Abstract

This study utilized the 3k factorial design with k as the two varying factors namely, temperature and air velocity. The effects of temperature and air velocity on the drying rate curves and on the average particle diameter of the arrowroot starch were investigated. Extracted arrowroot starch samples were dried based on the designed parameters until constant weight was obtained. The resulting initial moisture content of the arrowroot starch was 49.4%. Higher temperatures correspond to higher drying rates and faster drying time while air velocity effects were approximately negligible or had little effect. Drying rate is a function of temperature and time. The constant rate period was not observed for the drying rate of arrowroot starch. The drying curves were fitted against five mathematical models: Lewis, Page, Henderson and Pabis, Logarithmic and Midili. The Midili Model was the best fit for the experimental data since it yielded the highest R2 and the lowest RSME values for all runs. Scanning electron microscopy (SEM) was used for qualitative analysis and for determination of average particle diameter of the starch granules. The starch granules average particle diameter had a range of 12.06 – 24.60 μm. The use of ANOVA proved that particle diameters for each run varied significantly with each other. And, the Taguchi Design proved that high temperatures yield lower average particle diameter, while high air velocities yield higher average particle diameter.

Highlights

  • Drying is the oldest preservation technique and one of the most common methods used in removing moisture content

  • In a previous study of arrowroot starch, it was found that the initial moisture content is equal to 40.4% [1]

  • The higher value obtained for the initial moisture content is due to the arrowroot sample used in this study was not fully grown which corresponds to a higher water content of the crop

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Summary

Introduction

Drying is the oldest preservation technique and one of the most common methods used in removing moisture content. It is used in various industries since it is cost – effective and the most practical means of preservation [7]. Drying methods used for root crops and starches include solar drying, drum drying, spray drying, freeze drying, microwave drying and hot air drying [5]. (Arrowroot) is a root crop coming from the genus maranta which is a large, perennial herb found in rainforest habitats. Extensive extraction and drying is needed to extract pure arrowroot starch and remove most of its water content

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