| Nome |
# |
|
Reconstruction and modeling of 3D percolation networks of carbon fillers in a polymer matrix, file e384c42e-1124-d4b2-e053-9f05fe0a1d67
|
3.437
|
|
A sensor for direct measurement of small convective heat fluxes: Validation and application to micro-structured surfaces, file e384c42e-3013-d4b2-e053-9f05fe0a1d67
|
2.367
|
|
Lattice Boltzmann Simulations of 2D Laminar Flows past Two Tandem Cylinders, file e384c42d-fc96-d4b2-e053-9f05fe0a1d67
|
1.870
|
|
CFD MODELING OF SOLAR COLLECTOR WITH NANO-FLUID DIRECT ABSORPTION FOR CIVIL APPLICATION, file e384c42e-2826-d4b2-e053-9f05fe0a1d67
|
1.569
|
|
Inference of analytical thermodynamic models for biological networks, file e384c42e-20bd-d4b2-e053-9f05fe0a1d67
|
1.523
|
|
Scalable methodology for the photovoltaic solar energy potential assessment based on available roof surface area: application to Piedmont Region (Italy), file e384c42e-0c33-d4b2-e053-9f05fe0a1d67
|
1.273
|
|
An Introduction to Multiscale Modeling with Applications, file e384c42e-2542-d4b2-e053-9f05fe0a1d67
|
1.262
|
|
Lattice Boltzmann model for reactive flow simulations, file e384c42e-11bb-d4b2-e053-9f05fe0a1d67
|
1.182
|
|
Solar energy potential assessment: An overview and a fast modeling approach with application to Italy, file e384c42e-35ff-d4b2-e053-9f05fe0a1d67
|
1.145
|
|
Multiple-relaxation-time lattice Boltzmann scheme for homogeneous mixture flows with external force, file e384c42e-0190-d4b2-e053-9f05fe0a1d67
|
984
|
|
Three ways to lattice Boltzmann: A unified time-marching picture, file e384c42e-073b-d4b2-e053-9f05fe0a1d67
|
900
|
|
Scalable methodology for the photovoltaic solar energy potential assessment based on available roof surface area: further improvements by ortho-image analysis and application to Turin (Italy), file e384c42e-17ca-d4b2-e053-9f05fe0a1d67
|
814
|
|
A Lattice Boltzmann scheme for electrolytes by an extended Maxwell-Stefan approach, file e384c42e-3255-d4b2-e053-9f05fe0a1d67
|
809
|
|
Overview of the entropy production of incompressible and compressible fluid dynamics, file e384c42e-5bbd-d4b2-e053-9f05fe0a1d67
|
740
|
|
Rough surfaces with enhanced heat transfer for electronics cooling by direct metal laser sintering, file e384c42e-3379-d4b2-e053-9f05fe0a1d67
|
692
|
|
An Open-Source Library for the Numerical Modeling of Mass-Transfer in Solid-Oxide Fuel Cells, file e384c42e-17c6-d4b2-e053-9f05fe0a1d67
|
688
|
|
Artificial Compressibility Method Revisited: Asymptotic Numerical Method for Incompressible Navier-Stokes Equations, file e384c42e-0568-d4b2-e053-9f05fe0a1d67
|
659
|
|
Lattice-Boltzmann simulations of the thermally driven 2D square cavity at high Rayleigh numbers, file e384c42e-3233-d4b2-e053-9f05fe0a1d67
|
659
|
|
Pore-scale modeling of fluid flow through gas diffusion and catalyst layers for high temperature proton exchange membrane (HT-PEM) fuel cells, file e384c42e-2b15-d4b2-e053-9f05fe0a1d67
|
645
|
|
Enhancing surface heat transfer by carbon nanofins: towards an alternative to nanofluids?, file e384c42e-1581-d4b2-e053-9f05fe0a1d67
|
633
|
|
Integrated receivers with bottom subcooling for automotive air conditioning: detailed experimental study of their filling capacity, file e384c42e-59f8-d4b2-e053-9f05fe0a1d67
|
627
|
|
Generalized Maxwell state and H theorem for computing fluid flows using the lattice Boltzmann method, file e384c42e-05af-d4b2-e053-9f05fe0a1d67
|
605
|
|
Improved angular discretization and error analysis of the lattice boltzmann method for solving radiative heat transfer in a participating medium, file e384c42e-17f3-d4b2-e053-9f05fe0a1d67
|
577
|
|
The notion of energy through multiple scales: From a molecular level to fluid flows and beyond, file e384c42e-32ce-d4b2-e053-9f05fe0a1d67
|
570
|
|
Generalized local equilibrium in the cascaded lattice Boltzmann method, file e384c42d-ff42-d4b2-e053-9f05fe0a1d67
|
562
|
|
Gas-dynamic and electro-chemical optimization of catalyst layers in high temperature polymeric electrolyte membrane fuel cells, file e384c42e-36b2-d4b2-e053-9f05fe0a1d67
|
550
|
|
A lattice Boltzmann formulation to the analysis of radiative heat transfer problems in a participating medium, file e384c42e-09b2-d4b2-e053-9f05fe0a1d67
|
541
|
|
A review on the heat and mass transfer phenomena in nanofluid coolants with special focus on automotive applications, file e384c42e-cb81-d4b2-e053-9f05fe0a1d67
|
528
|
|
A kinetic perspective on k-epsilon turbulence model and corresponding entropy production, file e384c42e-c65a-d4b2-e053-9f05fe0a1d67
|
521
|
|
Interfacial water thickness at inorganic nanoconstructs and biomolecules: Size matters, file e384c42e-cae2-d4b2-e053-9f05fe0a1d67
|
519
|
|
From GROMACS to LAMMPS: GRO2LAM : A converter for molecular dynamics software, file e384c430-f408-d4b2-e053-9f05fe0a1d67
|
511
|
|
Warm cascade states in a forced-dissipated Boltzmann gas of hard spheres, file e384c42e-0a99-d4b2-e053-9f05fe0a1d67
|
498
|
|
Experimental evaluation of the operating temperature impact on solid oxide anode-supported fuel cells, file e384c42e-0181-d4b2-e053-9f05fe0a1d67
|
493
|
|
Lattice Boltzmann scheme for mixture modeling: analysis of the continuum diffusion regimes recovering Maxwell-Stefan model and incompressible Navier-Stokes equations, file e384c42e-04ea-d4b2-e053-9f05fe0a1d67
|
489
|
|
Finite-volume and Finite-element Hybrid Technique for the Calculation of Complex Heat Exchangers by Semiexplicit Method for Wall Temperature Linked Equations (SEWTLE), file e384c42d-f875-d4b2-e053-9f05fe0a1d67
|
469
|
|
Microstructural characterization of solid oxide fuel cell electrodes by image analysis technique, file e384c42e-127c-d4b2-e053-9f05fe0a1d67
|
462
|
|
Passive heat transfer enhancement by 3D printed Pitot tube based heat sink, file e384c42e-956d-d4b2-e053-9f05fe0a1d67
|
457
|
|
Artificial Compressibility Method and Lattice Boltzmann Method: Similarities and Differences, file e384c42e-1134-d4b2-e053-9f05fe0a1d67
|
449
|
|
Link-wise Artificial Compressibility Method, file e384c42e-1b99-d4b2-e053-9f05fe0a1d67
|
449
|
|
Porous-layer model for laminar liquid flow in rough microchannels, file e384c42e-111d-d4b2-e053-9f05fe0a1d67
|
448
|
|
Effects of Thermal Conduction in Microchannel Gas Coolers for Carbon Dioxide, file e384c42d-f874-d4b2-e053-9f05fe0a1d67
|
433
|
|
Numerical Prediction of Turbulent Convective Heat Transfer in Mini/Micro Channels for Carbon Dioxide at Supercritical Pressure, file e384c42e-00a3-d4b2-e053-9f05fe0a1d67
|
425
|
|
Thermal transport phenomena in nanoparticle suspensions, file e384c42e-f753-d4b2-e053-9f05fe0a1d67
|
423
|
|
Thermal link-wise artificial compressibility method: GPU implementation and validation of a double-population model, file e384c42e-59f7-d4b2-e053-9f05fe0a1d67
|
417
|
|
Warm turbulence in the Boltzmann equation, file e384c42e-0dc4-d4b2-e053-9f05fe0a1d67
|
409
|
|
Analysis of a localized fire in a 3-D tunnel using a hybrid solver: Lattice Boltzmann Method, finite-volume method, and fully explicit upwind scheme, file e384c42d-f54a-d4b2-e053-9f05fe0a1d67
|
402
|
|
Polarization analysis and microstructural characterization of SOFC anode and electrolyte supported cells, file e384c42e-0589-d4b2-e053-9f05fe0a1d67
|
399
|
|
High-performance Implementations and Large-scale Validation of the Link-wise Artificial Compressibility Method, file e384c42e-32f1-d4b2-e053-9f05fe0a1d67
|
391
|
|
Connection between kinetic methods for fluid-dynamic equations and macroscopic finite-difference schemes, file e384c42d-fb70-d4b2-e053-9f05fe0a1d67
|
383
|
|
A Consistent Lattice Boltzmann Equation with Baroclinic Coupling for Mixtures, file e384c42d-fb07-d4b2-e053-9f05fe0a1d67
|
380
|
|
Convective heat transfer enhancement by diamond shaped micro-protruded patterns for heat sinks: Thermal fluid dynamic investigation and novel optimization methodology, file e384c42e-5bbc-d4b2-e053-9f05fe0a1d67
|
376
|
|
Convective Heat Transfer Enhancement for Electronic Device Applications using Patterned MWCNTs Structures, file e384c42e-9291-d4b2-e053-9f05fe0a1d67
|
370
|
|
Molecular dynamics simulation of carbon nano-binders into zeolite thermal storage, file e384c42e-2c63-d4b2-e053-9f05fe0a1d67
|
364
|
|
Micro-structured rough surfaces by laser etching for heat transfer enhancement on flush mounted heat sinks, file e384c42e-34b4-d4b2-e053-9f05fe0a1d67
|
353
|
|
Factorization symmetry in the lattice Boltzmann method, file e384c42e-093b-d4b2-e053-9f05fe0a1d67
|
352
|
|
Quasiequilibrium lattice Boltzmann models with tunable bulk viscosity for enhancing stability, file e384c42e-0934-d4b2-e053-9f05fe0a1d67
|
351
|
|
Water transport control in carbon nanotube arrays, file e384c42e-3229-d4b2-e053-9f05fe0a1d67
|
348
|
|
Lattice-Boltzmann equation for microscale gas flows of binary mixture, file e384c42e-02c6-d4b2-e053-9f05fe0a1d67
|
347
|
|
Fast computation of multi-scale combustion systems, file e384c42e-0ad9-d4b2-e053-9f05fe0a1d67
|
346
|
|
Viscous coupling based lattice Boltzmann model for binary mixtures, file e384c42f-c3b9-d4b2-e053-9f05fe0a1d67
|
343
|
|
Multi-scale modeling to boost fuel cell performance: From pore-scale simulations to better efficiency and durability, file e384c42e-2aaa-d4b2-e053-9f05fe0a1d67
|
342
|
|
Efficient steam generation by inexpensive narrow gap evaporation device for solar applications, file e384c42f-a36c-d4b2-e053-9f05fe0a1d67
|
330
|
|
Asymptotic analysis of multiple-relaxation-time lattice Boltzmann schemes for mixture modeling, file e384c42d-ed1e-d4b2-e053-9f05fe0a1d67
|
322
|
|
Towards a multiscale simulation approach of nanofluids for volumetric solar receivers: Assessing inter-particle potential energy, file e384c42e-f9fb-d4b2-e053-9f05fe0a1d67
|
319
|
|
Atomistic modeling of water infiltration in defective zeolite for thermal storage applications, file e384c42d-b639-d4b2-e053-9f05fe0a1d67
|
315
|
|
Unshrouded plate fin heat sinks for electronics cooling: Validation of a comprehensive thermal model and cost optimization in semi-active configuration, file e384c42f-89ab-d4b2-e053-9f05fe0a1d67
|
315
|
|
Multiscale simulation approach to heat and mass transfer properties of nanostructured materials for sorption heat storage, file e384c42f-9e3b-d4b2-e053-9f05fe0a1d67
|
308
|
|
Installation of a Concentrated Solar Power System for the Thermal Needs of Buildings or Industrial Processes, file e384c42f-65d6-d4b2-e053-9f05fe0a1d67
|
294
|
|
Matrix lattice Boltzmann reloaded, file e384c42e-140c-d4b2-e053-9f05fe0a1d67
|
291
|
|
An Introduction to Multiscale Modeling with Applications, file e384c42e-2541-d4b2-e053-9f05fe0a1d67
|
281
|
|
Nonlinear Boltzmann equation for the homogeneous isotropic case: Minimal deterministic Matlab program, file e384c42e-1120-d4b2-e053-9f05fe0a1d67
|
271
|
|
On the essential role of kinetic theory in numerical methods for fluid-dynamic equations, file e384c42f-c43f-d4b2-e053-9f05fe0a1d67
|
262
|
|
Pore-scale simulation of fluid flow through the electrodes of high temperature PEMFC using Lattice Boltzmann Method, file e384c42e-2aab-d4b2-e053-9f05fe0a1d67
|
231
|
|
Reconstruction and modeling of 3D percolation networks of carbon fillers in a polymer matrix, file e384c42e-1122-d4b2-e053-9f05fe0a1d67
|
228
|
|
Cave spiders choose optimal environmental factors with respect to the generated entropy when laying their cocoon, file e384c42f-8a00-d4b2-e053-9f05fe0a1d67
|
228
|
|
Protocols for atomistic modeling of water uptake into zeolite crystals for thermal storage and other applications, file e384c42e-f9fa-d4b2-e053-9f05fe0a1d67
|
215
|
|
Mesoscopic Moment Equations for Heat Conduction: Characteristic Features and Slow–Fast Mode Decomposition, file e384c42f-f03a-d4b2-e053-9f05fe0a1d67
|
215
|
|
Interplay between hydrophilicity and surface barriers on water transport in zeolite membranes, file e384c42f-888b-d4b2-e053-9f05fe0a1d67
|
204
|
|
Scaling behaviour for the water transport in nanoconfined geometries, file e384c42f-8a04-d4b2-e053-9f05fe0a1d67
|
185
|
|
Mass transport phenomena at the solid-liquid nanoscale interface in biomedical application, file e384c42d-b636-d4b2-e053-9f05fe0a1d67
|
158
|
|
THERMAL BOUNDARY CONDUCTANCE OF CARBON NANOFINS, file e384c42e-32bd-d4b2-e053-9f05fe0a1d67
|
155
|
|
Atomistic modelling of water transport and adsorption mechanisms in silicoaluminophosphate for thermal energy storage, file e384c430-d3d9-d4b2-e053-9f05fe0a1d67
|
149
|
|
3 Modeling carbon-based smart materials, file e384c431-ed16-d4b2-e053-9f05fe0a1d67
|
121
|
|
Effect of interfacial thermal resistance and nanolayer on estimates of effective thermal conductivity of nanofluids, file e384c430-2598-d4b2-e053-9f05fe0a1d67
|
85
|
|
Exergy analysis of solar desalination systems based on passive multi-effect membrane distillation, file e384c431-c590-d4b2-e053-9f05fe0a1d67
|
70
|
|
Convective Heat Transfer Enhancement through Laser-Etched Heat Sinks: Elliptic Scale-Roughened and Cones Patterns, file e384c431-8642-d4b2-e053-9f05fe0a1d67
|
64
|
|
Coffee-based colloids for direct solar absorption, file e384c430-85e8-d4b2-e053-9f05fe0a1d67
|
58
|
|
Techno-economic analysis of a solar thermal plant for large-scale water pasteurization, file e384c432-58ed-d4b2-e053-9f05fe0a1d67
|
56
|
|
Dissipative particle dynamics simulations of tri-block co-polymer and water: Phase diagram validation and microstructure identification, file e384c430-8804-d4b2-e053-9f05fe0a1d67
|
45
|
|
Nanoscale thermal properties of carbon nanotubes/epoxy composites by atomistic simulations, file e384c432-6f69-d4b2-e053-9f05fe0a1d67
|
45
|
|
Multiple-Regression Method for Fast Estimation of Solar Irradiation and Photovoltaic Energy Potentials over Europe and Africa, file e384c430-82b5-d4b2-e053-9f05fe0a1d67
|
40
|
|
Enhancing surface heat transfer by carbon nanofins: towards an alternative to nanofluids?, file e384c42e-1582-d4b2-e053-9f05fe0a1d67
|
37
|
|
Exploring the Free Energy Landscape To Predict the Surfactant Adsorption Isotherm at the Nanoparticle–Water Interface, file e384c431-6e2c-d4b2-e053-9f05fe0a1d67
|
34
|
|
Multistage and passive cooling process driven by salinity difference, file e384c431-83cf-d4b2-e053-9f05fe0a1d67
|
34
|
|
A kinetic perspective on k-epsilon turbulence model and corresponding entropy production, file e384c42f-8ef1-d4b2-e053-9f05fe0a1d67
|
31
|
|
Characterisation and modelling of water wicking and evaporation in capillary porous media for passive and energy-efficient applications, file e384c434-ab0f-d4b2-e053-9f05fe0a1d67
|
30
|
|
Multistage and passive cooling process driven by salinity difference, file e384c431-83d0-d4b2-e053-9f05fe0a1d67
|
27
|
|
Thermally triggered nanorocket from double-walled carbon nanotube in water, file e384c430-531c-d4b2-e053-9f05fe0a1d67
|
25
|
|
Multi-scale approach for modeling stability, aggregation, and network formation of nanoparticles suspended in aqueous solutions, file e384c431-5129-d4b2-e053-9f05fe0a1d67
|
24
|
|
Solar passive distiller with high productivity and Marangoni effect-driven salt rejection, file e384c432-7869-d4b2-e053-9f05fe0a1d67
|
23
|
| Totale |
48.255 |
Archivio Istituzionale della Ricerca