Industrial Ventilation Design Guidebook (2nd Ed.) Volume 2: Engineering Design and Applications
Coordonnateurs : Goodfellow Howard D., Wang Yi
11. Design with Modelling Techniques
12. Experimental Techniques
13. Industrial 4.0 (Automation plus sensors)
14. Gas Cleaning Technology
15. Pneumatic Conveying
Dr. Yi Wang is a full professor at Xi’an University of Architecture and Technology in China. Her research focuses on building ventilation and energy efficiency of industrial buildings. She is currently leading one of the State Key Programs of the National Natural Science Foundation of China (NSFC) entitled “Study on the Design Theories and Methods of Efficient Ventilation in Industrial Buildings. Dr. Wang is the DeputyDirector of Key Laboratory for Green Buildings in Western China. She is also head of the University’s Ventilation Technology Research Centre, as well as a member of the Gre
- Brings together global researchers and engineers to solve complex ventilation and contaminant control problems using state-of-the-art design equations
- Includes an expanded section on modeling and its practical applications based on recent advances in research
- Features a new chapter on best practices for specific industrial sectors
Date de parution : 06-2021
Ouvrage de 744 p.
21.4x27.6 cm
Thème d’Industrial Ventilation Design Guidebook :
Mots-clés :
?Air handling; Air pollution control; Artificial intelligence; Boundary conditions; Computational fluid dynamics; Cost–benefit analysis; Design; Efficiency of industrial ventilation; Emission measurement technology; Environmental assessment; Environmental impact assessment; Euler–Euler approach; Euler–Lagrange approach; Evaluation index; Exhaust hoods; Experimental techniques; Fume control technology; Gaseous compounds emission control; Geometric modeling; IVDGB; Indoor air quality; Industrial Ventilation Design Guidebook; Industrial ventilation; Industrial ventilation technology; Initial conditions; Life cycle assessment; Local environment; Local protection; Measurement techniques; Molecular simulation; Particle removal; Planning; Pollutant removal; Practitioner; Risk assessment; Scale model experiments; Supply inlets; Update abatement methods; Visualization techniques