Parametric and optimization study of the acid extraction of nickel from the hyperaccumulator plant Rinorea bengalensis
Date
12-2015
Degree
Bachelor of Science in Chemical Engineering
College
College of Engineering and Agro-Industrial Technology (CEAT)
Adviser/Committee Chair
Monet Concepcion M Detras
Restrictions
Restricted: Not available to the general public. Access is available only after consultation with author/thesis adviser and only to those bound by the confidentiality agreement.
Abstract
The acid extraction of nickel from nickel hyperaccumulators is an important primary step in selective precipitation, which is a potentially profitable technique for the phytomining industry. Sulfuric acid extraction of nickel from the leaf ash of the hyperaccumulator plant Rinorea bengalensis was explored in a parametric and optimization study to determine optimum conditions of acid concentration, time, and ash loading for the nickel concentration in the leachate, and examine their effect on % nickel removal. It was concluded that time was insignificant while acid concentration, ash loading and their interaction were seen to be significant and exhibited a positive effect on the response. A sulfuric acid solution of 4.9 M and an ash loading of 251.13 g/L were ideal for obtaining a predicted nickel concentration of 29,635 ppm. A validation experiment yielded the value 29,755 ppm with percent relative error of 0.40%. Preliminary cost estimation for the acid extraction using these parameters gave a cost of PhP 56.35 per kilogram of ash treated while the cost of the maximum produced nickel sulfate for the crystallization step was calculated to be PhP 85.10, indicating that the operation was potentially applicable for commercial use.
Language
English
Location
UPLB Main Library Special Collections Section (USCS)
Call Number
Thesis
Recommended Citation
Alfonso, Sophia Marie Q., "Parametric and optimization study of the acid extraction of nickel from the hyperaccumulator plant Rinorea bengalensis" (2015). Undergraduate Theses. 4635.
https://www.ukdr.uplb.edu.ph/etd-undergrad/4635
Document Type
Thesis