| Abstrakt: |
We are going to investigate the sonolytic breakdown of butylated hydroxyanisole and its effectiveness against cetyl alcohol by making use of a synthetic aqueous sample solution and conducting the experiment under well controlled circumstances. Detailed instructions and materials: A study was conducted in which the researchers investigated the effects of time, temperature, and pH on the butylated hydroxyanisole solution. At first, the sample solution had a concentration of one hundred milligrammes per litre and a pH that ranged from four and a half to eight and thirty. All of the changes in value were recorded at each stage of the process. In order to determine the absorbance of the solution, a UV-Vis spectrophotometer operated at 550 nm was utilised for the purpose of conducting the analysis. A numerical technique of analysis was utilised, and the confidence interval for each pH solution was set at 95 percent, the G-power was set at 80 percent, the enrollment ratio was set at one (N=10), and an alpha error level was set for each concentration. The analysis of each solution was performed on five samples that were collected. A one-way analysis of variance (ANOVA) test was used to compare the samples, and the software IBM SPSS Version 26 was used to carry out the analysis. In order to get effective results, the sonolytic demineralization approach was utilised. Similarly, an increase in pH results in an improvement in the efficiency of degradation (8.5). The bulk of the sonolytic breakdown of butylated hydroxyanisole was sped up by increasing the temperature of the sample solution to 90 degrees Celsius. Following the statistical analysis of the mean and multiple comparisons between time, temperature, and pH, a one-way analysis of variance (ANOVA) test was employed to assess the findings of a significant value of p=0.01 (p<0.05). Conclusion: Using the sonolysis technique, it was determined that the chemical breakdown of BHA takes place in a solution that has a pH of 8.5 and takes place at a temperature of 90 degrees Celsius. When carried out in the suitable manner, the approach appeared to be a very successful technology for adequately treating wastewater, and it was also the way that was easy to apply. [ABSTRACT FROM AUTHOR] |
