Evaluation and Optimization of Steam and Lye Peeling Processes of Sweet Potato (Ipomea batatas) using Response Surface Methodology (RSM)

Sweet potato of uniform sizes and shape were subjected to steam peeling (temperature 80–100°C and peeling time 5–15 min) and lye peeling (sodium hydroxide concentration 8–12%, temperature 80–100°C and peeling time 3–5 min). Response surface methodology was used to analyze and optimize the process pa...

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Veröffentlicht in:	International journal of food engineering 2014-06, Vol.10 (2), p.329-338
Hauptverfasser:	Oladejo, Ayobami O, Sobukola, Olajide P, Awonorin, Samuel O, Adejuyigbe, Samuel B
Format:	Artikel
Sprache:	eng
Schlagworte:	lye peeling optimization peel loss peeling response surface methodology sodium hydroxide steam surface area sweet potato sweet potatoes temperature unpeeled surface area
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container_title	International journal of food engineering
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creator	Oladejo, Ayobami O Sobukola, Olajide P Awonorin, Samuel O Adejuyigbe, Samuel B
description	Sweet potato of uniform sizes and shape were subjected to steam peeling (temperature 80–100°C and peeling time 5–15 min) and lye peeling (sodium hydroxide concentration 8–12%, temperature 80–100°C and peeling time 3–5 min). Response surface methodology was used to analyze and optimize the process parameters in each case. For steam peeling, the peel loss and unpeeled surface area were 6.85 and 28.16%, respectively, while optimum peeling conditions where temperature and peeling time of 100°C and 5 min, respectively, for minimum peel loss and unpeeled surface area. For lye peeling, however, the peel loss and unpeeled surface area were 13.19 and 13.35%, respectively, and optimum peeling conditions were lye concentration, temperature and peeling time of 8.89%, 100°C and 4.75 min, respectively, for minimum peel loss and unpeeled surface area. The models developed in each case (R-squared of 0.9225 and 0.8428; 0.5929 and 0.8346) were adequate in producing responses as a function of the independent variables. From the optimized values and results obtained, lye peeling was more suitable for sweet potato.
doi_str_mv	10.1515/ijfe-2013-0051
format	Article
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Response surface methodology was used to analyze and optimize the process parameters in each case. For steam peeling, the peel loss and unpeeled surface area were 6.85 and 28.16%, respectively, while optimum peeling conditions where temperature and peeling time of 100°C and 5 min, respectively, for minimum peel loss and unpeeled surface area. For lye peeling, however, the peel loss and unpeeled surface area were 13.19 and 13.35%, respectively, and optimum peeling conditions were lye concentration, temperature and peeling time of 8.89%, 100°C and 4.75 min, respectively, for minimum peel loss and unpeeled surface area. The models developed in each case (R-squared of 0.9225 and 0.8428; 0.5929 and 0.8346) were adequate in producing responses as a function of the independent variables. From the optimized values and results obtained, lye peeling was more suitable for sweet potato.</abstract><pub>De Gruyter</pub><doi>10.1515/ijfe-2013-0051</doi><tpages>10</tpages></addata></record>
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subjects	lye peeling optimization peel loss peeling response surface methodology sodium hydroxide steam surface area sweet potato sweet potatoes temperature unpeeled surface area
title	Evaluation and Optimization of Steam and Lye Peeling Processes of Sweet Potato (Ipomea batatas) using Response Surface Methodology (RSM)
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