实验的原料和反应条件决定了液化产物的收率。
The yield of bio-oil is determined by materials and reaction conditions.
液化产物粘度的变化与液化得率基本上呈负相关性。
The changes of viscosity were inverse correlative with liquefaction yield.
随着液化反应时间的延长,液化产物结合酚含量上升。
The amount of combined phenol rose with the reaction time extending.
利用液化产物进行混合菌株发酵培养,其真蛋白含量可达到30.74%;
Pure protein by using utilizing the liquefaction products for ferment cultivation of the mixed strains, pure protein content could reach 30.74%;
反应温度比反应时间对液化效率的影响大,二者均能影响液化产物的分子量和分子量分布。
The reaction temperature had the greater influence on the residue content than reaction time. Both reaction temperature and reaction time could affect the molecular characteristics of liquefied wood.
结果表明 :云母有助于改善涂料的涂挂性能 ,但对泡沫塑料模液化产物的排除是不利的。
The results showed that the mica is beneficial for improving the brushability of the coating but detriment to removal of liquidized product of foam pattern.
通过FTIR分析液化产物的吸收峰,表明竹材的化学成分发生了明显的酚化效应,液化产物的反应活性增强。
The absorbance peak of FTIR showed that the components of bamboo were phenolated. The products of liquefied bamboo were more active.
分析了消失模铸造工艺特点,指出泡沫塑料模样液化产物与涂料层间良好的润湿性对其通过涂层排出是有利的。
The technological features in EPC were analyzed. It is pointed out that the good wettability between liquidized product of foam pattern and coating layer is helpful to the liquid product removal.
生物质热解液化技术是把低能量密度生物质转化为高能量密度液体产物的一种新型生物质能利用技术。
Biomass-pyrolysis has proved itself to be a new type of biomass-energy utilization technique which transforms biomass materials of low energy density into liquid products of high energy density.
花生壳苯酚液化物-甲醛树脂胶粘剂是花生壳粉苯酚液化后的高反应活性产物与甲醛缩聚而成的高耐水性木材胶粘剂。
Peanut shell phenol-liquefaction product-formaldehyde resin is a high water-resistant wood adhesive which is prepared by formaldehyde and peanut shell phenol-liquefaction product.
本发明的催化剂在用于重油裂化反应中时具有优秀的抗金属性能,且能够提高产物中液化气、汽油和柴油的重量比。
The catalyst has excellent anti-metal performance when being used in heavy oil cracking reaction, and can increase the weight ratio of liquefied gas, gasoline and diesel fuel in the product.
探讨了反应温度、时间、液固比、液化气氛、催化剂等因素对微晶纤维素、蔗渣液化转化率以及各相产物分布的影响。
The effects of reaction temperature, time, ratio of liquid to solid (L/S), atmosphere and catalysts on liquefaction of microcellulose and bagasse were investigated in detail.
在KOH催化条件下,还原性气氛有利于纤维素水热液化转化率及液相产物的产率和品质的提高。
By adding KOH as catalyst, the reducing atmosphere was favorable to improve the conversion of collusion and the yield of liquid products.
在KOH催化条件下,还原性气氛有利于纤维素水热液化转化率及液相产物的产率和品质的提高。
By adding KOH as catalyst, the reducing atmosphere was favorable to improve the conversion of collusion and the yield of liquid products.
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