Innovative study in renewable energy source through mixed surfactant system for eco-friendly environment

Lal, Mohan; Gangotri, Κ. M.

doi:10.1007/s11356-023-28246-w

Cited by 14 publications

(9 citation statements)

References 21 publications

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“…3). The conversion efficiency of the methylene blue-xylose-mixed surfactant system was 0.6769% (16) . Use of Congo red dye-formaldehyde as a new sensitizer-reductant couple for enhanced simultaneous solar energy conversion and storage by photogalvanic cells at the low and artificial sun intensity (17) .…”

Section: Cell Performance and Conversion Efficiency Of The Pg Systemmentioning

confidence: 94%

Innovative Study of Prospective Energy Source Through C DEA+ACG+EDTA System for Photogalvanic Cell

Genwa,

Prasad

2023

IJST

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Objective: Enhancing the process of transformation of solar energy into electricity and storing it using photogalvanic (PG) cells for greater electrical output is the goal of the study endeavor. Methods: Two electrodes, a digital pH metre, a resistance key, a carbon pot, and a micro-ammeter make up the PG cell setup. For superior electrical results, the specifically created Hshaped PG cell was investigated. In a PG cell with C DEA+ACG+EDTA system, the various solar parameters (concentration, diffusion length, electrode area, pH etc.) were investigated. By changing the various parameters of the PG cell, the major impact of solar energy was investigated. For the PG cell, a 25 ml solution of surfactant (08 ml), reductant (05 ml), and dye (12 ml) was combined with distilled water and alkali. In terms of improved electrical results from renewable energy, the PG cell has experimentally demonstrated the effective system that was the intended target of the research. The comparison was made with the existing methods by relevant literature survey. Findings: The observed highest photopotential and maximum photocurrent for the C DEA+ACG+EDTA PG cell were 1038 mV and 612.00 µA, respectively. Performance and conversion efficiency of the PG cell were discovered to be 189.00 minutes and 1.2315%, respectively. Novelty: The photogalvanic is emerging field of research and manuscript contains substantial electrical output, conversion efficiency and storage capacity of developed photogalvanic cell with special attention to better performance and reduces the cost of the photogalvanic cell for its commercial viability. The main objective of the research was to increase considerable electrical production. The goal has been accomplished by using the C DEA+ACG+EDTA PG cell setup to get good electrical results.

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Section: Cell Performance and Conversion Efficiency Of The Pg Systemmentioning

confidence: 94%

Innovative Study of Prospective Energy Source Through C DEA+ACG+EDTA System for Photogalvanic Cell

Genwa,

Prasad

2023

IJST

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“…The 6.00 × 10 -5 M NaLS is an intermediate range of surfactant concentration where significant electrical output was obtained. The good precipitation may occur in surfactant mixture over individually precipitate of single surfactant in PG cells (19) . This is due to surfactant interaction of the micelles interface.…”

Section: Variation Of Nals On the Pg Systemmentioning

confidence: 99%

Innovative Study for Prospective Energy Source Through EDTA+TB+NaLS for Photogalvanic System

Gangotri¹,

Meena²

2023

IJST

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Objective: Photogalvanic (PG) cells are based on solar storage concepts. Hence, the objective of the research work is to enhance the solar energy conversion into electricity and store through PG cells for better electrical output. Methods: The PG cell setup consists of two electrode, digital pH meter, resistance key, carbon pot, and micro -ammeter. The specially designed H shaped PG cell was studied for better electrical having EDTA+TB+NaLS system. The significant impact of solar energy was studied by varying the various parameters in PG cell. The 25 ml solution of surfactant (07 ml), reductant (04 ml) and dye (13 ml) and distilled water with alkali were used for the PG cell. The designed PG cell is experimentally proved to be an efficient system with reference to enhanced electrical outcomes of renewable energy. Findings: For EDTA+TB+NaLS PG cell, the observed maximum photopotential and maximum photocurrent were 1065.00 mVand150.00 mA, respectively. The PG cell performance and efficacy were found 24.00 minutes and 0.2630%, respectively. Novelty: A proposed photochemical mechanism for solar radiation energy transformation in PG cells enhances significant electrical output by using of EDTA+TB+NaLS PG cell system.

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“…Different reductants and photosensitizers were used in solar cells by Albery and Archer 6 , Memming 7 , Hamdi and Aliwi 8 , Gangotri and Meena 9 . Using various micelles, reactants, and dyes, Genwa and Genwa 10 , Gangotri and Gangotri 11 , Gangotri and Lal 12 , Lal and Gangotri 13 calculated electrical output for the photogalvanic in solar energy. Lee and Lee 14 have additionally noticed dual micellization in cells in order to evaluate their potential.…”

Section: Introductionmentioning

confidence: 99%

“…Lee and Lee 14 have additionally noticed dual micellization in cells in order to evaluate their potential. In mixed surfactant solutions 15 investigated the relationship between wetting and deterging capacities. Very similar studies [16][17][18] that paid attention to improving the outcomes have been conducted.…”

Section: Introductionmentioning

confidence: 99%

Enhanced Electrical Output by Mixed Surfactant for Solar Cells: EDTA+TB+NaLS+CPC+Tween-80 system

Meena,

Gangotri

2024

Orient. J. Chem

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Enhancing photogalvanics electrical output in the sphere of solar energy is the goal of the study. The use of fossil fuels is also limitation to energy conversion. The photogalvanic (PG)cell with EDTA + TB + NaLS + CPC + Tween-80 produces superior results than a system with just one surfactant. The photopotential (PP) and photocurrent (PC) of the EDTA+TB + NaLS + CPC + Tween-80 photogalvanics were measured at 689.00 mV and 234.00 uA, respectively. The efficiency and performance of the EDTA+TB+NaLS+CPC+Tween-80 photogalvanics were determined to be 0.2811% and 109.00 minutes, respectively. The photogalvanic system with mixed surfactants (NaLS+CPC+Tween-80) is a productive one with improved electrical characteristics. The performance of PG cells can be slightly improved by using individual surfactants as opposed to surfactant combinations. Surfactant combinations with qualities that are superior to those of the individual components can be used in PG cell applications.

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Innovative study in renewable energy source through mixed surfactant system for eco-friendly environment

Cited by 14 publications

References 21 publications

Innovative Study of Prospective Energy Source Through C DEA+ACG+EDTA System for Photogalvanic Cell

Innovative Study of Prospective Energy Source Through C DEA+ACG+EDTA System for Photogalvanic Cell

Innovative Study for Prospective Energy Source Through EDTA+TB+NaLS for Photogalvanic System

Enhanced Electrical Output by Mixed Surfactant for Solar Cells: EDTA+TB+NaLS+CPC+Tween-80 system

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