Hydrogen in Specialized High-Performance Laboratories
Uitgelicht
|
33,99 |
Naar shop
|
|
36,87 |
Naar shop
|
|
36,87 |
Naar shop
|
Beschrijving
Bol
Hydrogen has become one of the most important utility gases in modern high-performance laboratories, supporting critical applications in analytical chemistry, materials science, semiconductor research, energy systems, and advanced manufacturing. Its unique properties-high diffusivity, clean combustion characteristics, and suitability as a carrier or process gas-make it indispensable in environments where precision, reliability, and purity are non-negotiable.However, hydrogen is also a gas that demands respect. Its wide flammability range, low ignition energy, and ability to permeate materials require carefully engineered systems, strict safety protocols, and a deep understanding of both its physical behavior and its infrastructure requirements.This book has been written to bridge the gap between theory and practical application. It provides a structured and engineering-focused understanding of how hydrogen is produced, stored, distributed, and safely utilized in specialized laboratory environments. It also highlights the integration of hydrogen systems with laboratory infrastructure, including ventilation, gas detection, piping design, and safety management systems.Rather than treating hydrogen as an isolated topic, this book places it within the broader context of high-performance laboratory design and operation. The objective is to give engineers, researchers, and facility managers a clear and practical framework for working with hydrogen safely and efficiently.As laboratories evolve toward higher levels of precision, automation, and sustainability, hydrogen will continue to play an expanding role. Understanding how to manage it properly is no longer optional-it is essential.
Hydrogen has become one of the most important utility gases in modern high-performance laboratories, supporting critical applications in analytical chemistry, materials science, semiconductor research, energy systems, and advanced manufacturing. Its unique properties-high diffusivity, clean combustion characteristics, and suitability as a carrier or process gas-make it indispensable in environments where precision, reliability, and purity are non-negotiable.However, hydrogen is also a gas that demands respect. Its wide flammability range, low ignition energy, and ability to permeate materials require carefully engineered systems, strict safety protocols, and a deep understanding of both its physical behavior and its infrastructure requirements.This book has been written to bridge the gap between theory and practical application. It provides a structured and engineering-focused understanding of how hydrogen is produced, stored, distributed, and safely utilized in specialized laboratory environments. It also highlights the integration of hydrogen systems with laboratory infrastructure, including ventilation, gas detection, piping design, and safety management systems.Rather than treating hydrogen as an isolated topic, this book places it within the broader context of high-performance laboratory design and operation. The objective is to give engineers, researchers, and facility managers a clear and practical framework for working with hydrogen safely and efficiently.As laboratories evolve toward higher levels of precision, automation, and sustainability, hydrogen will continue to play an expanding role. Understanding how to manage it properly is no longer optional-it is essential.
AmazonPagina's: 153, Paperback, Independently published
Prijshistorie
* Prijshistorie bevat geen data van Amazon, Amazon Marketplace.
Prijzen voor het laatst bijgewerkt op: