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Sharma, SK and Shivapuji, AM and Dasappa, S (2024) Characterization of a novel two-stage high ash coal gasifier for low tar and high calorific value gas. In: Applied Thermal Engineering, 237 . pp. 14-16.
Kashyap, SR and Pramanik, S and Ravikrishna, RV (2024) A review of energy-efficient domestic cookstoves. In: Applied Thermal Engineering, 236 .
Srivastava, A and Kumar, P and Ambirajan, A and Dutta, P and Varghese, Z and Rohith, BL and Subrahmanya, P (2024) Experimental investigation of thermosyphons with horizontal evaporator for low heat flux applications. In: Applied Thermal Engineering, 257 .
Singh, A and Shivapuji, AM and Dasappa, S (2023) Hydrogen production through agro-residue gasification and adsorptive separation. In: Applied Thermal Engineering, 234 .
Madhuri, MR and Srinivasan, K and Dutta, P (2023) Performance evaluation of a two-stage air-cooled silica gel + water adsorption cooling system: Effect of key operational parameters. In: Applied Thermal Engineering, 232 .
Chate, A and Dutta, P and Murthy, S (2023) Performance analysis of a thermochemical energy storage system for battery preheating in electric vehicles. In: Applied Thermal Engineering, 219 .
Sarath Babu, K and Anil Kumar, E and Srinivasa Murthy, S (2023) Thermochemical energy storage using coupled metal hydride beds of Mg-LaNi5 composites and LaNi5 based hydrides for concentrated solar power plants. In: Applied Thermal Engineering, 219 .
Malleswararao, K and Dutta, P and Murthy S, S (2022) Applications of metal hydride based thermal systems: A review. In: Applied Thermal Engineering, 215 .
Sasidharan, S and Dutta, P (2022) Numerical and experimental studies on a pressurized hybrid tubular and cavity solar air receiver using a Scheffler reflector. In: Applied Thermal Engineering, 214 .
Samudre, P and Kailas, SV (2022) Thermal performance enhancement in open-pore metal foam and foam-fin heat sinks for electronics cooling. In: Applied Thermal Engineering, 205 .
Sathish, S and Kumar, P and Nassar, A (2021) Analysis of a 10 MW recompression supercritical carbon dioxide cycle for tropical climatic conditions. In: Applied Thermal Engineering, 186 .
Sharma, R and Anil Kumar, E and Dutta, P and Srinivasa Murthy, S and Aristov, YI and Tokrev, MM and Li, TX and Wang, RZ (2021) Ammoniated salt based solid sorption thermal batteries: A comparative study. In: Applied Thermal Engineering, 191 .
Kumar, K and Gupta, HK and Kumar, P (2020) Analysis of a hybrid transcritical CO2 vapor compression and vapor ejector refrigeration system. In: Applied Thermal Engineering, 181 .
Manila, MR and Mitra, S and Dutta, P (2020) Studies on dynamics of two-stage air cooled water/silica gel adsorption system. In: Applied Thermal Engineering, 178 .
Garg, Pardeep and Kumar, Pramod and Srinivasan, Kandadai and Dutta, Pradip (2013) Evaluation of carbon dioxide blends with isopentane and propane as working fluids for organic Rankine cycles. In: Applied Thermal Engineering, 52 (2). pp. 439-448.
Banker, ND and Prasad, M and Dutta, P and Srinivasan, K (2011) Experimental results of an activated carbon-HFC 134a adsorption cooling system for thermal management of electronics. In: Applied Thermal Engineering, 31 (10). pp. 1607-1612.
Banker, ND and Prasad, M and Dutta, P and Srinivasan, K (2010) Development and transient performance results of a single stage activated carbon - HFC 134a closed cycle adsorption cooling system. In: Applied Thermal Engineering, 30 (10). pp. 1126-1132.
Ashwin, TR and Narasimham, GSVL and Jacob, Subhash (2010) CFD analysis of high frequency miniature pulse tube refrigerators for space applications with thermal non-equilibrium model. In: Applied Thermal Engineering, 30 (2-3). pp. 152-166.
Pathak, Nitin and Kumar, Arvind and Yadav, Anil and Dutta, Pradip (2009) Effects of mould filling on evolution of the solid-liquid interface during solidification. In: Applied Thermal Engineering, 29 (17-18). pp. 3669-3678.
Banker, ND and Prasad, M and Dutta, P and Srinivasan, K (2009) Activated carbon + HFC 134a based two stage thermal compression adsorption refrigeration using low grade thermal energy sources. In: Applied Thermal Engineering, 29 (11-12). pp. 2257-2264.