Synopsis
Today, the rapid decrease in energy resources caused by the large-scale consumption of fossil fuels has become serious. Accordingly renewable energy resources are attracting a great deal of attention, and solar energy is one of the most promising future energy resources. The photochemical production of electricity has attracted the attention of many scientists as a viable media for solar energy conversion. In this book, we studied the photogalvanic effect using iron acetyl acetonate complex and Rose dye as photosensitizer. The first system consists of iron acetyl acetonate complex – Oxalic acid – Tween 80 System and the second one containing Rose Bengal-Oxilc acid-Cetryl hexadecyl ammonium bromide. The photopotential and photocurrent obtained from the first system were 404.20 mV and 35.0 μA respectively. The observed power of the cell was 12.69 μW at power point. The conversion efficiency and fill factor was determined as 0.04% and 0.33 respectively. The cell performance was 35.0 min in dark. The generated photopotential and photocurrent of the second system were 550.0 mV and 75.0 μA respectively. The observed power of the cell was 41. 3 μW at power point.
Les informations fournies dans la section « Synopsis » peuvent faire référence à une autre édition de ce titre.
Présentation de l'éditeur
Today, the rapid decrease in energy resources caused by the large-scale consumption of fossil fuels has become serious. Accordingly renewable energy resources are attracting a great deal of attention, and solar energy is one of the most promising future energy resources. The photochemical production of electricity has attracted the attention of many scientists as a viable media for solar energy conversion. In this book, we studied the photogalvanic effect using iron acetyl acetonate complex and Rose dye as photosensitizer. The first system consists of iron acetyl acetonate complex – Oxalic acid – Tween 80 System and the second one containing Rose Bengal-Oxilc acid-Cetryl hexadecyl ammonium bromide. The photopotential and photocurrent obtained from the first system were 404.20 mV and 35.0 μA respectively. The observed power of the cell was 12.69 μW at power point. The conversion efficiency and fill factor was determined as 0.04% and 0.33 respectively. The cell performance was 35.0 min in dark. The generated photopotential and photocurrent of the second system were 550.0 mV and 75.0 μA respectively. The observed power of the cell was 41. 3 μW at power point.
Biographie de l'auteur
Dr.Sawsan Abd El-Hady Mahmoud, Assistant Professor in Egyptian Petroleum Research Institute, processes development department. International Publications in Solar Energy conversion and Photocatalysis. International Cooperation with Delaware University, USA and mesoporous institute,Budapest, Hungary.
Les informations fournies dans la section « A propos du livre » peuvent faire référence à une autre édition de ce titre.
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Solar Energy Conversion and Storage by Photogalvanic Cell
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Solar Energy Conversion and Storage by Photogalvanic Cell
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Taschenbuch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Today, the rapid decrease in energy resources caused by the large-scale consumption of fossil fuels has become serious. Accordingly renewable energy resources are attracting a great deal of attention, and solar energy is one of the most promising future energy resources. The photochemical production of electricity has attracted the attention of many scientists as a viable media for solar energy conversion. In this book, we studied the photogalvanic effect using iron acetyl acetonate complex and Rose dye as photosensitizer. The first system consists of iron acetyl acetonate complex - Oxalic acid - Tween 80 System and the second one containing Rose Bengal-Oxilc acid-Cetryl hexadecyl ammonium bromide. The photopotential and photocurrent obtained from the first system were 404.20 mV and 35.0 miA respectively. The observed power of the cell was 12.69 miW at power point. The conversion efficiency and fill factor was determined as 0.04% and 0.33 respectively. The cell performance was 35.0 min in dark. The generated photopotential and photocurrent of the second system were 550.0 mV and 75.0 miA respectively. The observed power of the cell was 41. 3 miW at power point. 84 pp. Englisch. N° de réf. du vendeur 9783659280566
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Solar Energy Conversion and Storage by Photogalvanic Cell
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Etat : New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Autor/Autorin: Mahmoud SawsanDr.Sawsan Abd El-Hady Mahmoud, Assistant Professor in Egyptian Petroleum Research Institute, processes development department. International Publications in Solar Energy conversion and Photocatalysis. International Coop. N° de réf. du vendeur 159139529
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Solar Energy Conversion and Storage by Photogalvanic Cell
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LAP LAMBERT Academic Publishing Apr 2014, 2014
ISBN 10 : 3659280569
ISBN 13 : 9783659280566
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Taschenbuch. Etat : Neu. This item is printed on demand - Print on Demand Titel. Neuware -Today, the rapid decrease in energy resources caused by the large-scale consumption of fossil fuels has become serious. Accordingly renewable energy resources are attracting a great deal of attention, and solar energy is one of the most promising future energy resources. The photochemical production of electricity has attracted the attention of many scientists as a viable media for solar energy conversion. In this book, we studied the photogalvanic effect using iron acetyl acetonate complex and Rose dye as photosensitizer. The first system consists of iron acetyl acetonate complex ¿ Oxalic acid ¿ Tween 80 System and the second one containing Rose Bengal-Oxilc acid-Cetryl hexadecyl ammonium bromide. The photopotential and photocurrent obtained from the first system were 404.20 mV and 35.0 ¿A respectively. The observed power of the cell was 12.69 ¿W at power point. The conversion efficiency and fill factor was determined as 0.04% and 0.33 respectively. The cell performance was 35.0 min in dark. The generated photopotential and photocurrent of the second system were 550.0 mV and 75.0 ¿A respectively. The observed power of the cell was 41. 3 ¿W at power point.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 84 pp. Englisch. N° de réf. du vendeur 9783659280566
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