrates. Finally, the infusions with coffee pulp were accepted by the evaluators, especially those that went through the fermentation process with honey and sugar cane.Item Optimization of robusta green coffee fermentation using response surface methodology(Editora UFLA, 2020) Narko, Tedjo; Wibowo, Marlia Singgih; Damayanti, Sophi; Wibowo, Indra; Hadiyat, Mochammad ArbiKombucha coffee is a fermented coffee bean, which is extracted using a combination of bacteria and yeast. Kombucha coffee can be obtained by optimizing the three variables, namely sugar concentration, incubation temperature and duration of fermentation using a response surface methodology (RSM). This study aimed to produce kombucha coffee with a low concentration of caffeine and a high concentration of chlorogenic acid by optimizing three influential variables in the fermentation. The analysis of caffeine and chlorogenic acid contained in the kombucha coffee was carried out by using High Performance Liquid Chromatography (HPLC) and then the analysis of optimization was carried out by using Response Surface Methodology (RSM). The results of RSM show that the optimum condition was obtained at sugar concentration of 6.77% (b/v), incubation temperature of 25 °C and incubation for 18 days. The results were similar to HPLC analysis. Finally, the fermentation using RSM on kombucha coffee required an additional variable which is the amount of kombucha culture inoculums, as well as the variables of sugar concentration, incubation temperature, and duration of fermentation.