Method-comparison studies with Taguchi and response surface methodologies for chemical process optimisation: a case study

Q4 Engineering

International Journal of Quality Engineering and Technology Pub Date : 2015-05-13 DOI:10.1504/ijqet.2015.069206

V. S. Patyal, S. Modgil, Maddulety Koilakuntla

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Abstract

This paper presents the findings of an experimental investigation conducted for understanding the effect of pH and temperature on three response variables viz. 'loss on ignition' (LoI), zinc oxide (ZnO) and borate (B2O3) in the output of a chemical process. The Taguchi technique and response surface methodology (RSM) have been used to accomplish the objectives of the study. The L4 orthogonal array with two replications for the Taguchi technique and central composite design (CCD) with two replications for response surface were used for conducting the experiments. The analysis was performed using the Taguchi technique, RSM with general linear model (ANOVA) revealed that temperature and its quadratic effect produced significant impact in achieving target values of LoI and B2O3 content. Further, the data analysis reported that effect of pH on three response variables (LoI, ZnO, B2O3) was insignificant in nature, Also, ZnO content was not significant either with pH or temperature.

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方法-用田口法和响应面法进行化学过程优化的比较研究:一个案例研究

本文介绍了为了解pH和温度对三个响应变量的影响而进行的实验调查的结果。化学过程输出中的“着火损失”(LoI)、氧化锌(ZnO)和硼酸盐(B2O3)。采用田口技术和响应面法(RSM)来完成研究目标。实验采用田口法L4正交设计2个重复，响应面法CCD设计2个重复。采用Taguchi技术进行分析，采用一般线性模型(ANOVA)的RSM分析表明，温度及其二次效应对LoI和B2O3含量达到目标值有显著影响。此外，数据分析表明pH值对LoI、ZnO、B2O3三个响应变量的影响不显著，且ZnO含量对pH值和温度的影响均不显著。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Quality Engineering and Technology Engineering-Safety, Risk, Reliability and Quality

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： IJQET fosters the exchange and dissemination of research publications aimed at the latest developments in all areas of quality engineering. The thrust of this international journal is to publish original full-length articles on experimental and theoretical basic research with scholarly rigour. IJQET particularly welcomes those emerging methodologies and techniques in concise and quantitative expressions of the theoretical and practical engineering and science disciplines.