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Response surfaces of energy efficiency at laboratory scale.

Response surfaces of energy efficiency at laboratory scale.

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Fig. 2. Response surfaces of laboratory-scale sodium hypochlorite...
Fig. 3. Standardized Pareto chart of energy efficiency (X 1 , X 2 , and...
Fig. 4. Response surfaces of energy efficiency at laboratory scale.
Fig. 6. Response surfaces of sodium hypochlorite concentration.
+1 Factorial design of experiment matrix with experimental results at...
A prototype for on-site generation of chlorinated disinfectant for use in rural aqueducts
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  • May 2023
Sodium hypochlorite has significant potential as a sanitation solution in hard-to-reach areas. Few studies have investigated the optimal electrolysis parameters for its production with volumes greater than 10 L. This study evaluated sodium hypochlorite production through electrolysis in a 22-L prototype and identified the optimal operating paramete...
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Context 1
... shown in Fig. 4(a), the maximum energy efficiency of the process at the laboratory scale appeared in the conditions of a sodium chloride concentration of 150 g of Cl À per liter, an operating time of 60 min, and a current intensity of 1.5 A. At low sodium chloride concentrations, the energy efficiency did not decrease significantly. Fig. 4(b) shows the ...
Context 2
... shown in Fig. 4(a), the maximum energy efficiency of the process at the laboratory scale appeared in the conditions of a sodium chloride concentration of 150 g of Cl À per liter, an operating time of 60 min, and a current intensity of 1.5 A. At low sodium chloride concentrations, the energy efficiency did not decrease significantly. Fig. 4(b) shows the effects of current intensity and time. An increase in these variables lowered the energy efficiency. As a mathematical model of the experimental design, Eq. (9) derived from Statgraphics Centurion XVI describes the behavior of the energy efficiency as a function of three ...
Context 3
... shown in Fig. 4(a), the maximum energy efficiency of the process at the laboratory scale appeared in the conditions of a sodium chloride concentration of 150 g of Cl À per liter, an operating time of 60 min, and a current intensity of 1.5 A. At low sodium chloride concentrations, the energy efficiency did not decrease significantly. Fig. 4(b) shows the ...
Context 4
... shown in Fig. 4(a), the maximum energy efficiency of the process at the laboratory scale appeared in the conditions of a sodium chloride concentration of 150 g of Cl À per liter, an operating time of 60 min, and a current intensity of 1.5 A. At low sodium chloride concentrations, the energy efficiency did not decrease significantly. Fig. 4(b) shows the effects of current intensity and time. An increase in these variables lowered the energy efficiency. As a mathematical model of the experimental design, Eq. (9) derived from Statgraphics Centurion XVI describes the behavior of the energy efficiency as a function of three ...