为什么缓冲容量总是低于检测极限?
Why is my buffer capacity still under the limit of detection?
麦汁合适的缓冲容量是各种因素综合影响的结果。
Suitable buffle capacity of wort was optimized according to all the factors interrelated.
同时,本文还对最简单的缓冲体系的微分缓冲容量作些讨论。
Brief discussions on the differential capacity of the simplest buffer system are also given in the paper.
酸性土壤对钒的缓冲能力强,缓冲容量大,不容易产生钒污染。
The acid soil has stronger buffer power nad larger buffer capacity, so it could not be easily polluted by vanadium.
桦木单板直接染色酸缓冲容量减小,而预处理后染色则酸缓冲容量增大。
The acid buffering capacity of birch veneer decreased by dyeing directly and increased by dyeing after pretreating with NaOH solution.
本文从强度、数量和缓冲容量因素出发,对有效磷的有关参数进行了讨论。
The parameters for available phosphorus in terms of intensity, quantity and buffer capacity factors were discussed.
基于以上实验结果,建立了污泥屏障在AMD渗流条件下氧化缓冲容量消耗的数学模型。
According to the test results, a mathematical model was established to predict the OBC consumption of the sludge barrier under AMD penetrating conditions.
其中介绍了化学平衡程序REDEQL_2应用于天然水体酸化缓冲容量研究的作用和方法。
The paper recommends REDEQL-2 Chemical Equilibrium Program to being applied to acidified water on estimating buffer capacity. Therefor , the function and procedure in this scope are describe.
然后讨论如何用计算机处理的化学平衡模式估计和预测水体的缓冲容量以及对酸沉降的敏感性。
Then how to use a computerized chemical equilibrium model to estimate and predict buffer capacity and susceptibility to acid precipitation of water systems are discussed.
实验结果表明,污泥悬液的氧化缓冲容量随着悬液固液比的增大略有减小,随着悬液厌氧培养时间的延长而增加。
Test results showed that OBC of sludge suspensions was decreased slightly with the solid-liquid ratio of the suspensions, but increased with the anaerobic incubation time.
本文从缓冲微分方程式说明强酸、强碱溶液具有缓冲能力,并且比同总浓度的由共轭酸碱对组成的缓冲溶液的缓冲容量大。
In this paper the buffer capacity of strong acid and strong base solution is clarified in terms of buffer capacity differential equation.
如果机体不能生成由于中和非挥发性酸而丢失的HCO3 -,那么机体的整个缓冲容量将在6天内被耗尽(假设在正常的产酸速度下)。
If the body did not regenerate the HCO3 - lost in buffering the non-volatile acids, the entire buffer capacity would be used up in abort 6 days (assuming a normal rate of acid production).
如果机体不能生成由于中和非挥发性酸而丢失的HCO3 -,那么机体的整个缓冲容量将在6天内被耗尽(假设在正常的产酸速度下)。
If the body did not regenerate the HCO3 - lost in buffering the non-volatile acids, the entire buffer capacity would be used up in abort 6 days (assuming a normal rate of acid production).
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