Ventilation of normobaric and hyperbaric objects / Ryszard Klos.
By: Kłos, Ryszard [author.].
Material type:
BookPublisher: Boca Raton, FL : CRC Press, 2021Copyright date: ©2021Edition: First edition.Description: 1 online resource (xxv, 181 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9781000366631; 1000366634; 9781003131649; 1003131646; 9781000366655; 1000366650.Subject(s): Underwater breathing apparatus | Ventilation | Hyperbaric oxygenation | Industrial safety | SCIENCE / Physics | TECHNOLOGY / Engineering / MechanicalDDC classification: 620.86 Online resources: Taylor & Francis | OCLC metadata license agreement Summary: Considering the increased need to test and develop ventilation both for normobaric and hyperbaric use in underwater technology industries (diving equipment, submarines and other underwater facilities), mining, and other relevant industries, this book presents a complete study in the field of normobaric and hyperbaric ventilation. It focuses on development and verification of the research-based mathematical modeling approach for deterministic modeling of ventilation processes, both for objects with semi-closed and closed circulation of breathing gas. It also proposes validated analytical models of ventilation processes, and a new type of carbon dioxide emission simulator that was also developed. Features Describes ventilation processes by replacing semi-empirical models with more accurate analytical models. Includes concepts based on deterministic models (cause-and-effect models). Focuses on analytical mathematical model of the ventilation process. Covers both the objects with semi-closed and closed circulation of breathing gas, for hyperbaric and normobaric conditions. Summarizes relevant research results and their validation in real conditions and implemented into operational practice. This book is aimed at researchers, professionals, and graduate students in hyperbaric facility processing, building ventilation processing, life support system design, shipbuilding, marine engineering, and diving submarine safety.
Considering the increased need to test and develop ventilation both for normobaric and hyperbaric use in underwater technology industries (diving equipment, submarines and other underwater facilities), mining, and other relevant industries, this book presents a complete study in the field of normobaric and hyperbaric ventilation. It focuses on development and verification of the research-based mathematical modeling approach for deterministic modeling of ventilation processes, both for objects with semi-closed and closed circulation of breathing gas. It also proposes validated analytical models of ventilation processes, and a new type of carbon dioxide emission simulator that was also developed. Features Describes ventilation processes by replacing semi-empirical models with more accurate analytical models. Includes concepts based on deterministic models (cause-and-effect models). Focuses on analytical mathematical model of the ventilation process. Covers both the objects with semi-closed and closed circulation of breathing gas, for hyperbaric and normobaric conditions. Summarizes relevant research results and their validation in real conditions and implemented into operational practice. This book is aimed at researchers, professionals, and graduate students in hyperbaric facility processing, building ventilation processing, life support system design, shipbuilding, marine engineering, and diving submarine safety.
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