| Nome |
# |
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VIPs Thermal Conductivity Measurement: Test Methods, Limits and Uncertainty, file e384c42e-6cab-d4b2-e053-9f05fe0a1d67
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461
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Energy demand profiles assessment at district scale: A stochastic approach for a block of buildings demand profiles generation, file e384c42e-79c5-d4b2-e053-9f05fe0a1d67
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415
|
|
Energy Assessment of A PCM–Embedded Plaster: Embodied Energy Versus Operational Energy, file e384c42e-6f7d-d4b2-e053-9f05fe0a1d67
|
397
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Thermal bridges in vacuum insulation panels at building scale, file e384c42f-6561-d4b2-e053-9f05fe0a1d67
|
394
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Vacuum Insulation Panels: Thermal Bridging Effects and Energy Performance in Real Building Applications, file e384c42e-6b72-d4b2-e053-9f05fe0a1d67
|
382
|
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Dynamic Insulation Systems: Experimental Analysis on a Parietodynamic Wall, file e384c42e-6f7c-d4b2-e053-9f05fe0a1d67
|
357
|
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Estimation of the thermal properties of PCMs through inverse modelling, file e384c42e-f770-d4b2-e053-9f05fe0a1d67
|
321
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|
Editorial to the proceedings of the 6th International Building Physics Conference (IBPC 2015), file e384c42e-c170-d4b2-e053-9f05fe0a1d67
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317
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Simulating Switchable Glazing with EnergyPlus: An Empirical Validation and Calibration of a Thermotropic Glazing Model, file e384c42e-c6c1-d4b2-e053-9f05fe0a1d67
|
306
|
|
Characterization and energy performance of a slurry PCM-based
solar thermal collector: a numerical analysis, file e384c42f-6e11-d4b2-e053-9f05fe0a1d67
|
303
|
|
The Effect of Temperature on Thermal Performance of Fumed Silica Based Vacuum Insulation Panels for Buildings, file e384c42f-8bec-d4b2-e053-9f05fe0a1d67
|
289
|
|
Switching from static to adaptable and dynamic building envelopes: A paradigm shift for the energy efficiency in buildings, file e384c42e-6eba-d4b2-e053-9f05fe0a1d67
|
264
|
|
Potentialities of a Low Temperature Solar Heating System Based on Slurry Phase Change Materials (PCS), file e384c42e-37a6-d4b2-e053-9f05fe0a1d67
|
243
|
|
The effect of different materials joint in Vacuum Insulation Panels, file e384c42e-36e1-d4b2-e053-9f05fe0a1d67
|
232
|
|
Coupling VIPs and ABPs: Assessment of Overall Thermal Performance in Building Wall Insulation, file e384c42e-6a4e-d4b2-e053-9f05fe0a1d67
|
223
|
|
Experimental Measurement and Numerical Modeling of the Creaming of mPCM Slurry, file e384c42e-6cac-d4b2-e053-9f05fe0a1d67
|
216
|
|
Vacuum Insulation Panels: Analysis of the Thermal Performance of Both Single Panel and Multilayer Boards, file e384c42e-3c11-d4b2-e053-9f05fe0a1d67
|
178
|
|
Design of a low-temperature solar heating system based on a slurry Phase Change Material (PCS), file e384c42e-7812-d4b2-e053-9f05fe0a1d67
|
140
|
|
Development of an aerogel-based thermal coating for the energy retrofit and the prevention of condensation risk in existing buildings, file e384c431-0f0f-d4b2-e053-9f05fe0a1d67
|
96
|
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Experimental Analysis of an Advanced Dynamic Glazing Prototype Integrating PCM and Thermotropic Layers, file e384c430-fd73-d4b2-e053-9f05fe0a1d67
|
93
|
|
Energy Performance Assessment of and Advanced Integrated Façade through Experimental Data Analysis, file e384c430-e1a5-d4b2-e053-9f05fe0a1d67
|
85
|
|
The Wall-ACE project: an overview of the in-field monitoring on the novel Aerogel-based products, file e384c431-6c13-d4b2-e053-9f05fe0a1d67
|
74
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Hygrothermal characterization of high performance Aerogel-based internal plaster, file e384c430-f892-d4b2-e053-9f05fe0a1d67
|
56
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Advanced Integrated Facades: concept evolution and new challenges, file e384c431-3e98-d4b2-e053-9f05fe0a1d67
|
52
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Development of aerogel based internal thermal plasters for the energy retrofit of existing buildings: First results, file e384c430-e22a-d4b2-e053-9f05fe0a1d67
|
48
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|
Retrofit of the existing buildings using a novel developed aerogel-based coating: results from an in-field monitoring, file e384c430-9737-d4b2-e053-9f05fe0a1d67
|
46
|
|
Energy retrorofit of residential buildings with a novel super-insulating aerogel-based plaster, file e384c432-bc67-d4b2-e053-9f05fe0a1d67
|
40
|
|
Coupled Heat And Moisture Transfer Simulations On Building Components Retrofitted With A Newly Developed Aerogel-based Coating, file e384c431-ad79-d4b2-e053-9f05fe0a1d67
|
34
|
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Development of advanced multifunctional façade systems: Thermo-acoustic modelling and performance, file e384c434-9310-d4b2-e053-9f05fe0a1d67
|
30
|
|
6th International Building Physics Conference, IBPC 2015, file e384c430-cfb5-d4b2-e053-9f05fe0a1d67
|
20
|
|
Calibration of DSF model for real-time control, file e384c434-97d9-d4b2-e053-9f05fe0a1d67
|
12
|
|
Laboratory Assessment and In-Field Monitoring of Macro-Encapsulated Phase Change Materials for Building Envelope Applications, file e384c434-6be0-d4b2-e053-9f05fe0a1d67
|
11
|
|
Experimental and numerical investigation of thermal bridging effects of jointed Vacuum Insulation Panels, file e384c42e-5e4a-d4b2-e053-9f05fe0a1d67
|
4
|
|
Optimisation analysis of PCM-enhanced opaque building envelope components for the energy retrofitting of office buildings in Mediterranean climates, file e384c430-4da6-d4b2-e053-9f05fe0a1d67
|
4
|
|
null, file e384c430-59a1-d4b2-e053-9f05fe0a1d67
|
4
|
|
Analysis of the temperature dependence of the thermal conductivity in Vacuum Insulation Panels, file e384c430-721c-d4b2-e053-9f05fe0a1d67
|
4
|
|
Advanced Materials for Opaque Building Envelopes, file e384c431-b0e9-d4b2-e053-9f05fe0a1d67
|
4
|
|
International Journal of Ventilation, Special issue: Breakthrough of natural and hybrid ventilative cooling technologies: models and Simulations, file e384c42f-3a90-d4b2-e053-9f05fe0a1d67
|
3
|
|
Energy demand profile generation with detailed time resolution at an urban district scale: A reference building approach and case study, file e384c42f-6c05-d4b2-e053-9f05fe0a1d67
|
3
|
|
Air tightness and RH control in museum showcases: concepts and testing procedures, file e384c42f-83f0-d4b2-e053-9f05fe0a1d67
|
3
|
|
Long-term hygrothermal monitoring of glass fiber Vacuum Insulation Panels for roof application, file b96d6ae8-8ae8-43f7-96b7-7bb9e1c15099
|
2
|
|
Experimental assessment of the performance of an active transparent façade during actual operating conditions, file e384c42d-f94b-d4b2-e053-9f05fe0a1d67
|
2
|
|
Experimental and numerical analysis of air and radiant cooling systems in offices, file e384c42d-fe05-d4b2-e053-9f05fe0a1d67
|
2
|
|
Numerical model for solar thermal collectors and thermal energy storages based on phase change slurry, file e384c432-b43a-d4b2-e053-9f05fe0a1d67
|
2
|
|
Numerical model for solar thermal collectors and thermal energy storages based on phase change slurry, file e384c433-5bc3-d4b2-e053-9f05fe0a1d67
|
2
|
|
Development of a new parallel roof testing-rooms facility, file 9c2c6c9d-7427-4384-a29e-d3a64a5d2906
|
1
|
|
Experimental and theoretical analysis of natural ventilation by windows opening, file e384c42d-f5b4-d4b2-e053-9f05fe0a1d67
|
1
|
|
The airborne transmission of infection between flats in high-rise residential buildings: tracer gas simulation, file e384c42e-0068-d4b2-e053-9f05fe0a1d67
|
1
|
|
Monitoring energy and comfort performance of transparent adaptive façades, file e384c42e-445a-d4b2-e053-9f05fe0a1d67
|
1
|
|
Experimental analysis of the energy performance of an ACTive, RESponsive and Solar (ACTRESS) façade module, file e384c430-ad62-d4b2-e053-9f05fe0a1d67
|
1
|
|
Impact of glass technology on future electrical individual transportation: the Pop.Up case study, file e384c431-3016-d4b2-e053-9f05fe0a1d67
|
1
|
|
Ventilazione naturale mediante apertura controllata di finestre: implicazioni sul comfort interno, file e384c434-9dbd-d4b2-e053-9f05fe0a1d67
|
1
|
|
I bacini d’acqua come dispersori di calore negli impianti di condizionamento: un modello numerico semplificato per l’analisi termica, file e384c434-9dbe-d4b2-e053-9f05fe0a1d67
|
1
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| Totale |
6.182 |
Archivio Istituzionale della Ricerca