AMBROSINI, WALTER Statistiche

AMBROSINI, WALTER  

DIPARTIMENTO DI INGEGNERIA CIVILE E INDUSTRIALE  

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Risultati 1 - 20 di 238 (tempo di esecuzione: 0.041 secondi).
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Assessing water-wall behaviour for a light-water Small Modular Reactor with the aid of CFD analyses 1-gen-2023 De Angelis, A.; Reinke, N.; Ambrosini, W.
CFD prediction of heat transfer at supercritical pressure with rough walls: Parametric analyses and comparison with experimental data 1-gen-2023 Kassem, Sara; Pucciarelli, Andrea; Ambrosini, Walter
A shape function approach for predicting deteriorated heat transfer to supercritical pressure fluids on account of a thermal entry length phenomenon 1-gen-2022 Pucciarelli, A.; Ambrosini, W.
Characterisation of observed heat transfer deterioration modes at supercritical pressure with the aid of a CFD model 1-gen-2022 Pucciarelli, A.; Kassem, S.; Ambrosini, W.
CONSIDERATIONS ABOUT CORRELATIONS FOR HEAT TRANSFER TO SUPERCRITICAL PRESSURE FLUIDS SPANNING ALL REGIMES 1-gen-2022 Kassem, SARA IBRAHIM ABDELSALAM MOHAMED; Pucciarelli, Andrea; Ambrosini, Walter
EXTRAPOLATION OF HEAT TRANSFER DATA FOR CARBON DIOXIDE TO THE OPERATING CONDITIONS OF SCWR 1-gen-2022 Kassem, SARA IBRAHIM ABDELSALAM MOHAMED; Pucciarelli, Andrea; Ambrosini, Walter
Study of fluid-to-fluid scaling for upward pipe flows of supercritical fluids using direct numerical simulation 1-gen-2022 He, J.; Wang, W.; Yan, J.; Pucciarelli, A.; Jiang, P.; Ambrosini, W.; He, S.
Advances in the development of a fluid-to-fluid similarity theory for fluids at supercritical pressure: Results from sensitivity analyses 1-gen-2021 De Angelis, A.; Pucciarelli, A.; Kassem, S.; Ambrosini, W.
CONSIDERATIONS ON A FLUID TO FLUID SCALING THEORY FOR HEAT TRANSFER TO SUPERCRITICAL FLUIDS: RECOMMENDATIONS FOR NON-UNIFORM HEAT FLUX CONDITIONS 1-gen-2021 Pucciarelli, Andrea; Kassem, SARA IBRAHIM ABDELSALAM MOHAMED; Ambrosini, Walter
EXTENDING A FLUID-TO-FLUID SIMILARITY RATIONALE FOR HEAT TRANSFER AT SUPERCRITICAL PRESSURE TO R134a 1-gen-2021 Kassem, SARA IBRAHIM ABDELSALAM MOHAMED; Pucciarelli, Andrea; Ambrosini, Walter
Insight into a fluid-to-fluid similarity theory for heat transfer at supercritical pressure: Results and perspectives 1-gen-2021 Kassem, Sara; Pucciarelli, Andrea; Ambrosini, Walter
Learning from the pandemic for planning series of webinars in nuclear matters: reporting about a successful experience 1-gen-2021 Ambrosini, Walter; Forgione, Nicola
On the Choice of Corresponding Pressures in a Novel Fluid-to-Fluid Similarity Theory for Heat Transfer at Supercritical Pressure 1-gen-2021 Pucciarelli, Andrea; Kassem, SARA IBRAHIM ABDELSALAM MOHAMED; Ambrosini, Walter
OUTCOMES OF A SUCCESSFUL FLUID-TO-FLUID SIMILARITY THEORY FOR HEAT TRANSFER AT SUPERCRITICAL PRESSURES 1-gen-2021 Kassem, SARA IBRAHIM ABDELSALAM MOHAMED; Pucciarelli, Andrea; Ambrosini, Walter
Overview of a Theory for Planning Similar Experiments with Different Fluids at Supercritical Pressure 1-gen-2021 Pucciarelli, Andrea; Kassem, Sara; Ambrosini, Walter
Risk monitor implementation for the LVR-15 research reactor 1-gen-2021 Ferretto, D.; Mazzini, G.; Ambrosini, W.; Aldorf, R.; Hrehor, M.
11.6. CONJUGATE HEAT TRANSFER EFFECTS ON RESOLVED CALCULATIONS 1-gen-2020 Ambrosini, W.; Pucciarelli, A.
4.4.3. A SIMILARITY THEORY FOR HEAT TRANSFER IN TUBES WITH SUPERCRITICAL PRESSURE FLUIDS 1-gen-2020 Ambrosini, W.; Pucciarelli, A.
7.4. SCALING: A SIMILARITY THEORY OF NATURAL CIRCULATION STABILITY WITH SUPERCRITICAL PRESSURE FLUIDS 1-gen-2020 Ambrosini, W.
A successful general fluid-to-fluid similarity theory for heat transfer at supercritical pressure 1-gen-2020 Pucciarelli, A.; Ambrosini, W.