Building Ventilation The State of the Art
Coordonnateurs : Santamouris Mat, Wouters Peter
Ensuring optimum ventilation performance is a vital part of building design. Prepared by recognized experts from Europe and the US, and published in association with the International Energy Agency's Air Infiltration and Ventilation Centre (AIVC), this authoritative work provides organized, classified and evaluated information on advances in the key areas of building ventilation, relevant to all building types.
Complexities in airflow behaviour, climatic influences, occupancy patterns and pollutant emission characteristics make selecting the most appropriate ventilation strategy especially difficult. Recognizing such complexities, the editors bring together expertise on each key issue. From components to computer tools, this book offers detailed coverage on design, analysis and performance, and is an important and comprehensive publication in this field.
Building Ventilation will be an invaluable reference for professionals in the building services industry, architects, researchers (including postgraduate students) studying building service engineering and HVAC, and anyone with a role in energy-efficient building design.
Mat Santamouris is Associate Professor at the University of Athens, Greece.
Peter Wouters is manager of INIVE EEIG (International Network for Information on Ventilation and Energy Performance) and Operating Agent of the AIVC (Air Infiltration and Ventilation Centre).
Date de parution : 11-2015
21.9x27.6 cm
Date de parution : 06-2006
Ouvrage de 336 p.
20.3x25.4 cm
Thèmes de Building Ventilation :
Mots-clés :
Hybrid Ventilation; hybrid; IAQ; airflow; Natural Ventilation; rate; Thermal Comfort; natural; Airflow Rates; indoor; Wind Pressure Coefficients; air; Indoor Air Quality Control; quality; Night Ventilation; thermal; HVAC System; comfort; Discharge Coefficient; tightness; Building Airflow; Airflow Analysis; Norwegian Building Research Institute; Multi-zone Model; PAQ; Night Ventilation Techniques; Air Mass Flow Rate; Air Tightness; Heat Recovery Efficiency; Urban Heat Island; Multizone Airflow; SBS Symptom; Field Assumption; Multi-zone Airflow; Ventilation Rates