Exact(1)
The chemical cleaning agents, sodium hydroxide (NaOH), ethylenediaminetetraacetic acid (EDTA), sodium dodecyl sulfate (SDS), and sodium chloride (NaCl), were selected as models for alkaline solutions, metal chelating agents, surfactants, and salt cleaning, respectively.
Similar(59)
A mathematical model for alkaline fuel cell cathodes was developed by using concentrated solution transport theory to simulate and study the electrode operation.
In this section we analyze the new strontium surface reactions for amorphous silica and goethite together with other alkaline earth surface reactions to re-calibrate Sverjensky's [16] predictive model for alkaline earth sorption.
We model strontium sorption to amorphous silica and goethite using the same set of surface species to contribute to an internally consistent model for alkaline earth sorption that can be used for a wide range of solution and substrate compositions.
In this paper new strontium sorption data to amorphous silica and goethite collected over a range of total strontium concentrations, pH, and dissolved carbonate concentrations are described using a surface complexation model that builds on and further calibrates Sverjensky's [16] predictive model for alkaline earth sorption.
Alkaline plate culture was employed to construct a PA library as a model for alkaline adaptation to obtain EST information.
A one-dimensional model is developed for alkaline direct ethanol fuel cells (DEFC) by considering the complicated physicochemical processes, including mass transport, charge transport, and electrochemical reactions.
As such the model can provide many useful generic design data for alkaline fuel cells.
A comparative simulation study was also carried out for alkaline flooding, AP flooding and alkaline-surfactant-polymer (ASP) flooding.
A mathematical model for an advanced alkaline electrolyzer has been developed.
Thus, this work provides an insight for rational design of Pt based nanocomposite with enhanced catalytic properties for alkaline HER under the guidance of computational modeling.
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