Basics and applications of applied physics in civil, architectural and environmental engineering regarding architecture, territorial planning and industrial design. The main focus is on: basic thermodynamics, thermo-fluid dynamics, heat transmission, lighting, acoustics, rational use of energy, use of renewable energy sources and energy service management in buildings and urban landscapes. Particular attention is given to experimental studies in: confined environments, recording and processing of environmental data, buildings energy analysis, environmental thermo-fluid dynamics, natural and artificial lighting, environmental and building acoustics, problems in environmental comfort and conservation of cultural assets, active and passive strategies for environmental monitoring and air-conditioning systems. Physical and technical topics related to the planning of energy and environment, diagnostic methods and mitigating techniques, including lighting and acoustics used in studying the environmental impact are also subject of this field.
thermodynamics
thermo-fluid dynamics
heat transmission
lighting
acoustics
rational use of energy
renewable energy sources
Barney L. Capehart, Ph.D., CEM, Wayne C. Turner, Ph.D. PE, CEM, William J. Kennedy, Ph.D., PE, Guide to Energy Management, CRC Press
Yunus Cengel, John Cimbala, Fluid Mechanics in SI Units, McGrawhill
Yunus Cengel, Heat and Mass Transfer: Fundamentals and Applications McGrawhill
Michael Moser, Engineering Acoustics An Introduction to Noise Control, Springer
Duco Schreuder, Outdoor Lighting: Physics, Vision and Perception, Springer