boron removal factorial

Numerous industries use boron and its compounds in various applications. In this study, the removal of boron from an aqueous solution by direct contact membrane distillation (DCMD) system. A 23 full factorial experimental design was implemented to determine the optimum values and the degree of importance of the parameters. The …

The maximum boron removal capacity was 3.5 mg/g obtained at initial pH 5.5, and the experiment indicated that the adsorption kinetics fit both the pseudo-fist-order model and intraparticle diffusion model well. Can et …

Boron Removal by Aluminum Modified Pumice and Aluminum Hydroxide from Boron Mine Wastewater¬-Full Factorial Experimental Design

Then, a full factorial design was applied to investigate the influence of the operating parameters and their interactions on the boron removal. Response surface methodology using Doehlert design ...

62 Citations. Explore all metrics. Abstract. In the present paper, boron removal from aqueous solution by adsorption was investigated and 2 3 full factorial design was …

(2023): Boron removal from wastewater by direct contact membrane distillation system using two-level factorial design, Journal of Applied Water Engineering and Research, DOI: 10.1080/23249676.2023 ...

At the 95% confidence level, the temperature–initial pH interaction was found as the most significant factor. The maximum boron removal efficiency can be achieved …

ABSTRACT In this study, boron removal from synthetic solutions using Purolite S 108 resin converted to hydroxyl form was investigated. Experiments were carried out in batch mode as a function of pH (4–10), concentration (50–500 mg/L), and resin-to-solution ratio (1–2.5 g/50 mL). Optimum pH value was determined as 10 and exchange capacity increased …

Variance analysis of two-level factorial design of boron removal by membrane distillation. Source Sum of squares df Mean square F -value p -Value Model ( R 2 = 0.98705) 3697.4375 7 528.21 87.13 ...

Boron removal from aqueous solutions by batch adsorption onto cerium oxide using full factorial design. ... Statistical analysis In order to examine the main factors and their interactions for the boron removal by adsorption 2 3 full factorial design was applied. In 2 3 full factorial design total number of experi- ments becomes 2 3 = 8, but ...

Variance analysis of two-level factorial design of boron removal by membrane distillation. Source Sum of squares df Mean square F -value p -Value Model ( R 2 = 0.98705) 3697.4375 7 528.21 87.13 ...

The full factorial design 2 k was carried out to determine the influence of these factors and their interaction on the removal of boron by Donnan dialysis. The preliminary study ( Section 3.1 ) enabled us to define the experimental field and to determine the level that must take every factor.

In this study, boron removal from synthetic solutions and boron mine wastewater by coagulation method using in-situ formed Al(OH)3 from AlCl3 salt was investigated. The experimental parameter for synthetic solution was solution pH. The optimum.

The maximum boron removal capacity was 3.5 ... According to the results of the 2 3 full factorial designs, the authors concluded that the two most important parameters affecting the adsorption process were temperature and pH value, and the adsorption was favored with the increase of pH, but adverse with the increase of temperature. As a result ...

In this article, boron removal from aqueous solutions by batch adsorption was investigated and 23 full factorial design was applied. Three parameters affected the …

M. Korkmaz et al.: Full Factorial Design of Experiments for Boron Removal from Colemanite Mine Wastewater … 596 Table 2: The high and low levels of the parameters used in the experimental design

Download Table | Full factorial fit for the boron adsorption. from publication: Full factorial design of experiments for boron removal from Colemanite mine wastewater using Purolite S 108 resin ...

In this study, boron removal from synthetic solutions using Purolite S 108 resin converted to hydroxyl form was investigated. Experiments were carried out in batch …

EC time and initial boron concentration and their mutual interaction were investigated using 2. 3. full factorial design. At optimal conditions, boron removal from synthetic aqueous solutions containing initial boron concentrations of 5 and 50 mg/L reached 81% and 79%, respectively. Applied to boron removal from seawater samples, EC reduces ...

full factorial approach using Minitab 16.0 Although boron resins are expensive, ion exchange programme. method is still one of the effective methods for In this stuНв, Лoron rОmoЯКl Пrom BТРКНТх mТnО boron removal from wastewaters especially if the wastewater by ion exchange method using Purolite boron should be recovered.

The effects of current density, EC time and initial boron concentration and their mutual interaction were investigated using 23 full factorial design. At optimal conditions, boron removal from synthetic aqueous solutions containing initial boron concentrations of 5 and 50 mg/L reached 81% and 79%, respectively.

(2017) Full factorial design of experiments for boron removal from solutions by Purolite S 108 resin converted to hydroxyl form, Particulate Science and Technology, 35:6, 742-748, DOI: 10.1080 ...

At optimal conditions, boron removal from synthetic aqueous solutions containing initial boron concentrations of 5 and 50 mg/L reached 81% and 79%, respectively. Applied to boron removal from seawater samples, EC reduces boron concentration to less to 2.4 mg/L with excessive energy consumption under optimal parameters. 1. Introduction

Boron Removal from Aqueous Solutions by Adsorption on Waste Sepiolite and Activated Waste Sepiolite Using Full Factorial Design

Full Factorial Design of Experiments for Boron Removal From Solutions by Purolite S 108 Resin Converted to Hydroxyl Form

The maximum boron removal capacity was 3.5 ... According to the results of the 2 3 full factorial designs, the authors concluded that the two most important parameters affecting the adsorption process were temperature and pH value, and the adsorption was …

The removal of boron by Donnan dialysis was studied in this work. First, a preliminary study was conducted to determine the experimental field of operating parameters using two membranes (AFN and ACS). Then, a full factorial design was applied to investigate the influence of the operating parameters and their interactions on …

In this article, boron removal from aqueous solutions by batch adsorption was investigated and 23 full factorial design was applied. Three parameters affected the performance and two levels of these parameters were investigated. The chosen parameters were temperature (25°C and 45°C), pH (3 and 7), and mass of adsorbent (0.1 g and 1 g). …

The effects of current density, EC time and initial boron concentration and their mutual interaction were investigated using 23 full factorial design. At optimal conditions, boron removal from synthetic aqueous solutions containing initial boron concentrations of 5 and 50 mg/L reached 81% and 79%, respectively.

Boron removal increased with increasing pH and adsorbent dosage, but decreased with increasing temperature. The optimum conditions were found as pH = 7, adsorbent dosage = 1 g/25 mL solution, and temperature = 25°C by using factorial design. In addition, the effects of pH, temperature, adsorbent dosage, and initial boron …

The optimum conditions obtained from synthetic solutions were applied to the colemanite mine wastewater by 22 factorial design. The maximum boron adsorption capacity of zinc hydroxide from ...

Numerous industries use boron and its compounds in various applications. In this study, the removal of boron from an aqueous solution by direct contact membrane distillation (DCMD) system. A 2 3 full factorial experimental design was implemented to determine the optimum values and the degree of importance of the parameters. The …