Electroosmosis dewatering of tomato paste: Experimental data and neural network modeling

S. Al-Asheh; F. Mjalli; R. Jumah; F. Banat; W. Joudeh; F. Misleh

Electroosmosis dewatering of tomato paste: Experimental data and neural network modeling

S. Al-Asheh^*, F. Mjalli, R. Jumah, F. Banat, W. Joudeh, F. Misleh

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

An electroosmotic device was designed to remove water from tomato paste suspensions. The suspension was held in vertical column of 9.1 cm height and between two stainless steel electrodes, an upper serves as anode while the lower serves as a cathode. Direct current electroosmosis dewatering was achieved by the application of an electrical field which allows water to pass through the filter paper held in the lower section. The effects of voltage, current and initial solid concentration on the amount of water removal were examined. The energy of dewatering can be calculated from the measured experimental data. The experimental data were represented by neural network modeling scheme which describes the data accurately and adequately.

Original language	English
Pages (from-to)	80-85
Number of pages	6
Journal	Journal of Food, Agriculture and Environment
Volume	4
Issue number	1
Publication status	Published - Jan 2006
Externally published	Yes

Keywords

Electrode
Electroosmosis dewatering (EOD)
Neural networks
Tomato paste

ASJC Scopus subject areas

Food Science
Agricultural and Biological Sciences (miscellaneous)
General Environmental Science

Cite this

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abstract = "An electroosmotic device was designed to remove water from tomato paste suspensions. The suspension was held in vertical column of 9.1 cm height and between two stainless steel electrodes, an upper serves as anode while the lower serves as a cathode. Direct current electroosmosis dewatering was achieved by the application of an electrical field which allows water to pass through the filter paper held in the lower section. The effects of voltage, current and initial solid concentration on the amount of water removal were examined. The energy of dewatering can be calculated from the measured experimental data. The experimental data were represented by neural network modeling scheme which describes the data accurately and adequately.",

keywords = "Electrode, Electroosmosis dewatering (EOD), Neural networks, Tomato paste",

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T1 - Electroosmosis dewatering of tomato paste

T2 - Experimental data and neural network modeling

AU - Al-Asheh, S.

AU - Mjalli, F.

AU - Jumah, R.

AU - Banat, F.

AU - Joudeh, W.

AU - Misleh, F.

PY - 2006/1

Y1 - 2006/1

N2 - An electroosmotic device was designed to remove water from tomato paste suspensions. The suspension was held in vertical column of 9.1 cm height and between two stainless steel electrodes, an upper serves as anode while the lower serves as a cathode. Direct current electroosmosis dewatering was achieved by the application of an electrical field which allows water to pass through the filter paper held in the lower section. The effects of voltage, current and initial solid concentration on the amount of water removal were examined. The energy of dewatering can be calculated from the measured experimental data. The experimental data were represented by neural network modeling scheme which describes the data accurately and adequately.

AB - An electroosmotic device was designed to remove water from tomato paste suspensions. The suspension was held in vertical column of 9.1 cm height and between two stainless steel electrodes, an upper serves as anode while the lower serves as a cathode. Direct current electroosmosis dewatering was achieved by the application of an electrical field which allows water to pass through the filter paper held in the lower section. The effects of voltage, current and initial solid concentration on the amount of water removal were examined. The energy of dewatering can be calculated from the measured experimental data. The experimental data were represented by neural network modeling scheme which describes the data accurately and adequately.

KW - Electrode

KW - Electroosmosis dewatering (EOD)

KW - Neural networks

KW - Tomato paste

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Electroosmosis dewatering of tomato paste: Experimental data and neural network modeling

Abstract

Keywords

ASJC Scopus subject areas

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