Rakesh Sharma scite author profile

Rakesh Sharma

5Publications

24Citation Statements Received

0Citation Statements Given

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100

Affiliations

Indian Institute of Science Bangalore, Indian Institute of Technology Indore, National Institute of Technology Raipur

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Comparison of ammonia sorption properties and thermodynamic performance of adsorption‐based thermal energy storage system for MnCl₂, CaCl₂, and their composites

et al. 2020

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In this work, composite adsorbent materials are prepared using metal halide salts and expanded natural graphite (ENG). Ammonia adsorption and desorption pressure concentration isotherms of composite adsorbents are experimentally measured. The van't Hoff plots are constructed to calculate the enthalpy of a reaction during adsorption and desorption. The average value of adsorption enthalpies (∆Had) for MnCl2 + ENG and CaCl2 + ENG are 55.821 and 33.434 kJ mol−1, respectively, and average values of desorption enthalpies (∆Hdes) are 73.817 and 73.016 kJ mol−1, respectively. Comparison of ammonia sorption properties of composites and their corresponding plain salts is done. Thermodynamic analysis of adsorption thermal energy storage (ATES) system) showed that maximum gravimetric energy storage density for MnCl2 + ENG based system is 1394.83 kJ kg−1 (158.85 kWh m−3) at energy storage and ambient temperatures of 172°C and 35°C, respectively. The same for CaCl2 + ENG based system is 1350.86 kJ kg−1 (165.85 kWh m−3) at storage and ambient temperatures of 92°C and 35°C, respectively. Volumetric energy storage density is higher for CaCl2 + ENG based ATES system since it has higher density. Thermodynamic performance of composite‐based systems is compared with plain salts (MnCl2‐CaCl2) based thermal energy storage system.

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The Ti-Co-C system (titanium-cobalt-carbon)

Bandyopadhyay

Sharma

Chakraborti

2000

JPE

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Performance evaluation of simple and heat recovery adsorption cooling system using measured NH 3 sorption characteristics of halide salts

Sharma

Kumar

2017

Applied Thermal Engineering

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Study of ammoniated salts based thermochemical energy storage system with heat up-gradation: A thermodynamic approach

Sharma

Kumar

2017

Energy

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Performance analysis of a stand-alone polygeneration microgrid

Murthy

Dutta

Rao

et al. 2020

Thermal Science and Engineering Progress

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Rakesh Sharma

Comparison of ammonia sorption properties and thermodynamic performance of adsorption‐based thermal energy storage system for MnCl₂, CaCl₂, and their composites

The Ti-Co-C system (titanium-cobalt-carbon)

Performance evaluation of simple and heat recovery adsorption cooling system using measured NH 3 sorption characteristics of halide salts

Study of ammoniated salts based thermochemical energy storage system with heat up-gradation: A thermodynamic approach

Performance analysis of a stand-alone polygeneration microgrid

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Rakesh Sharma

Comparison of ammonia sorption properties and thermodynamic performance of adsorption‐based thermal energy storage system for MnCl2, CaCl2, and their composites

The Ti-Co-C system (titanium-cobalt-carbon)

Performance evaluation of simple and heat recovery adsorption cooling system using measured NH 3 sorption characteristics of halide salts

Study of ammoniated salts based thermochemical energy storage system with heat up-gradation: A thermodynamic approach

Performance analysis of a stand-alone polygeneration microgrid

Contact Info

Product

Resources

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Comparison of ammonia sorption properties and thermodynamic performance of adsorption‐based thermal energy storage system for MnCl₂, CaCl₂, and their composites