Kajian Mutu Kimia Bubuk Kopi Espresso Aceh Berdasarkan Rasio Pencampuran Varietas Kopi Arabika dan Robusta dan Teknik Penyangraian
Abstract
Generally there are two coffee varietes cultivated in Indonesia, known as Arabica and Robusta coffee. Arabica distinctively known for its distinctive quality but limited quantity compared to robusta which is commonly use for commercial coffee production due to its robust productivity. Nowadays, global market demand encourages a huge variety of coffee product, based on coffee such as espresso. The quality of espresso is influence by many factors such as roasting technique and ratio blending of coffee ground. This study aims to determine the influence of blending ratio and roasting techniqus to the chemical compounds of coffee ground and its espresso brewed. This research used Factorial Random Design, consists of 2 factors. First factor is ratio of blending Arabica and Robusta with three levels ratio; B1=70:30; B2=80:20; and B3=90:10). The second factor is roasting technique, consisting of 2 levels of conventional roasting(P1) and torrefacto (P2). Each treatment was repeated 3 replications to obtain 18 units of experiment. Measured parameters are pH of brewed espresso and moisture (%), ash (%), protein (%), lipid (%) and caffeine (%) contents of coffee ground. The results showed that the blending ratio was highly significant (P≤0,01) to the moisture and protein contents of coffee grounds and pH of resulted espresso. The best treatment was obtained from combination of B1P1 treatment (combination blending ratio (70%:30%) and conventional roasting) with 2.00% moisture content, 4.83% ash, 13.04% protein, 10.41% fat, 81.17% carbohydrate and caffeine 1.49%.
Keywords
Full Text:
PDFReferences
International Coffee Organization. Coffee Production. Internet: https://www.ico.org/prices/po-production.pdf [Nov.10, 2021].
International Coffee Organization. Coffee Exports based on Countries. Internet: https://www.ico.org/prices/m1-exports.pdf [Nov.10, 2021].
International Coffee Organization. Coffee Consumption based on Countries. Internet: https://www.ico.org/prices/m1-exports.pdf [Nov.10, 2021].
Mulato, S dan E. Suharyanto. Kopi Seduhan dan Kesehatan. Pusat Penelitian Kopi dan Kakao Indonesia. Jember .2015.
A. Illy and R. Viani, Espresso coffee: the science of quality. Academic Press, 2005.
Busono. Mengenal Dan Membuat Sendiri Berbagai Menu Kopi Internasional. Koperasi Nukita, Bandung. 2014.
M. Muzaifa and D. Hasni, “Exploration study of Gayo specialty coffee (Coffea Arabica L.): Chemical compounds, sensory profile and physical appearance,” Pakistan J. Nutr., vol. 15, no. 5, 2016, doi: 10.3923/pjn.2016.486.491.
A. Farah, Coffee: Production, quality and chemistry. Royal society of chemistry, 2019.
Y. Abubakar, S. Sabariana, R. Rasdiansyah, and D. Hasni, “Sensory characteristic of espresso coffee prepared from Gayo arabica coffee roasted at various times and temperatures,” in IOP Conference Series: Earth and Environmental Science, 2021, vol. 667, no. 1, p. 12048.
H. G. Maier, “Changes Produced by Roasting,” Espresso Coffee Sci. Qual. Illy A. R. Viani Elsevier Acad. Press. London, UK. Pp, pp. 191–197, 2005
S. Schenker and T. Rothgeb, “The roast—Creating the Beans’ signature,” in The craft and science of coffee, Elsevier, 2017, pp. 245–271.
F. Wei and M. Tanokura, “Chemical changes in the components of coffee beans during roasting,” in Coffee in health and disease prevention, Elsevier, 2015, pp. 83–91.
M. Charles et al., “Understanding flavour perception of espresso coffee by the combination of a dynamic sensory method and in-vivo nosespace analysis,” Food Res. Int., vol. 69, pp. 9–20, 2015, doi: 10.1016/j.foodres.2014.11.036.
A. S. Muttalib, W. J. N. Karyadi, and N. Bintoro, “Identifikasi Aroma Campuran (Blending) Kopi Arabika Dan Robusta Dengan Electronic Nose Menggunakan Sistem Pengenalan Pola,” Semin Nas Perhimpun Ahli Tek Pertan, pp. 154–163, 2012.
AOAC. Official Methods of Analysis. 16th Edition (Washington D.C.: Association of Analytical Chemist).2005.
D. Rahmad, D. Hasni, M. Muzaifa, and N. Safraini, “Characteristics of Gayo Coffee’s Chemical Compound Based on Different Roasting Condition–An Explorative Study,” in Proceedings of ICoChEA (International Conference On Chemistry And Engineering In Agroindustry), 2017, vol. 1, no. 1, pp. 41–44.
Winarno, F.G. Kimia Pangan dan Gizi. M Brio Press, Bogor. 2004.
G. Caprioli, M. Cortese, G. Sagratini, and S. Vittori, “The influence of different types of preparation (espresso and brew) on coffee aroma and main bioactive constituents,” Int. J. Food Sci. Nutr., vol. 66, no. 5, pp. 505–513, 2015.
W. B. Sunarharum, D. J. Williams, and H. E. Smyth, “Complexity of coffee flavor: A compositional and sensory perspective,” Food Res. Int., vol. 62, pp. 315–325, 2014.
R. Hayati, A. Marliah, and F. Rosita, “Sifat kimia dan evaluasi sensori bubuk kopi arabika,” J. Floratek, vol. 7, no. 1, pp. 66–75, 2012.
N. Bhumiratana, K. Adhikari, and E. Chambers, “Evolution of sensory aroma attributes from coffee beans to brewed coffee,” LWT - Food Sci. Technol., vol. 44, no. 10, pp. 2185–2192, 2011, doi: 10.1016/j.lwt.2011.07.001.
R. Kustiari, “Perkembangan Pasar Kopi Dunia dan Implikasinya bagi Indonesia,” Forum Penelit. Agro Ekon., vol. 25, no. 1, p. 43, 2016, doi: 10.21082/fae.v25n1. 2007. 43-55.
Badan Standarisasi Nasional. SNI 01-3542-1994. Kopi Bubuk. Dewan Stadarisasi Nasional, Jakarta. 1994.
Refbacks
- There are currently no refbacks.