Solidification enhancement of PCM in a triplex-tube thermal energy storage system with nanoparticles and fins JM Mahdi, EC Nsofor Applied Energy 211, 975-986, 2018 | 290 | 2018 |
Melting enhancement in triplex-tube latent heat energy storage system using nanoparticles-metal foam combination JM Mahdi, EC Nsofor Applied energy 191, 22-34, 2017 | 289 | 2017 |
Hybrid heat transfer enhancement for latent-heat thermal energy storage systems: A review JM Mahdi, S Lohrasbi, EC Nsofor International Journal of Heat and Mass Transfer 137, 630-649, 2019 | 281 | 2019 |
Accelerated melting of PCM in energy storage systems via novel configuration of fins in the triplex-tube heat exchanger JM Mahdi, S Lohrasbi, DD Ganji, EC Nsofor International Journal of Heat and Mass Transfer 124, 663-676, 2018 | 279 | 2018 |
Solidification enhancement with multiple PCMs, cascaded metal foam and nanoparticles in the shell-and-tube energy storage system JM Mahdi, HI Mohammed, ET Hashim, P Talebizadehsardari, EC Nsofor Applied Energy 257, 113993, 2020 | 275 | 2020 |
Simultaneous energy storage and recovery in the triplex-tube heat exchanger with PCM, copper fins and Al2O3 nanoparticles JM Mahdi, S Lohrasbi, DD Ganji, EC Nsofor Energy conversion and management 180, 949-961, 2019 | 241 | 2019 |
Melting enhancement in triplex-tube latent thermal energy storage system using nanoparticles-fins combination JM Mahdi, EC Nsofor International journal of heat and mass transfer 109, 417-427, 2017 | 209 | 2017 |
Solidification enhancement in a triplex-tube latent heat energy storage system using nanoparticles-metal foam combination JM Mahdi, EC Nsofor Energy 126, 501-512, 2017 | 188 | 2017 |
Solidification of a PCM with nanoparticles in triplex-tube thermal energy storage system JM Mahdi, EC Nsofor Applied Thermal Engineering 108, 596-604, 2016 | 178 | 2016 |
Multiple-segment metal foam application in the shell-and-tube PCM thermal energy storage system JM Mahdi, EC Nsofor Journal of Energy Storage 20, 529-541, 2018 | 166 | 2018 |
Experimental study on the heat transfer at the heat exchanger of the thermoacoustic refrigerating system EC Nsofor, S Celik, X Wang Applied Thermal Engineering 27 (14-15), 2435-2442, 2007 | 97 | 2007 |
Measurements of the gas-particle convective heat transfer coefficient in a packed bed for high-temperature energy storage EC Nsofor, GA Adebiyi Experimental Thermal and Fluid Science 24 (1-2), 1-9, 2001 | 94 | 2001 |
Experimental study on the performance of the thermoacoustic refrigerating system EC Nsofor, A Ali Applied Thermal Engineering 29 (13), 2672-2679, 2009 | 73 | 2009 |
Melting of multiple PCMs with different arrangements inside a heat exchanger for energy storage OS Elsanusi, EC Nsofor Applied thermal engineering 185, 116046, 2021 | 70 | 2021 |
Computer simulation of a high-temperature thermal energy storage system employing multiple families of phase-change storage materials GA Adebiyi, BK Hodge, WG Steele, A Jalalzadeh-Azar, EC Nsofor | 66* | 1996 |
Composite flywheel material design for high-speed energy storage MA Conteh, EC Nsofor Journal of applied research and technology 14 (3), 184-190, 2016 | 55 | 2016 |
Efficient thermal management of the photovoltaic/phase change material system with innovative exterior metal-foam layer JM Mahdi, RP Singh, HMT Al-Najjar, S Singh, EC Nsofor Solar Energy 216, 411-427, 2021 | 44 | 2021 |
Parametric study on the operating efficiencies of a packed bed for high-temperature sensible heat storage GA Adebiyi, EC Nsofor, WG Steele, AA Jalalzadeh-Azar | 42 | 1998 |
Recent patents on nanofluids (nanoparticles in liquids) heat transfer EC Nsofor Recent Patents on Mechanical Engineering 1 (3), 190-197, 2008 | 37 | 2008 |
Melting of PCM with Nanoparticles in a Triplex-Tube Thermal Energy Storage System. JM Mahdi, EC Nsofor Ashrae Transactions 122 (2), 2016 | 34 | 2016 |