Adoption of nanofluids in low-enthalpy parabolic trough solar collectors: numerical simulation of the yearly yield G Coccia, G Di Nicola, L Colla, L Fedele, M Scattolini Energy Conversion and Management 118, 306-319, 2016 | 130 | 2016 |
Design, manufacture, and test of a prototype for a parabolic trough collector for industrial process heat G Coccia, G Di Nicola, M Sotte Renewable Energy 74, 727-736, 2015 | 109 | 2015 |
Design, realization, and tests of a portable solar box cooker coupled with an erythritol-based PCM thermal energy storage G Coccia, A Aquilanti, S Tomassetti, G Comodi, G Di Nicola Solar energy 201, 530-540, 2020 | 82 | 2020 |
Design, manufacturing, and test of a high concentration ratio solar box cooker with multiple reflectors G Coccia, G Di Nicola, M Pierantozzi, S Tomassetti, A Aquilanti Solar Energy 155, 781-792, 2017 | 73 | 2017 |
Experimental validation of a high-temperature solar box cooker with a solar-salt-based thermal storage unit G Coccia, G Di Nicola, S Tomassetti, M Pierantozzi, M Chieruzzi, L Torre Solar energy 170, 1016-1025, 2018 | 60 | 2018 |
Mathematical modeling of a prototype of parabolic trough solar collector G Coccia, G Latini, M Sotte Journal of Renewable and sustainable energy 4 (2), 2012 | 48 | 2012 |
Correlations of thermal conductivity for liquid refrigerants at atmospheric pressure or near saturation G Di Nicola, E Ciarrocchi, G Coccia, M Pierantozzi International Journal of Refrigeration 45, 168-176, 2014 | 45 | 2014 |
Parabolic trough collector prototypes for low-temperature process heat G Coccia, G Di Nicola, A Hidalgo Springer International Publishing, 2016 | 40 | 2016 |
Saturated Pressure Measurements of trans-1-Chloro-3,3,3-trifluoroprop-1-ene (R1233zd(E)) G Di Nicola, L Fedele, JS Brown, S Bobbo, G Coccia Journal of Chemical & Engineering Data 62 (9), 2496-2500, 2017 | 36 | 2017 |
Design, manufacture and test of a low-cost solar cooker with high-performance light-concentrating lens G Coccia, A Aquilanti, S Tomassetti, A Ishibashi, G Di Nicola Solar Energy 224, 1028-1039, 2021 | 34 | 2021 |
Performance assessment of data-driven and physical-based models to predict building energy demand in model predictive controls A Mugnini, G Coccia, F Polonara, A Arteconi Energies 13 (12), 3125, 2020 | 34 | 2020 |
A review on thermophysical properties and thermal stability of sugar alcohols as phase change materials S Tomassetti, A Aquilanti, PF Muciaccia, G Coccia, C Mankel, ... Journal of Energy Storage 55, 105456, 2022 | 32 | 2022 |
Artificial-neural-network-based model predictive control to exploit energy flexibility in multi-energy systems comprising district cooling G Coccia, A Mugnini, F Polonara, A Arteconi Energy 222, 119958, 2021 | 32 | 2021 |
Demand side management analysis of a supermarket integrated HVAC, refrigeration and water loop heat pump system G Coccia, P D’Agaro, G Cortella, F Polonara, A Arteconi Applied Thermal Engineering 152, 543-550, 2019 | 28 | 2019 |
Thermal conductivity of nanofluids: A review of the existing correlations and a scaled semi-empirical equation G Coccia, S Tomassetti, G Di Nicola Renewable and Sustainable Energy Reviews 151, 111573, 2021 | 23 | 2021 |
Equations for the surface tension of low GWP halogenated alkene refrigerants and their blends G Di Nicola, G Coccia, M Pierantozzi, S Tomassetti International Journal of Refrigeration 86, 410-421, 2018 | 21 | 2018 |
A semi-empirical correlation for the estimation of the second virial coefficients of refrigerants G Di Nicola, G Coccia, M Pierantozzi, M Falone International Journal of Refrigeration 68, 242-251, 2016 | 21 | 2016 |
Vapor Phase PvTx Measurements of Binary Blends of 2,3,3,3-Tetrafluoroprop-1-ene + Propane and cis-1,2,3,3,3-Pentafluoroprop-1-ene + Propane JS Brown, G Coccia, G Di Nicola, M Pierantozzi, F Polonara Journal of Chemical & Engineering Data 61 (9), 3346-3354, 2016 | 20 | 2016 |
A new equation for the surface tension of carboxylic acids G Di Nicola, G Coccia, M Pierantozzi Fluid Phase Equilibria 417, 229-236, 2016 | 19 | 2016 |
Correlations for liquid thermal conductivity of low GWP refrigerants in the reduced temperature range 0.4 to 0.9 from saturation line to 70 MPa S Tomassetti, G Coccia, M Pierantozzi, G Di Nicola International Journal of Refrigeration 117, 358-368, 2020 | 17 | 2020 |