electrosorption 中文意思是什麼
electrosorption
解釋
電吸收附著-
Electrosorption of nacl solution by phenolic - furfural based carbon aerogels
溶液的電吸附行為 -
If we can find a way to artificially enhance the adsorption of activated carbon, its benefits on economy and environment will be considerable. it is the aim of this work to investigate electrosorption of chloroform in water on granular activated carbon. the potentials on working electrode are controlled by potentiostat and the concentration of chloroform is measured by headspace gas chromatography
實驗用恆電位儀作控制電源,調節工作電極電位(相對于參比電極電位)來控制加在活性炭上的電場,用頂空進樣法測定水中氯仿的剩餘濃度,參照方法與依據都是國家標準方法或國外先進方法。 -
The redox potentials of chloroform are more than 500mv and electrosorption is only controlled by electric field and adsorption of granular activated carbon. the tests of adsorptions also testify it. the freundlich isotherm equation q = kc n is used for fitting the data
另外,氯仿的電解氧化還原電位大於500mv ,因此,此電場范圍不會分解氯仿,回收率實驗與色譜分析也證明了電場只對活性炭的吸附起催化作用,而不改變吸附劑與吸附質的內部性質。 -
The fundamentals of electrosorption on granular activated carbon for water treatment are discussed. the configuration and net atomic charges of chloroform are calculated with pm3 calculation by mopac2000
用mopac2000軟體中的pm3計演算法計算氯仿分子的結構與表面凈電荷分佈可知:氯仿分子的結構呈四面體。 -
On the whole, the surface charge of chloroform is negative. thus, both the adsorption capacity of granular activated carbon and attractive or repulsive forces of charge influence the electrosorption of chloroform on granular activated carbon
陽極極化時,活性炭表面帶正電荷,吸附點增加,吸附量與吸附速率提高;相反,陰極極化則活性炭表面的負電荷與氯仿異性相斥,吸附量減小。 -
Adsorption isotherm and adsorption kinetics of granular activated carbon are measured in order to obtain specific information about the influence of the charge on the absorbability of chloroform. the influence of the bed potential on the adsorption equilibria shows a dependence on applied potential in electrolyte of approximately o. lmol / l ionic strength. with electrosorption from aqueous solution, 60 % enhancement of the concentration in one controlled potential is achievable
實驗結果表明:在實驗所加電場范圍中,活性炭量與所加的電位之間存在一定的關系,從- 500mv , - 300mv , - 100mv , 0mv , 100mv , 300mv到500mv ,活性炭吸附量隨之逐漸提高,吸附速度加快,即陽極極化有利於活性炭吸附量提高,陰極極化則對活性炭吸附起抑制作用。
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