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Biography and Research Information
OverviewAI-generated summary
Sandeep Aryal's research focuses on thermodynamic analysis and energy efficiency in various engineering applications. His work includes analytical and experimental investigations into phase transitions in low-temperature evaporators for Organic Rankine Cycle systems, utilizing refrigerants like R134a and comparing their performance with water coolants. Aryal has also studied the energy efficiency of using novel fertilizer-based liquid desiccant systems for dehumidifying indoor plant environments, examining both design parameters and experimental results. Additionally, his research has explored the effects of design parameters on heat transfer rates and fouling factors in gas-to-gas coolers through numerical studies.
His scholarly contributions are reflected in a publication record of six papers, with a current h-index of 3 and a total of 12 citations. Aryal remains an active researcher, with recent publications in 2024 and 2025.
Metrics
- h-index: 3
- Publications: 6
- Citations: 12
Selected Publications
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Investigating the effects of design parameters on heat transfer rate and fouling factor in full-scale gas-to-gas coolers: A numerical study (2025)
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Analytical modeling of simultaneous phase transitions in a low-temperature evaporator for a pilot-scale Organic Rankine Cycle using R134a: A comparative study with water coolant (2024)
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Analytical Modelling on Simultaneous Phase Transitions in Low Temperature Evaporator for Organic Rankine Cycle Applications (2022)
Collaboration Network
Top Collaborators
- Analytical modeling of simultaneous phase transitions in a low-temperature evaporator for a pilot-scale Organic Rankine Cycle using R134a: A comparative study with water coolant
- Investigating the effects of design parameters on heat transfer rate and fouling factor in full-scale gas-to-gas coolers: A numerical study
- Analytical Modelling on Simultaneous Phase Transitions in Low Temperature Evaporator for Organic Rankine Cycle Applications
- Specific energy analysis of using fertilizer-based liquid desiccants to dehumidify indoor plant environments
- Energy efficiency of using a novel fertilizer-based liquid desiccant system to dehumidify indoor plant environments: An experimental analysis
- Specific energy analysis of using fertilizer-based liquid desiccants to dehumidify indoor plant environments
- Energy efficiency of using a novel fertilizer-based liquid desiccant system to dehumidify indoor plant environments: An experimental analysis
- Analytical Modelling on Simultaneous Phase Transitions in Low Temperature Evaporator for Organic Rankine Cycle Applications
- Analytical Modelling on Simultaneous Phase Transitions in Low Temperature Evaporator for Organic Rankine Cycle Applications
- Investigating the effects of design parameters on heat transfer rate and fouling factor in full-scale gas-to-gas coolers: A numerical study
- Energy efficiency of using a novel fertilizer-based liquid desiccant system to dehumidify indoor plant environments: An experimental analysis
- Energy efficiency of using a novel fertilizer-based liquid desiccant system to dehumidify indoor plant environments: An experimental analysis