"Fluid Dynamics of Viral Transmission" is a timely exploration of the transmission dynamics of COVID-19 within environments focusing specifically on the airborne transmission of respiratory aerosols carrying infectious viruses. With the recent global pandemic, there is an urgent need for information into the intricate interplay between fluid dynamics and viral spread. The book provides solutions to specific problems related to COVID-19 transmission in indoor environments. These solutions encompass a range of practical interventions informed by CFD simulations, including optimizing ventilation systems, designing effective air filtration strategies, and implementing spatial layout modifications to minimize airborne transmission risks. Additionally, the book explores the efficacy of various mitigation measures, such as mask-wearing, physical distancing, and occupancy limits, in reducing the spread of COVID-19 within households and enclosed spaces. Ultimately, the goal is to equip readers with the knowledge and tools needed to create safer indoor environments. Written for public health officials and policymakers, healthcare professionals, engineers, researchers and academics fields of fluid mechanics, computational fluid dynamics, epidemiology, and virology.

Presents comprehensive understanding of viral transmission with an emphasis on physical principles

Applies computational fluid dynamics (CFD) techniques to study and investigate viral spread

Includes case studies for illustrating real-world applications of fluid dynamics principles to understand best practices and challenges

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