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Learning Objectives
The aim of the course is to provide the basic knowledge of the conditions of thermo-hygrometric, acoustic, plant engineering and lighting technology for the understanding of a project of the building-plant system; of the building-environment interaction; knowledge of the typologies of plants and their main characteristics and also the ability to build a thermodynamic model for the building and to understand the fundamental processes.
Prerequisites
Knowledge: Algebra and Mathematics, Physics and Thermodynamics and Heat and Mass Transfer
Teaching Methods
Lectures and written exercises with weekly receptions
Type of Assessment
The exam includes the performance of an integrated task with exercises and theoretical questions
Course program
THERMO-HYGROMETRIC COMFORT; Metabolism and human thermoregulation ;Thermal comfort conditions and limits; Reference standards; Temperature and perception indexes; Comfort diagrams; ASHRAE global approach to the thermal comfort
INDOOR AIR QUALITY AND VENTILATION REQUIREMENTS; Plant systems for natural and mechanical ventilation; Reference Standards
Heating energy need of building and power peak load for winter; Evaluation methodologies and reference standards; Cooling energy need of building and power peak load for summer; Evaluation methodologies and reference standards; Fundamental typologies and design of heating and cooling and ventilation plants; Energy design and reference standards, solar radiation and microclimate
FUNDAMENTALS OF ACOUSTICS; noise and sound diffusion in the air and through building materials; Passive acoustical requirements of building; Reference standards
Thermo-physical properties of building materials and components; Transparent and opaque materials; Thermal and acoustic insulation; Ventilated façades; Condensation processes on surface and inside building materials (Glaser Diagram).
FUNDAMENTAL OF ILLUMINATING ENGINEERING; The human eyes; the human vision; the human visual perception; spectral sensibility curves; Fundamentals of Colorimetry and colour models; Natural lighting: basic natural lighting design and calculation method, Artificial lighting: basic artificial lighting design and calculation method; The Sun and the Sky; Artificial lighting sources: properties and photometric parameters of different lamps; Disability and discomfort glare
Reference standards.