Enhancement of net output power of thermoelectric modules with a novel air-water combination
Z Miao, X Meng, X Li, B Liang, H Watanabe - Applied Thermal Engineering, 2025 - Elsevier
The thermoelectric module (TEM) is a power generation unit based on thermoelectric
conversion technology, known for its high environmental adaptability and long service life …
conversion technology, known for its high environmental adaptability and long service life …
[HTML][HTML] Investigation of natural convection and entropy generation in a porous titled Z-staggered cavity saturated by TiO2-water nanofluid
The natural convection within enclosures along with entropy generation minimization plays
a crucial role in various applications, particularly when they involve the utilization of …
a crucial role in various applications, particularly when they involve the utilization of …
[HTML][HTML] Enhanced conjugate natural convection in a corrugated porous enclosure with Ag-MgO hybrid nanofluid
Understanding the impact of hybrid nanofluids (NF) on natural convection (NC) within
complex enclosures can significantly advance the efficiency of heat transfer (HT) …
complex enclosures can significantly advance the efficiency of heat transfer (HT) …
Energy and exergy analysis of a subfreezing evaporator environment ammonia-water absorption refrigeration cycle: Machine learning and parametric optimization
The coefficient of performance (COP) and exergy efficiency of a single and double-effect
ammonia-water absorption refrigeration system powered by compound parabolic …
ammonia-water absorption refrigeration system powered by compound parabolic …
Enhancing photovoltaic thermal (PVT) performance with hybrid solar collector using phase change material, porous media, and nanofluid
This study presents a novel and low-complexity cooling system designed to enhance the
performance of Photovoltaic Thermal (PVT) systems integrated with a Hybrid Air-Water Solar …
performance of Photovoltaic Thermal (PVT) systems integrated with a Hybrid Air-Water Solar …
Simulation investigation of the oscillatory motion of two elliptic obstacles located within a quarter-circle cavity filled with Cu-Al2O3/water hybrid nanofluid
This study investigates the consequences of introducing a pair of oscillating elliptical
obstacles on the natural convection and entropy generation within a quarter-circle cavity that …
obstacles on the natural convection and entropy generation within a quarter-circle cavity that …
[HTML][HTML] Enhancement of solar distiller performance by photovoltaic heating system
This study aims to improve the productivity of traditional multi-slope solar stills, which are still
employed in isolated villages with no power and no clean drinking water. The conventional …
employed in isolated villages with no power and no clean drinking water. The conventional …
[HTML][HTML] Viscous dissipation analysis of Williamson fluid over a horizontal saturated porous plate at constant wall temperature
Williamson fluid flux and heat transfer characteristics over horizontal plate via a saturated
porous medium at constant surface temperature are examined in this study to determine the …
porous medium at constant surface temperature are examined in this study to determine the …
Maximization of CO2 Capture Capacity Using Recent RUNge Kutta Optimizer and Fuzzy Model
This study aims to identify the optimal operating parameters for the carbon dioxide (CO2)
capture process using a combination of artificial intelligence and metaheuristics techniques …
capture process using a combination of artificial intelligence and metaheuristics techniques …
[HTML][HTML] Enhanced distilled water productivity using an innovative semi-cylindrical tent-shaped solar still coupled with evacuated tubes
Despite advances in enhancing the output of conventional solar stills, the pursuit of the most
efficient solar distillation technique remains ongoing. Evacuated tubes, known for their …
efficient solar distillation technique remains ongoing. Evacuated tubes, known for their …