我们需要一个电子供体和电子受体。
某些电子供体被氧化产生氧气。
以葡萄糖作为电子供体,比较了磷酸盐和次亚磷酸盐的还原情况。
With glucose as electron donor, the efficiency of phosphate reduction was twice as high as that of hypophosphite reduction at the same amount of electron donor.
水稻土中氧化铁的还原程度受土壤中不同电子供体和受体的制约。
The degree of iron reduction is restrained by the different electron acceptor and provider in the paddy slurry.
水中的硝酸盐和对硝基氯苯对电子供体存在竞争,硝酸盐反硝化对对硝基氯苯还原具有抑制作用。
The existence of nitrate had an inhibitory effect on p-NCB reduction because of competition for electron donor between nitrate and p-NCB.
采用旋转电极型生物反应器(B ERC)脱氮,对以氢气作为电子供体的自养反硝化进行了研究。
A new process of the bio-electrode rotating contactor (BERC) for denitrification was developed, and study was made for autotrophic denitrification by using hydrogen as electron donor.
氧化还原介体能加速电子从最初电子供体传递到最终电子受体,从而使反应速率增大一到几个数量级。
Redox mediators can accelerate the electron transfer from a primary electron donor to a terminal electron acceptor, which may increase the reaction rates by one to several orders of magnitude.
所有这些结果表明,光破坏至少存在两个不同的过程,而且主要受到破坏的是原初电子供体P680。
These results show that there may be two different processes of photodamaging to photosystem I reaction center and P680 is most sensitive to light treatment.
在电子供体纤维二糖存在下,CDH可以还原由豆壳过氧化物酶(SHP)氧化多种芳香化合物所生成的产物。
In the presence of cellobiose, CDH could reduce many oxidized products catalyzed by soybean hull peroxidase (SHP).
本文对用硫作为电子供体,硝酸盐作为电子受体,由脱氮硫杆菌进行的自养反硝化过程的动力学模型进行了研究。
This paper discusses the kinetic model of autotrophic denitrification process in which sulphur is electronic donor and nitrate is electronic acceptor.
采用批式实验讨论了氢自养还原菌在厌氧条件下,利用氢气作为电子供体还原地下水中对硝基氯苯的可行性及其影响因素。
The performance of autohydrogenotrophic bacteria using hydrogen as an electron donor for bioreduction of para-nitrochlorobenzene (p-NCB) under anaerobic conditions was studied with batch experiments.
哪些是好的电子提供体呢?
哪些是好的电子提供体呢?
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