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2015-2022 Volkswagen Touran 4 Door Technical data -> 6.1.1 Physical properties of air conditioning system User Manual

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Technical data -> 6.1.1 Physical properties of air conditioning system for Your Volkswagen Touran 4 Door Second Generation (2015-2022)

Arteon 2018 ➤ , Atlas 2017 ➤ , CC 2012 ➤ , Caddy 2016 ➤ , Crafter 201 ...  
Air conditioning systems with refrigerant R1234yf - General information - Edition 07.2017  
6
Basic technical and physical proper‐  
ties  
⇒ “6.1 Basics of air conditioning technology”, page 16  
⇒ “6.2 Physical properties”, page 19  
⇒ “6.3 Product characteristics”, page 26  
⇒ “6.4 Function and role of air conditioning system”, page 26  
⇒ “6.5 Other reference material”, page 28  
6.1  
Basics of air conditioning technology  
⇒ “6.1.1 Physical properties of air conditioning system”,  
lk  
page 16  
⇒ “6.1.2 Pressure and boiling point of refrigerant”, page 17  
⇒ “6.1.3 Vapour pressure table for refrigerant”, page 17  
⇒ “6.2 Physical properties”, page 19  
6.1.1  
Physical properties of air conditioning  
system  
The 4 familiar states of water apply to air conditioning refrigerants  
as well.  
1 - Gas (invisible)  
2 - Vapour  
3 - Liquid  
4 - Solid  
When water is heated in a vessel (heat absorption), water vapour  
can be seen to rise. If the vapour is heated by further heat ab‐  
sorption, the visible vapour becomes invisible gas. The process  
is reversible. If heat is extracted from gaseous water -A-, it  
changes first to vapour -B-, then to water and finally to ice.  
A - Heat absorption  
B - Heat dissipation  
Heat always flows from a warmer to a colder substance  
Every substance consists of a mass of moving molecules. The  
fast moving molecules of a warmer substance give off some of  
their energy to the cooler and thus slower molecules. As a result,  
the molecular motion of the warmer substance slows down and  
that of the colder substance is accelerated. This continues until  
the molecules in both materials are moving at the same speed.  
They are then at the same temperature and no further heat ex‐  
change takes place.  
16  
Rep. gr.00 - Technical data  
GETth  
Arteon 2018 ➤ , Atlas 2017 ➤ , CC 2012 ➤ , Caddy 2016 ➤ , Crafter 201 ...  
Air conditioning systems with refrigerant R1234yf - General information - Edition 07.2017  
6.1.2  
Pressure and boiling point of refrigerant  
The boiling point given in tables for a liquid is always referenced  
to atmospheric pressure (1 bar absolute pressure). If the pressure  
over a fluid changes, its boiling point changes as well.  
Note  
lk  
Pressure is indicated in various units: 1 MPa (Mega-Pascal) is  
equal to 10 bar or 145 psi; 1 bar absolute pressure is equal to  
0 bar, which is about the same as ambient pressure (atmospheric  
pressure).  
It is well known that e.g. the lower the pressure, the lower the  
temperature at which water boils.  
The vapour pressure curves for water and for R1234yf refrigerant  
show that at constant pressure and falling temperature the vapour  
becomes liquid (in the condenser), and that when pressure drops,  
for example, the refrigerant changes from liquid into the vaporous  
state (in the evaporator).  
Vapour curve, water  
A - Liquid  
B - Gaseous  
C - Vapour curve, water  
1 - Pressure on the liquid in bar (absolute)  
2 - Temperature in °C  
Vapour pressure curve for refrigerant R1234yf  
A - Liquid  
B - Gaseous  
D - Vapour pressure curve for refrigerant R1234yf  
1 - Pressure on the liquid in bar (absolute)  
2 - Temperature in °C  
Note  
The vapour pressure curves of both refrigerants, R1234yf and  
R134a, are very similar across a broad temperature range. The  
pressure difference between the two refrigerants in a temperature  
range of 0 C to +50°C is only about 0.2 bar, for example, which  
is why it is not possible to differentiate between the two refriger‐  
ants ⇒ “6.1.3 Vapour pressure table for refrigerant”, page 17  
and ⇒ Air conditioning system with R134a refrigerant; Rep. gr.  
87 ; General information about the air conditioning system and  
refrigerant circuit . It is only possible to determine a difference  
using relevant sensors, which can analyse the chemical structure  
of the refrigerant  
⇒ “6.2.16 Analysis of refrigerant R1234yf”, page 24 .  
6.1.3  
Vapour pressure table for refrigerant  
The vapour pressure table for every refrigerant is published in  
literature for refrigeration system engineers. This table makes it  
6. Basic technical and physical properties  
17  
GETth  

Related Topics

Technical data

1 Safety information
1.1 Safety precautions when working on air conditioning systems
1.2 Safety precautions when handling refrigerants
1.3 Safety measures when working on vehicles with a start/stop system
1.4 Safety measures when using air conditioner service stations
1.5 Safety measures for working on vehicles with high-voltage system
1.6 Safety precautions when working in the vicinity of high-voltage components
1.7 Safety measures when working on pressurised tanks/containers
2 Legal texts and regulations
2.1 Provisions and directives
2.2 Charging refrigerant circuit with different refrigerants
2.3 Workplace safety
3 Repair notes
3.1 Rules for cleanliness
3.2 Refrigerant circuit seals
3.3 Refrigerant and refrigerant oil
3.3.1 Important repair instructions for refrigerant and refrigerant oil
3.3.2 Refrigerant oil
3.4 Handling pressurised tanks/containers
3.5 Handling refrigerants
4 Identification
4.1 Notice for refrigerant circuit
5 Technical data
5.1 Refrigerant capacity
5.2 Refrigerant oil capacities
5.3 Safety data sheets
6 Basic technical and physical properties
6.1 Basics of air conditioning technology
6.1.2 Pressure and boiling point of refrigerant
6.1.3 Vapour pressure table for refrigerant
6.2 Physical properties
6.2.1 R1234yf refrigerant
6.2.2 Potential risks with R1234yf refrigerant
6.2.3 Physical and chemical properties of R1234yf refrigerant
6.2.4 Critical point
6.2.5 Environmental aspects of refrigerant R1234yf
6.2.6 Trade names and designations of R1234yf refrigerant
6.2.7 Colour and odour of R1234yf refrigerant
6.2.8 Vapour pressure of R1234yf refrigerant
6.2.9 Physical properties of R1234yf refrigerant
6.2.10 How R1234yf refrigerant reacts to metals and plastics
6.2.11 Critical temperature / critical pressure of R1234yf refrigerant
6.2.12 Water content of R1234yf refrigerant
6.2.13 Flammability / decomposition of R1234yf refrigerant
6.2.14 Charge factor of refrigerant R1234yf
6.2.15 Evidence of leaks in a refrigerant circuit with R1234yf refrigerant
6.2.16 Analysis of refrigerant R1234yf
6.2.17 Returning contaminated R1234yf refrigerant for analysis, processing or disposal
6.3 Product characteristics
6.4 Function and role of air conditioning system
6.4.1 Principle of operation
6.4.2 Comfort
6.4.3 Environmental aspects
6.5 Other reference material

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