- Report
- October 2024
- 184 Pages
Global
From €3383EUR$3,545USD£2,835GBP
€3759EUR$3,939USD£3,150GBP
- Report
- March 2025
- 293 Pages
Global
From €4724EUR$4,950USD£3,958GBP
- Report
- March 2025
- 377 Pages
Global
From €5201EUR$5,450USD£4,358GBP
- Report
- October 2024
- 187 Pages
Global
From €3383EUR$3,545USD£2,835GBP
€3759EUR$3,939USD£3,150GBP
- Report
- December 2024
- 175 Pages
Global
From €3818EUR$4,000USD£3,199GBP
- Report
- January 2025
- 153 Pages
Global
From €3367EUR$3,528USD£2,821GBP
€3961EUR$4,150USD£3,318GBP
- Report
- June 2023
- 285 Pages
Global
From €4724EUR$4,950USD£3,958GBP
- Report
- August 2022
- 150 Pages
Global
From €4533EUR$4,750USD£3,798GBP
- Report
- March 2023
- 201 Pages
Global
From €4285EUR$4,490USD£3,590GBP
- Report
- November 2023
- 79 Pages
Global
From €3500EUR$3,929USD£3,035GBP
Cryogenic air separation is a process used in air purification to separate air into its component gases. It is based on the principle of fractional distillation, where air is cooled to a very low temperature and then passed through a series of columns. The columns are designed to separate the air into its component gases, such as oxygen, nitrogen, and argon. The process is used in a variety of industries, including medical, industrial, and aerospace.
Cryogenic air separation is a cost-effective and efficient way to purify air. It is also used to produce high-purity gases for a variety of applications, such as medical oxygen, industrial gases, and specialty gases. The process is also used to produce liquid oxygen and nitrogen for industrial and medical applications.
Some of the companies in the cryogenic air separation market include Air Products and Chemicals, Linde AG, Air Liquide, Praxair, and Messer Group. Show Less Read more
