The Technical Specifications of R134A Refrigerant Gas
Understanding the technical specifications of R134A refrigerant gas is fundamental for its effective and safe application in various cooling systems. As a widely used hydrofluorocarbon (HFC), R134A possesses a unique set of properties that make it suitable for specific industrial and commercial uses. For professionals seeking to buy R134A refrigerant, a thorough grasp of these specifications is essential.
The chemical identity of R134A is defined by its molecular formula, CH2FCF3, and a molecular weight of 102.03 g/mol. These fundamental properties dictate its behavior under different temperature and pressure conditions. One of the most critical parameters for any refrigerant is its boiling point, which for R134A is -26.1°C at a standard pressure of 101.3 kPa. This relatively low boiling point allows it to efficiently absorb heat in evaporators.
Complementing its boiling point is its freezing point, recorded at -96.6°C (at 101.3 kPa). This ensures that the refrigerant remains in a liquid state under typical operating conditions, preventing system damage due to solidification. The density of R134A at 30°C is 1188.1 Kg/M3, providing important data for system design and fluid dynamics.
Further technical details include its critical temperature of 101.1°C and a critical pressure of 4.06 MPa. These values define the phase transition behavior of the refrigerant at extreme conditions. Importantly, R134A has an Ozone Depletion Potential (ODP) of 0, making it an environmentally preferable alternative to older ozone-depleting refrigerants. However, it does have a Global Warming Potential (GWP) of 1300, which is a factor in its ongoing regulatory landscape.
When sourcing R134A refrigerant, working with an experienced R134A refrigerant manufacturer in China like NINGBO INNO PHARMCHEM CO.,LTD. ensures that these technical specifications are consistently met. This commitment to quality guarantees optimal performance for your R134A refrigerant for car AC systems, commercial refrigeration, and other applications.
The chemical identity of R134A is defined by its molecular formula, CH2FCF3, and a molecular weight of 102.03 g/mol. These fundamental properties dictate its behavior under different temperature and pressure conditions. One of the most critical parameters for any refrigerant is its boiling point, which for R134A is -26.1°C at a standard pressure of 101.3 kPa. This relatively low boiling point allows it to efficiently absorb heat in evaporators.
Complementing its boiling point is its freezing point, recorded at -96.6°C (at 101.3 kPa). This ensures that the refrigerant remains in a liquid state under typical operating conditions, preventing system damage due to solidification. The density of R134A at 30°C is 1188.1 Kg/M3, providing important data for system design and fluid dynamics.
Further technical details include its critical temperature of 101.1°C and a critical pressure of 4.06 MPa. These values define the phase transition behavior of the refrigerant at extreme conditions. Importantly, R134A has an Ozone Depletion Potential (ODP) of 0, making it an environmentally preferable alternative to older ozone-depleting refrigerants. However, it does have a Global Warming Potential (GWP) of 1300, which is a factor in its ongoing regulatory landscape.
When sourcing R134A refrigerant, working with an experienced R134A refrigerant manufacturer in China like NINGBO INNO PHARMCHEM CO.,LTD. ensures that these technical specifications are consistently met. This commitment to quality guarantees optimal performance for your R134A refrigerant for car AC systems, commercial refrigeration, and other applications.
Perspectives & Insights
Bio Analyst 88
“These values define the phase transition behavior of the refrigerant at extreme conditions.”
Nano Seeker Pro
“Importantly, R134A has an Ozone Depletion Potential (ODP) of 0, making it an environmentally preferable alternative to older ozone-depleting refrigerants.”
Data Reader 7
“However, it does have a Global Warming Potential (GWP) of 1300, which is a factor in its ongoing regulatory landscape.”