Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology

Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology

Purple sweet potato (PSP) is a rich source of anthocyanins, but the anthocyanin content and color can be affected by the drying method and processing condition. Response surface methodology (RSM) with a Box–Behnken design (BBD) was used to investigate the effects of citric acid (CA) concentration, s...

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Main Authors: Sri Sampath Janaka Senevirathna, Nurul Shazini Ramli, Ezzat Mohamad Azman, Nurul Hanisah Juhari, Roselina Karim
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Foods
Subjects:
purple sweet potato
response surface methodology (RSM)
HPLC-MS<sup>n</sup>
anthocyanin
functional
Online Access:https://www.mdpi.com/2304-8158/10/6/1378
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spelling doaj-ad3c2042b8314d749201706e9f9ffcd22021-07-01T00:11:16ZengMDPI AGFoods2304-81582021-06-01101378137810.3390/foods10061378Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface MethodologySri Sampath Janaka Senevirathna0Nurul Shazini Ramli1Ezzat Mohamad Azman2Nurul Hanisah Juhari3Roselina Karim4Department of Food Technology, Faculty of Food Science and Technology, Universiti Putra Malaysia, Serdang 43400, MalaysiaDepartment of Food Science, Faculty of Food Science and Technology, Universiti Putra Malaysia, Serdang 43400, MalaysiaDepartment of Food Technology, Faculty of Food Science and Technology, Universiti Putra Malaysia, Serdang 43400, MalaysiaDepartment of Food Service and Management, Faculty of Food Science and Technology, Universiti Putra Malaysia, Serdang 43400, MalaysiaDepartment of Food Technology, Faculty of Food Science and Technology, Universiti Putra Malaysia, Serdang 43400, MalaysiaPurple sweet potato (PSP) is a rich source of anthocyanins, but the anthocyanin content and color can be affected by the drying method and processing condition. Response surface methodology (RSM) with a Box–Behnken design (BBD) was used to investigate the effects of citric acid (CA) concentration, steam pressure (SP) and rotation speed (DS) on the physicochemical and functional properties of drum-dried purple sweet potato powder (PSPP). The anthocyanins of the PSPP were analyzed using mass spectrometry with electrospray ionization and twelve anthocyanins were identified. The results indicated that the moisture content (4.80 ± 0.17–9.97 ± 0.03%) and water activity (0.290 ± 0.004–0.47 ± 0.001) (<i>p</i> < 0.05) decreased with increasing drum temperature as well as with reduced drum rotating speed. CA had a significant (<i>p</i> < 0.05) effect on the color and total anthocyanin content (101.83 ± 2.20–124.09 ± 2.89 mg/100 g) of the PSPP. High SP and low DS negatively affected the antioxidant properties of the PSPP. DPPH value of the PSPP ranged from 20.41 ± 0.79 to 30.79 ± 1.00 μmol TE/g. The optimal parameters were achieved at 0.59% CA, 499.8 kPa SP and 3 rpm DS.https://www.mdpi.com/2304-8158/10/6/1378purple sweet potatoresponse surface methodology (RSM)HPLC-MS<sup>n</sup>anthocyaninfunctional
collection DOAJ
language English
format Article
sources DOAJ
author Sri Sampath Janaka Senevirathna
Nurul Shazini Ramli
Ezzat Mohamad Azman
Nurul Hanisah Juhari
Roselina Karim
spellingShingle Sri Sampath Janaka Senevirathna
Nurul Shazini Ramli
Ezzat Mohamad Azman
Nurul Hanisah Juhari
Roselina Karim
Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology
Foods
purple sweet potato
response surface methodology (RSM)
HPLC-MS<sup>n</sup>
anthocyanin
functional
author_facet Sri Sampath Janaka Senevirathna
Nurul Shazini Ramli
Ezzat Mohamad Azman
Nurul Hanisah Juhari
Roselina Karim
author_sort Sri Sampath Janaka Senevirathna
title Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology
title_short Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology
title_full Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology
title_fullStr Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology
title_full_unstemmed Optimization of the Drum Drying Parameters and Citric Acid Level to Produce Purple Sweet Potato (<i>Ipomoea batatas</i> L.) Powder Using Response Surface Methodology
title_sort optimization of the drum drying parameters and citric acid level to produce purple sweet potato (<i>ipomoea batatas</i> l.) powder using response surface methodology
publisher MDPI AG
series Foods
issn 2304-8158
publishDate 2021-06-01
description Purple sweet potato (PSP) is a rich source of anthocyanins, but the anthocyanin content and color can be affected by the drying method and processing condition. Response surface methodology (RSM) with a Box–Behnken design (BBD) was used to investigate the effects of citric acid (CA) concentration, steam pressure (SP) and rotation speed (DS) on the physicochemical and functional properties of drum-dried purple sweet potato powder (PSPP). The anthocyanins of the PSPP were analyzed using mass spectrometry with electrospray ionization and twelve anthocyanins were identified. The results indicated that the moisture content (4.80 ± 0.17–9.97 ± 0.03%) and water activity (0.290 ± 0.004–0.47 ± 0.001) (<i>p</i> < 0.05) decreased with increasing drum temperature as well as with reduced drum rotating speed. CA had a significant (<i>p</i> < 0.05) effect on the color and total anthocyanin content (101.83 ± 2.20–124.09 ± 2.89 mg/100 g) of the PSPP. High SP and low DS negatively affected the antioxidant properties of the PSPP. DPPH value of the PSPP ranged from 20.41 ± 0.79 to 30.79 ± 1.00 μmol TE/g. The optimal parameters were achieved at 0.59% CA, 499.8 kPa SP and 3 rpm DS.
topic purple sweet potato
response surface methodology (RSM)
HPLC-MS<sup>n</sup>
anthocyanin
functional
url https://www.mdpi.com/2304-8158/10/6/1378
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