Investigation of Biochemical Properties and Fractional Composition of Amaranth Oil
Investigation of Biochemical Properties and Fractional Composition of Amaranth Oil
摘要
The aim of the study is to conduct comprehensive experiments and developments of innovative technologies to produce the oil extract of amaranth for their application as food additives in the food industry. To achieve the aim, the following tasks were identified: (I) study the physicochemical, biochemical properties and the composition of amaranth seeds; (2) improving the methods for producing the oil extract of amaranth. This article is devoted to complex research of processes of manufacture of vegetable oils. Authors have developed scientific bases of improvement and an intensification of technological processes for production of oil from amaranth seeds. The authors have developed a new technology for extracting of oil from amaranth seeds using hexane as a solvent. The proposed method provides to obtain oil without great technical effort and keeps it all the nutrients that promote the highest taste of the product and with little labor and time costs.
参考文献8
-
1V.A. Dubinsky, Research Report of the Transcaspian Region for Medicinal and Industrial Plants, Food Industry, Moscow, USSR, 1981.
-
2V.M. Berezovsky, Chemistry of Vitamins, 2nd ed., Food Industry, Moscow, USSR, 1973.
-
3A.M. Ahmad-Zadeh, N.A. Mamedov, Essential oil from amaranth purple: Amaranth, agroecology, processing, use, The Second Final Conference of Young Scientists and Specialists, Kazan, RF, 1991, pp. 38-39.
-
4U.S. patent number No. 2560935, No. 2682551, No. 2254245, No. 1802533.
-
5O.S. Voskonyan, V.H. Paronyan, T.V. Shlenskaya, Control of Fat Processing, Fat Industry, Moscow, RF, 2004, No.3, pp. 30-31.
-
6A.M. Dyrnchin, V.D. Vugayov, Fatty acid composition of seed oils of different varieties of amaranth: New and innovative plants and prospects for their use, in: The Material of the II International Symposium, Push chino, RF, 1997, T1, pp. 165-167.
-
7E.P. Koshevoy, Equipment for the Production of Vegetable Oil, Moscow, RF, Agropromizdat, 1991, p. 208.
-
8N.A. Kalasheva, E.P. Koshevoy, V.M. Berezovsky, Express Method of Determining the Mass Fraction of Phosphorus-Containing Compounds in Vegetable Oils and Fats, Moscow, USSR, 1988.
-
1高复兴,张玉霞,宋群立.食用苋菜红色素的提取和稳定性研究[J].信阳农业高等专科学校学报,2000,10(3):19-21. 被引量:4
-
2江城梅,赵红,田磊,王允滋.菜油对脂质过氧化物、胆固醇及甘油三酯的影响[J].蚌埠医学院学报,1996,21(4):221-223.
-
3新技术能实时监测单个细胞间相互作用[J].硅谷,2011(16):112-112.
-
4新技术能实时监测单个细胞间相互作用[J].中国西部科技,2011,10(21):65-65.
-
5刘晶晶.安捷伦科技庆祝CGH微阵列芯片创新技术推出10周年[J].中国食品,2014,0(21):125-125.
-
6唐恒.一种植物育苗和栽培的基质及其制造方法[J].江苏大学学报(自然科学版),2004,25(1):84-84.
-
7纳米新技术能实时监测单个细胞间相互作用[J].技术与市场,2012,19(4):303-303.
-
8蓝建中.日本开发海藻生物乙醇新技术[J].粮食科技与经济,2010,35(5):3-3.
-
9创意无限,力促中国实验创新研究——赛默飞世尔科技携手生物通评选“2010年实验室创新技术大奖”[J].中国仪器仪表,2010(8):28-28.
-
10冯越.创新技术推动生命科学领域步伐[J].食品工业科技,2009,30(9):47-47.
