Unique taste, small competitive, temperature controlled fermentation.
口味独特,竞争力小,控温发酵。
Controlled fermentation and mechanical drying method can be used commercially.
受控发酵和机械干燥方法可以商业化应用。
But in the early 1980s, stainless steel arrived, and with it temperature-controlled fermentation, which many winemakers now employ.
但到了20世纪80年代初期,不锈钢被用来进行控温发酵,一直到现在许多酒类制造商仍在使用它。
Traditional methods include dehydration, smoking, salting, controlled fermentation, and candying; certain spices have also long been used as antiseptics and preservatives.
传统的方法有脱水、烟熏、腌渍、发酵、蜜饯等,某些香料长久以来也被用作防腐剂来保存食物。
Used for engraving glass, cleaning residue on the sand casting, controlled fermentation, power semiconductor wafer polishing and cleaning corrosion (with HNO3 mixed acid).
用于雕刻玻璃、清洗铸件上的残砂、控制发酵、电抛光和清洗腐蚀半导体硅片(与HNO3的混酸)。
We made an experiment of optimization on the technological conditions of glutamine metabolic ally controlled fermentation by high production glutamine strain SH77 which was obtained by mutation.
采用诱变获得的谷氨酰胺高产菌株SH77,对谷氨酰胺代谢控制发酵的工艺条件进行最优化试验。
So Peter Meinhold rewired the yeast genome, replacing genes that controlled ethanol fermentation with genes for a enzymatic pathway that would produce isobutanol.
于是,皮特·梅尼霍德突变了酵母菌的基因组,用可以生产异丁醇的酶学途径的基因代替了那些控制乙醇发酵的基因。
Fermentation was in stainless steel tanks, and the temperature carefully controlled.
发酵过程在不锈钢大桶中进行,在此期间我们会严格控制温度。
Vinification First week of January crushing of the grapes without de-stalking. Maceration time: 35 days (of which 15 of cold maceration), with hand pressing. Fermentation to controlled temperature.
酿制:在一月的第一周,带梗粉碎葡萄。离析作用:35天(其中15进行离析作用),并用手进行挤压,控制发酵温度。
The ability of artificial neural networks to leam essential process of non linearities from plant data may provide a means by which to assist fermentation process in being controlled.
人工神经网络从植物数据中学习非线性基本过程的能力可有助于发酵过程的控制。本文旨在研究柠檬发酵过程,并建立了两个柠檬发酵过程的人工神经网络模型。
The ability of artificial neural networks to leam essential process of non linearities from plant data may provide a means by which to assist fermentation process in being controlled.
人工神经网络从植物数据中学习非线性基本过程的能力可有助于发酵过程的控制。本文旨在研究柠檬发酵过程,并建立了两个柠檬发酵过程的人工神经网络模型。
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