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Computational Model and Sensitivity Analysis for a Horizontal Exchanger in "Slinky" Configuration for Geothermal Heat Pumps
Experimental Analysis of Horizontal and Slinky Probes for Geothermal Heat Pumps
Experimental Validation of Horizontal Air-Ground Heat Exchangers for Ventilation Systems
Numerical and Experimental Analysis of the Energy Performance of an Air Source Heat Pump Combined with a Horizontal Ground-To-Air Heat Exchanger in Different Climates
Dynamic Analysis of Natural and Mechanical Ventilation of a Solar Greenhouse Combining Controlled Mechanical Ventilation with a Ground-To-Air Heat Exchanger
Thermofluidodynamic Analysis of a Waste Incineration Plant with Plasma Technology
Multi-Objective Optimization Analysis Applied to the Zeb Building Envelope
Optimization of Envelope Design by Dynamic Thermal Modeling of a Building in a Warm Climate
Dynamic Predictive Analysis of Building Performance Under Long-Term Climate Change Conditions
Rising Damp in Building Materials
Cost-Optimal Analysis and Technical Comparison Between Standard and High Efficiency Buildings in a Warm Climate
Definition of a New Multi-Criteria Energy-Economic-Environmental Decision-Making Process for the Optimization of a Renewable Energy Hybrid System
Hypothesis of Implementation of Itaca Puglia Protocol at District Level
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The Lab
Research lines
Computational Model and Sensitivity Analysis for a Horizontal Exchanger in "Slinky" Configuration for Geothermal Heat Pumps
Experimental Analysis of Horizontal and Slinky Probes for Geothermal Heat Pumps
Experimental Validation of Horizontal Air-Ground Heat Exchangers for Ventilation Systems
Numerical and Experimental Analysis of the Energy Performance of an Air Source Heat Pump Combined with a Horizontal Ground-To-Air Heat Exchanger in Different Climates
Dynamic Analysis of Natural and Mechanical Ventilation of a Solar Greenhouse Combining Controlled Mechanical Ventilation with a Ground-To-Air Heat Exchanger
Thermofluidodynamic Analysis of a Waste Incineration Plant with Plasma Technology
Multi-Objective Optimization Analysis Applied to the Zeb Building Envelope
Optimization of Envelope Design by Dynamic Thermal Modeling of a Building in a Warm Climate
Dynamic Predictive Analysis of Building Performance Under Long-Term Climate Change Conditions
Rising Damp in Building Materials
Cost-Optimal Analysis and Technical Comparison Between Standard and High Efficiency Buildings in a Warm Climate
Definition of a New Multi-Criteria Energy-Economic-Environmental Decision-Making Process for the Optimization of a Renewable Energy Hybrid System
Hypothesis of Implementation of Itaca Puglia Protocol at District Level
Bachelor's and Master's thesis
Activities and Objectives
Equipment
Links
About us
Coordinator
Researchers
Research Associate
Ph.D. Students
External Collaborations
Education
Projects
Publications
Patents
Contacts
Department of Engineering
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Bioclimatic Engineering Laboratory
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Rising Damp in Building Materials
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Dipartimento di Ingegneria dell'Innovazione
LAB - Bioclimatic Engineering Laboratory
The Lab
Research lines
Rising Damp in Building Materials
Experimental and numerical analysis of the phenomenon of rising damp in building materials have been carried out. Moreover, a new experimental protocol has been defined for the investigation of the rising damp phenomenon in the laboratory.