| Cost and performance analysis of concentrating solar power systems with integrated latent thermal energy storage K Nithyanandam, R Pitchumani Energy 64, 793-810, 2014 | 200 | 2014 |
| Analysis of a latent thermocline storage system with encapsulated phase change materials for concentrating solar power K Nithyanandam, R Pitchumani, A Mathur Applied Energy 113, 1446 – 1460, 2014 | 164 | 2014 |
| Analysis and optimization of a latent thermal energy storage system with embedded heat pipes K Nithyanandam, R Pitchumani International Journal of Heat and Mass Transfer 54 (21-22), 4596-4610, 2011 | 164 | 2011 |
| Computational studies on a latent thermal energy storage system with integral heat pipes for concentrating solar power K Nithyanandam, R Pitchumani Applied Energy 103, 400-415, 2013 | 145 | 2013 |
| Using encapsulated phase change salts for concentrated solar power plant A Mathur, R Kasetty, J Oxley, J Mendez, K Nithyanandam Energy Procedia 49, 908-915, 2014 | 111 | 2014 |
| Evaluation of metal foam based thermoelectric generators for automobile waste heat recovery K Nithyanandam, RL Mahajan International Journal of Heat and Mass Transfer 122, 877-883, 2018 | 90 | 2018 |
| Annual comparative performance and cost analysis of high temperature, sensible thermal energy storage systems integrated with a concentrated solar power plant SSM Tehrani, RA Taylor, K Nithyanandam, AS Ghazani Solar Energy 153, 153-172, 2017 | 82 | 2017 |
| Optimization of an encapsulated phase change material thermal energy storage system K Nithyanandam, R Pitchumani Solar Energy 107, 770-788, 2014 | 76 | 2014 |
| Computational studies on metal foam and heat pipe enhanced latent thermal energy storage K Nithyanandam, R Pitchumani Journal of heat transfer 136 (5), 051503, 2014 | 74 | 2014 |
| Design of a latent thermal energy storage system with embedded heat pipes K Nithyanandam, R Pitchumani Applied energy 126, 266-280, 2014 | 71 | 2014 |
| Cyclic performance of cascaded and multi-layered solid-PCM shell-and-tube thermal energy storage systems: A case study of the 19.9 MWe Gemasolar CSP plant SSM Tehrani, Y Shoraka, K Nithyanandam, RA Taylor Applied Energy 228, 240-253, 2018 | 68 | 2018 |
| Shell-and-tube or packed bed thermal energy storage systems integrated with a concentrated solar power: A techno-economic comparison of sensible and latent heat systems SSM Tehrani, Y Shoraka, K Nithyanandam, RA Taylor Applied Energy 238, 887-910, 2019 | 63 | 2019 |
| Thermal energy storage with heat transfer augmentation using thermosyphons K Nithyanandam, R Pitchumani International journal of heat and mass transfer 67, 281-294, 2013 | 42 | 2013 |
| Analysis and design of dye-sensitized solar cell K Nithyanandam, R Pitchumani Solar Energy 86 (1), 351-368, 2012 | 39 | 2012 |
| An experimental and numerical investigation of forced convection in high porosity aluminum foams subjected to jet array impingement in channel-flow P Singh, K Nithyanandam, RL Mahajan International Journal of Heat and Mass Transfer 149, 119107, 2020 | 38 | 2020 |
| Thermal and structural investigation of tubular supercritical carbon dioxide power tower receivers K Nithyanandam, R Pitchumani Solar Energy 135, 374-385, 2016 | 37 | 2016 |
| Computational Modeling of Dynamic Response of a Latent Thermal Energy Storage System With Embedded Heat Pipes K Nithyanandam, R Pitchumani Journal of Solar Energy Engineering 136 (1), 011010 (9 pages), 2014 | 36 | 2014 |
| Thermal-hydraulic performance of additively manufactured lattices for gas turbine blade trailing edge cooling I Kaur, Y Aider, K Nithyanandam, P Singh Applied Thermal Engineering 211, 118461, 2022 | 32 | 2022 |
| Analysis and design of direct contact membrane distillation J Deshpande, K Nithyanandam, R Pitchumani Journal of Membrane Science 523, 301-316, 2017 | 31 | 2017 |
| The effect of metal foam thickness on jet array impingement heat transfer in high-porosity aluminum foams P Singh, K Nithyanandam, M Zhang, RL Mahajan Journal of Heat Transfer 142 (5), 052301, 2020 | 29 | 2020 |
