Energy and exergy analysis of an ideal molten carbonate fuel cell (MCFC) and reheat &amp; regenerative braysson cycle hybrid system

Soujanya, K S L; Sastry, G Ravi Kiran; Ramji, K; Chandramouli, R; Kumar, G Santosh

doi:10.1088/2631-8695/ad5bc1

Eng. Res. Express

2024

DOI: 10.1088/2631-8695/ad5bc1

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Energy and exergy analysis of an ideal molten carbonate fuel cell (MCFC) and reheat & regenerative braysson cycle hybrid system

K S L Soujanya,

G Ravi Kiran Sastry,

K Ramji

et al.

Abstract: Direct energy conversion devices are gaining prominence because of their high efficiency, as the process involves the direct conversion of chemical energy to its electrical counterpart, bypassing the thermal energy phase. Fuel cells work on the principle of a chemical reaction between fuels like Hydrogen, Methane, propane, ammonia, and an oxidizer. The working temperature of the fuel cell is as high as (600 °C–700 °C). Generally, waste heat liberated from the fuel cells was used to generate power by running th… Show more

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2025

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Cited by 1 publication

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An MCDM approach for selection of a biomass fuel for a natural convection dryer based on thermo-economic-environmental analysis

Deb,

Mandal,

Das Ghatak

2025

Eng. Res. Express

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Efficient selection of optimal biomass fuel for the developed natural convection dryers is essential for enhanced drying performance, ensuring environmental and economic viability. This research applies a Multi-Criteria Decision-Making (MCDM) approach based on theAnalytical Hierarchy Process (AHP) and the Technique for Order of Preference by Similarity to an Ideal Solution (TOPSIS) to analyze thermo-economic-environmental factors for fuel selection. By preparing four different biomass pellets and evaluating these based on heat generation, environmental impact, and cost-effectiveness, the study aims to determine the best fuel for the dryer. The results indicate that the drying system can sustain higher temperatures for extended periods, and exhibit excellent energy and exergy efficiency. Thedrying system experiences reduced exergy losses of 28.82 to 31.98 W. The financialassessment reveals a payback period of 0.34 years for the dryer. The exhaust gas contains1703-1928 ppm of CO, 32-44 ppm of NO and 5.3 7.2 ppm of SO2. The MCDM approach-identifies the 80:10:10 mixture of sawdust, charcoal, and burnt engine oil as more effective blend of biomass. The study concludes that using biomass pellets with appropriate mixing ratios as fuel in the developed natural convection dryer significantly enhances its drying performance and sustainability.performance and sustainability.

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An MCDM approach for selection of a biomass fuel for a natural convection dryer based on thermo-economic-environmental analysis

Deb,

Mandal,

Das Ghatak

2025

Eng. Res. Express

View full text Add to dashboard Cite

show abstract

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Energy and exergy analysis of an ideal molten carbonate fuel cell (MCFC) and reheat & regenerative braysson cycle hybrid system

Cited by 1 publication

References 21 publications

An MCDM approach for selection of a biomass fuel for a natural convection dryer based on thermo-economic-environmental analysis

An MCDM approach for selection of a biomass fuel for a natural convection dryer based on thermo-economic-environmental analysis

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