Microwave irradiation method appears to be a practical one for regeneration of activated carbon.
微波辐照再生活性炭是一种很有应用价值的方法。
Electrochemical regeneration of activated carbon adsorbed with phenol was investigated in different operative conditions.
对所选定的活性炭,吸附苯酚饱和后进行电化学再生。
Therefore, to find a reasonable and effective regeneration of activated carbon has theoretical and practical significance.
因此,寻求合理有效的活性炭再生方法具有重要的理论和现实意义。
The desulfurization mechanism, kinetic models and regeneration methods for the single desulfurizer of activated carbon, ferric oxide and zinc oxide used at a lower temperature are summarized.
阐述了应用于低温条件下的活性炭、氧化铁和氧化锌等单一组分脱硫剂的脱硫机理、动力学模型及再生方法。
The SO_(2) adsorption and oxidation capability and the regeneration technique of activated carbon are key factors to the successful performance of this technology and hot research arenas in the world.
活性炭吸附催化氧化SO_2的性能及再生技术是该工艺的关键,一直是国内外科技人员研究的重要课题。
In order to confirm which electrode system electrochemical regeneration of granular activated carbon(GAC) belonged to, the saturated GAC loaded with aniline were regenerated in different working area.
将活性炭置于电解槽不同工作区域进行再生,实验结果证明:饱和炭再生属于三维电极体系; 不同再生区域具有不同再生效率;
The regeneration of the activated carbon adsorbed and saturated by cationic indigo dye solution was studied.
本文对被阳离子艳蓝染料溶液吸附饱和的活性炭进行了再生试验研究。
Microwave power is one of the mostly important factors on affecting the activation, modification of activated carbon, regeneration, also the adsorption properties and yield.
微波功率是影响活性炭的活化、改性、再生及其吸附性能和得率的主要因素之一。
Microwave power is one of the mostly important factors affecting the activation, modification of activated carbon, regeneration, also the adsorption properties and yield.
微波功率是影响活性炭的活化、改性、再生及其吸附性能和产率的主要因素之一。
The relationships between regeneration efficiencies of activated carbon and those factors such as microwave power, microwave irradiation...
通过正交试验,探讨了活性炭再生率与微波功率、微波辐照时间、活性炭的吸附量等因素的关系。
The gases utilized were pure N2, 20% O2 in N2 and H2, the principle of them regenerated activated carbon were thermal regeneration, oxidation and reduction respectively.
气体再生时所用的气体分别为高纯n2,含20%O2的N 2,H2,它们再生的原理分别是热再生,通过氧化单质硫再生和通过还原单质硫再生。
The gases utilized were pure N2, 20% O2 in N2 and H2, the principle of them regenerated activated carbon were thermal regeneration, oxidation and reduction respectively.
气体再生时所用的气体分别为高纯n2,含20%O2的N 2,H2,它们再生的原理分别是热再生,通过氧化单质硫再生和通过还原单质硫再生。
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