1) pressure impregnation
加压含浸
1.
In this manuscript,a technology was developed to integrate the cream into the vacuum freeze-drying strawberry by vacuum impregnation and pressure impregnation.
采用真空含浸和加压含浸将特制的奶油含浸液浸入到真空冷冻干燥的草莓丁中,生产出既具有奶油的香甜滑腻口感,又保持果蔬颜色、形状,并最大限度保留果蔬中的维生素、膳食纤维、常量元素及微量元素的休闲食品。
2) pressure leaching
加压浸出
1.
Experimental investigation on pressure leaching of copper-zinc ore;
铜锌混合矿加压浸出的试验研究
2.
The pressure leaching kinetics of synthesized marmatite was studied.
以人工合成的高纯度铁闪锌矿为对象,研究了其加压浸出动力学。
3.
The experimental investigation has been conducted to seperate molybdenum from spent Mo-Co catalyst by pressure leaching.
采用加压浸出从钼钴废催化剂中分离钼,在原料摩尔比Na_2CO_3/Mo=1。
3) pressure leaching
加压酸浸
1.
The pressure leaching process with oxygen-rich air of the copper concentrate from Karatungk Deposit is investigated.
研究喀拉通克浮选铜精矿富氧加压酸浸过程。
4) pressure acid leaching
加压酸浸
1.
Research and development of the continuous pressure acid leaching technology for the pretreatment of copper anode slime
铜阳极泥预处理连续加压酸浸工艺开发研究
2.
Using flotation concentrate from a copper mineral processing plant in Yunnan,pressure acid leaching technology was adopted, and the process parameters were systematically studied while an optimized condition was determined as follows: initial concentration for sulfuric acid of 1.
对云南某铜选厂浮选铜精矿进行了加压酸浸工艺研究,确定其较佳工艺条件为:硫酸初始浓度1。
3.
The copper anode slime produced in one copper smelter domestically was pre-treated with pressure acid leaching method and the leaching behavior of copper,tellurium and selenium in copper anode slime was studied.
以国内某铜冶炼厂所产的铜阳极泥为原料,采用加压酸浸的方法对该铜阳极泥进行预处理,对铜阳极泥中铜、碲、硒等元素的浸出行为进行了研究。
5) alkaline pressure of oxygen leaching
加压碱浸
1.
The experimental study of molybdenum on crude molybdenite under alkaline pressure of oxygen leaching was intsoduced.
较现行加压碱浸处理辉钼矿所控制的工艺技术条件,温度和压力都大为降低。
补充资料:加压浸出
分子式:
CAS号:
性质:是在提高压力和温度下进行的浸出过程,是区别于常压浸出而言的。其目的在于强化浸出过程,提高浸出速率,提高铀的浸出率。对于含硫化物矿物(如黄铁矿FeS2)的铀矿石,有可能采用加压水浸法,即在加压、高温和空气存在的情况下直接用水浸取。利用在此条件下黄铁矿氧化生成的硫酸和硫酸高铁,作为铀的浸出剂。加压浸出在密闭的高压釜(压热釜、压煮器)中进行。
CAS号:
性质:是在提高压力和温度下进行的浸出过程,是区别于常压浸出而言的。其目的在于强化浸出过程,提高浸出速率,提高铀的浸出率。对于含硫化物矿物(如黄铁矿FeS2)的铀矿石,有可能采用加压水浸法,即在加压、高温和空气存在的情况下直接用水浸取。利用在此条件下黄铁矿氧化生成的硫酸和硫酸高铁,作为铀的浸出剂。加压浸出在密闭的高压釜(压热釜、压煮器)中进行。
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参考词条