Difference between revisions of "Air Conditioning System"

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The '''air conditioning system''' is a collection of components and devices that contribute to provide refrigerated, cool air to the passengers in the Z32. It is made up of several components, with the most significant being:<br />
+
<div class="mw-parser-output">The '''air conditioning system''' is a collection of components and devices that contribute to provide refrigerated, cool air to the passengers in the Z32. It is made up of several components, with the most significant being:  
 +
*[[AC_Compressor|A/C Compressor]]
 +
*[[AC_Condenser|A/C Condenser]]
 +
*[[Receiver-Drier|Receiver/Drier]]
 +
*[[AC_Evaporator|A/C Evaporator]]
 +
*[[Expansion_Valve|Expansion Valve]]
 +
*[[Suction_Throttle_Valve|Suction Throttle Valve]]
  
* [[AC Compressor|A/C Compressor]]
+
<br/> And while not exclusively parts of the Air Conditioning System, the following components are related:
* [[AC Condenser|A/C Condenser]]
 
* [[Receiver-Drier|Receiver/Drier]]
 
* [[AC Evaporator|A/C Evaporator]]
 
* [[Expansion Valve]]
 
* [[Suction Throttle Valve]]
 
  
<br />  And while not exclusively parts of the Air Conditioning System, the following components are related:<br />
+
*[[Climate_Control_Unit|Climate Control Unit]]
 +
*[[AC_Manifold_Gauges|A/C Manifold Gauges]]
  
* [[Climate Control Unit]]
+
== Overview & Operation ==
* [[AC Manifold Gauges|A/C Manifold Gauges]]
+
 
+
The system is largely the same between NA and TT models, the major difference being a slightly different shape in the low-pressure pipe to allow it to clear the intercooler piping, and a different condenser design for the same reason.
==Overview & Operation==
+
 
The system is largely the same between NA and TT models, the major difference being a slightly different shape in the low-pressure pipe to allow it to clear the intercooler piping, and a different condenser design for the same reason.  
+
=== Component Layout ===
 +
 
 +
[[File:NA AC System.jpg|thumb|NA_AC_System.jpg]] [[File:TT AC System.jpg|thumb|TT_AC_System.jpg]]
 +
 
 +
=== Theory of Operation ===
 +
 
 +
The air conditioning system works in a cycle, similar to the [[Cooling_System|cooling system]]. The [[AC_Compressor|compressor]] draws refrigerant (as a gas) in through the low-pressure pipes and compresses it to around 250 PSI. Compressing this refrigerant causes it to become quite hot, so it is then moved to the [[AC_Condenser|condenser]], which is mounted in front of the [[Radiator|radiator]]. The condenser, like a radiator, transfers the heat from the gas into the air passing through it, cooling the gas. This cooling effect also causes the refrigerant to change into a liquid, in the same way that cooling steam turns it into water, which also condenses the molecules (hence the name "condenser"). The refrigerant now moves to the [[AC_Evaporator|evaporator]], where it is channeled through the [[Expansion_Valve|expansion valve]], which sprays it like a mist, into the low-pressure evaporator. The refrigerant molecules now have a chance to expand and turn back into a gas, thanks to the lower pressure. But doing so requires heat, just like it does to get water to evaporate by boiling, so the refrigerant molecules absorb the heat from the air passing through the fins of the evaporator, cooling that passing air which then flows into the cabin. The refrigerant flows, in gas form, back to the compressor where the cycle continues. It should be pointed out that the air conditioning system isn't actually creating coldness, as "cold" isn't a property of thermodynamics--it's simply a lack of heat. The system removes the heat from the passing air.
 +
 
 +
== Versions and Differences ==
 +
 
 +
There are essentially four different A/C setups used on the Z32.
  
===Component Layout===
 
[[File:NA_AC_System.jpg|alt=NA_AC_System.jpg|thumb|N/A A/C System. Click for full size.]]
 
[[File:TT_AC_System.jpg|alt=TT_AC_System.jpg|thumb|TT A/C System. Click for full-size.]]
 
<br /> 
 
===Theory of Operation===
 
The air conditioning system works in a cycle, similar to the [[Cooling System|cooling system]]. The [[AC Compressor|compressor]] draws refrigerant (as a gas) in through the low-pressure pipes and compresses it to around 250 PSI. Compressing this refrigerant causes it to become quite hot, so it is then moved to the [[AC Condenser|condenser]], which is mounted in front of the [[Radiator|radiator]]. The condenser, like a radiator, transfers the heat from the gas into the air passing through it, cooling the gas. This cooling effect also causes the refrigerant to change into a liquid, in the same way that cooling steam turns it into water, which also condenses the molecules (hence the name "condenser"). The refrigerant now moves to the [[AC Evaporator|evaporator]], where it is channeled through the [[Expansion Valve|expansion valve]], which sprays it like a mist, into the low-pressure evaporator. The refrigerant molecules now have a chance to expand and turn back into a gas, thanks to the lower pressure. But doing so requires heat, just like it does to get water to evaporate by boiling, so the refrigerant molecules absorb the heat from the air passing through the fins of the evaporator, cooling that passing air which then flows into the cabin. The refrigerant flows, in gas form, back to the compressor where the cycle continues. It should be pointed out that the air conditioning system isn't actually creating coldness, as "cold" isn't a property of thermodynamics--it's simply a lack of heat. The system removes the heat from the passing air.<br /> 
 
==Versions and Differences==
 
There are essentially four different A/C setups used on the Z32.<br />
 
 
{| class="wikitable"
 
{| class="wikitable"
| <br />
 
| '''Non-Turbo'''<br />
 
| '''Twin Turbo'''<br />
 
 
|-
 
|-
| '''1990-1993'''<br />
+
| &nbsp;
| R12<br />
+
| '''Non-Turbo'''
| R12<br />
+
| '''Twin Turbo'''
 
|-
 
|-
| '''1994+'''<br />
+
| '''1990-1993'''
| R134A<br />
+
| R12
| R134A<br />
+
| R12
 +
|-
 +
| '''1994+'''
 +
| R134A
 +
| R134A
 
|}
 
|}
Revisions for R134A included a revised condenser which featured a denser fin arrangement, and a two-way pressure sensor switch on the receiver/drier (which would turn the compressor off if pressures became excessively high or low. The R12 model only switched off for low pressures). NA and TT utilize different condensers and engine bay piping (both in order to clear intercooler piping in the TT model).<br /> It should also be noted that R12 systems with '''auto climate control''' utilized a [[Suction Throttle Valve|suction throttle valve]] to prevent evaporator freeze-up. No other models featured this, and used a thermostatic sensor that would temporarily disable the compressor in the event of excessively cold temperatures.<br /> 
+
 
==Troubleshooting==
+
Revisions for R134A included a revised condenser which featured a denser fin arrangement, and a two-way pressure sensor switch on the receiver/drier (which would turn the compressor off if pressures became excessively high or low. The R12 model only switched off for low pressures). NA and TT utilize different condensers and engine bay piping (both in order to clear intercooler piping in the TT model).<br/> It should also be noted that R12 systems with '''auto climate control''' utilized a [[Suction_Throttle_Valve|suction throttle valve]] to prevent evaporator freeze-up. No other models featured this, and used a thermostatic sensor that would temporarily disable the compressor in the event of excessively cold temperatures. The [[Climate_Control_Unit|climate control unit]] itself also went through a few different revisions, check that parent page for details.&nbsp;
The Air Conditioning system is complex, and things like to fail. If you're having problems with your system, refer to the table below for some common problems and causes.<br />
+
 
 +
== Troubleshooting ==
 +
 
 +
The Air Conditioning system is complex, and things like to fail. If you're having problems with your system, refer to the table below for some common problems and causes.
 +
 
 
{| class="wikitable"
 
{| class="wikitable"
! Signs & Symptoms<br />
 
! Possible Causes<br />
 
 
|-
 
|-
| A/C Compressor does not engage.<br />
+
! Signs & Symptoms
|
+
! Possible Causes
* Disconnected compressor connector.
 
* Insufficient refrigerant level.*
 
* Extremely high refrigerant level (R134A systems can detect this with a two-way pressure switch, R12<br />  systems do not).
 
* Climate Control unit faulty or not connected.**
 
* Faulty compressor clutch.
 
 
|-
 
|-
| Output air is warm.<br />
+
| A/C Compressor does not engage.
|
+
|  
* Insufficient refrigerant level.*
+
*Disconnected compressor connector.
* Faulty air-mix doors behind dash.
+
*Insufficient refrigerant level.*  
* Heater core valve stuck open.
+
*Extremely high refrigerant level (R134A systems can detect this with a two-way pressure switch, R12<br/> systems do not).  
* Climate control unit faulty (possibly keeping heater core valve open).**
+
*Climate Control unit faulty or not connected.**  
* Blockage in front of A/C Condenser.
+
*Faulty compressor clutch.  
* Air or too much oil in system.
+
 
* Clogged or faulty [[Suction Throttle Valve]] (90-93 Auto Climate Control only).
 
 
|-
 
|-
| Insufficient airflow through vents.<br />
+
| Output air is warm.
|
+
|
* Faulty blower motor.
+
*Insufficient refrigerant level.*
* Faulty air-mix doors behind dash.
+
*Faulty air-mix doors behind dash.
* Climate control unit faulty.**
+
*Heater core valve stuck open.
 +
*Climate control unit faulty (possibly keeping heater core valve open).**
 +
*Blockage in front of A/C Condenser.
 +
*Air or too much oil in system.
 +
*Clogged or faulty [[Suction_Throttle_Valve|Suction Throttle Valve]] (90-93 Auto Climate Control only).
 +
 
 +
|-
 +
| Insufficient airflow through vents.
 +
|  
 +
*Faulty blower motor.  
 +
*Faulty air-mix doors behind dash.  
 +
*Climate control unit faulty.**  
 +
 
 
|}
 
|}
===See Also===
 
  
* <nowiki>* See the </nowiki>[[AC Recharge|A/C Recharge]] article for more details.
+
=== See Also ===
* ** See the [[Auto Climate Control Diagnostics]] article for more details.
+
 
* For explicit details on reading manifold gauges to diagnose A/C problems, refer to the [[AC Manifold Gauges|Manifold Gauges]] article.
+
*<nowiki>* See the </nowiki>
==Service==
+
[[AC_Recharge|A/C Recharge]] article for more details.  
The A/C system operates under extreme conditions--pipes carrying pressures of over 250 psi through a hot engine bay while subjected to vibration and harshness, and things tend to break over the years.<br /> Some of the following articles deal with servicing the A/C system. For more, see the related articles links at the bottom of this page.<br />  
+
*** See the [[Auto_Climate_Control_Diagnostics|Auto Climate Control Diagnostics]] article for more details.  
 +
*For explicit details on reading manifold gauges to diagnose A/C problems, refer to the [[AC_Manifold_Gauges|Manifold Gauges]] article.  
 +
 
 +
== Service ==
 +
 
 +
The A/C system operates under extreme conditions--pipes carrying pressures of over 250 psi through a hot engine bay while subjected to vibration and harshness, and things tend to break over the years.<br/> Some of the following articles deal with servicing the A/C system. For more, see the related articles links at the bottom of this page.
 +
 
 +
*[[R134A_Conversion|R134A Conversion]]
 +
*[[AC_Recharge|AC Recharge]]
 +
*[[Auto_Climate_Control_Diagnostics|Auto Climate Control Diagnostics]]
 +
*[[AC_Manifold_Gauges|AC Manifold Gauges]]
 +
 
 +
== Compressor Oil Levels ==
 +
 
 +
The system uses about 5.3oz of oil, and it's okay for this level to deviate by a couple of ounces. When replacing A/C components, it becomes necessary to add oil to replace any that was lost. The service manual details the amount of oil to add based on which components are replaced.<br/> &nbsp;
  
* [[R134A Conversion]]
 
* [[AC Recharge]]
 
* [[Auto Climate Control Diagnostics]]
 
* [[AC Manifold Gauges]]
 
 
==Compressor Oil Levels==
 
The system uses about 5.3oz of oil, and it's okay for this level to deviate by a couple of ounces. When replacing A/C components, it becomes necessary to add oil to replace any that was lost. The service manual details the amount of oil to add based on which components are replaced.<br /> <br />
 
 
{| class="wikitable"
 
{| class="wikitable"
! colspan="2" | Part Replaced<br />
 
! Amount of oil to be added (fl oz)<br />
 
 
|-
 
|-
| colspan="2" | Compressor<br />
+
! colspan="2" | Part Replaced
| style="text-align: left" |
+
! Amount of oil to be added (fl oz)
# Remove all oil from old and new compressors.
+
|-
# Charge new compressor with the same amount<br /> of oil as was in the old compressor.<br /> (See instructions below)
+
| colspan="2" | Compressor
 +
| style="text-align: left" |  
 +
#Remove all oil from old and new compressors.  
 +
#Charge new compressor with the same amount<br/> of oil as was in the old compressor.<br/> (See instructions below)  
 +
 
 
|-
 
|-
| colspan="2" | Evaporator<br />
+
| colspan="2" | Evaporator
| style="text-align: center" | 0.4oz<br />
+
| style="text-align: center" | 0.4oz
 
|-
 
|-
| colspan="2" | Receiver/drier<br />
+
| colspan="2" | Receiver/drier
| style="text-align: center" | 0.4oz<br />
+
| style="text-align: center" | 0.4oz
 
|-
 
|-
| Condenser<br />
+
| Condenser
| No signs of oil leakage from<br /> condenser.<br />
+
| No signs of oil leakage from<br/> condenser.
| style="text-align: center" | 0.4oz<br />
+
| style="text-align: center" | 0.4oz
 
|-
 
|-
| <br />
+
| &nbsp;
| Significant oil leakage from<br /> condenser.<br />
+
| Significant oil leakage from<br/> condenser.
| style="text-align: center" | 2.1oz<br />
+
| style="text-align: center" | 2.1oz
 
|-
 
|-
| Hose or Pipe<br />
+
| Hose or Pipe
| No signs of oil leakage from<br /> old hose or pipe.<br />
+
| No signs of oil leakage from<br/> old hose or pipe.
| style="text-align: center" | Oil need not be added.<br />
+
| style="text-align: center" | Oil need not be added.
 
|-
 
|-
| <br />
+
| &nbsp;
| Significant oil leakage from<br /> old hose or pipe.<br />
+
| Significant oil leakage from<br/> old hose or pipe.
| style="text-align: center" | 2.1oz<br />
+
| style="text-align: center" | 2.1oz
 
|-
 
|-
| Misc gas leakage<br />
+
| Misc gas leakage
| No signs of oil leakage.<br />
+
| No signs of oil leakage.
| style="text-align: center" | Oil need not be added.<br />
+
| style="text-align: center" | Oil need not be added.
 
|-
 
|-
| <br />
+
| &nbsp;
| Significant signs of oil leakage.<br />
+
| Significant signs of oil leakage.
| style="text-align: center" | 2.1oz<br />
+
| style="text-align: center" | 2.1oz
 
|}
 
|}
===Removing Compressor Oil===
 
As necessary to meter and and refill the new compressor.<br />
 
  
# With the compressor upside-down, completely drain oil through the suction port (from the embossed letter "s" marked side).
+
=== Removing Compressor Oil ===
# When the oil stops flowing out, rotate the clutch hub (not just the pulley) two or three times to completely drain oil.
+
 
+
As necessary to meter and and refill the new compressor.
  
[[Category:Air Conditioning System]][[Category:Parts]][[Category:How-To Guides]]
+
#With the compressor upside-down, completely drain oil through the suction port (from the embossed letter "s" marked side).
 +
#When the oil stops flowing out, rotate the clutch hub (not just the pulley) two or three times to completely drain oil.
 +
</div>
 +
[[Category:Air Conditioning System]] [[Category:Parts]] [[Category:How-To Guides]]

Latest revision as of 18:06, 10 September 2018

The air conditioning system is a collection of components and devices that contribute to provide refrigerated, cool air to the passengers in the Z32. It is made up of several components, with the most significant being:


And while not exclusively parts of the Air Conditioning System, the following components are related:

Overview & Operation

The system is largely the same between NA and TT models, the major difference being a slightly different shape in the low-pressure pipe to allow it to clear the intercooler piping, and a different condenser design for the same reason.

Component Layout

NA_AC_System.jpg
TT_AC_System.jpg

Theory of Operation

The air conditioning system works in a cycle, similar to the cooling system. The compressor draws refrigerant (as a gas) in through the low-pressure pipes and compresses it to around 250 PSI. Compressing this refrigerant causes it to become quite hot, so it is then moved to the condenser, which is mounted in front of the radiator. The condenser, like a radiator, transfers the heat from the gas into the air passing through it, cooling the gas. This cooling effect also causes the refrigerant to change into a liquid, in the same way that cooling steam turns it into water, which also condenses the molecules (hence the name "condenser"). The refrigerant now moves to the evaporator, where it is channeled through the expansion valve, which sprays it like a mist, into the low-pressure evaporator. The refrigerant molecules now have a chance to expand and turn back into a gas, thanks to the lower pressure. But doing so requires heat, just like it does to get water to evaporate by boiling, so the refrigerant molecules absorb the heat from the air passing through the fins of the evaporator, cooling that passing air which then flows into the cabin. The refrigerant flows, in gas form, back to the compressor where the cycle continues. It should be pointed out that the air conditioning system isn't actually creating coldness, as "cold" isn't a property of thermodynamics--it's simply a lack of heat. The system removes the heat from the passing air.

Versions and Differences

There are essentially four different A/C setups used on the Z32.

  Non-Turbo Twin Turbo
1990-1993 R12 R12
1994+ R134A R134A

Revisions for R134A included a revised condenser which featured a denser fin arrangement, and a two-way pressure sensor switch on the receiver/drier (which would turn the compressor off if pressures became excessively high or low. The R12 model only switched off for low pressures). NA and TT utilize different condensers and engine bay piping (both in order to clear intercooler piping in the TT model).
It should also be noted that R12 systems with auto climate control utilized a suction throttle valve to prevent evaporator freeze-up. No other models featured this, and used a thermostatic sensor that would temporarily disable the compressor in the event of excessively cold temperatures. The climate control unit itself also went through a few different revisions, check that parent page for details. 

Troubleshooting

The Air Conditioning system is complex, and things like to fail. If you're having problems with your system, refer to the table below for some common problems and causes.

Signs & Symptoms Possible Causes
A/C Compressor does not engage.
  • Disconnected compressor connector.
  • Insufficient refrigerant level.*
  • Extremely high refrigerant level (R134A systems can detect this with a two-way pressure switch, R12
    systems do not).
  • Climate Control unit faulty or not connected.**
  • Faulty compressor clutch.
Output air is warm.
  • Insufficient refrigerant level.*
  • Faulty air-mix doors behind dash.
  • Heater core valve stuck open.
  • Climate control unit faulty (possibly keeping heater core valve open).**
  • Blockage in front of A/C Condenser.
  • Air or too much oil in system.
  • Clogged or faulty Suction Throttle Valve (90-93 Auto Climate Control only).
Insufficient airflow through vents.
  • Faulty blower motor.
  • Faulty air-mix doors behind dash.
  • Climate control unit faulty.**

See Also

  • * See the

A/C Recharge article for more details.

Service

The A/C system operates under extreme conditions--pipes carrying pressures of over 250 psi through a hot engine bay while subjected to vibration and harshness, and things tend to break over the years.
Some of the following articles deal with servicing the A/C system. For more, see the related articles links at the bottom of this page.

Compressor Oil Levels

The system uses about 5.3oz of oil, and it's okay for this level to deviate by a couple of ounces. When replacing A/C components, it becomes necessary to add oil to replace any that was lost. The service manual details the amount of oil to add based on which components are replaced.
 

Part Replaced Amount of oil to be added (fl oz)
Compressor
  1. Remove all oil from old and new compressors.
  2. Charge new compressor with the same amount
    of oil as was in the old compressor.
    (See instructions below)
Evaporator 0.4oz
Receiver/drier 0.4oz
Condenser No signs of oil leakage from
condenser.
0.4oz
  Significant oil leakage from
condenser.
2.1oz
Hose or Pipe No signs of oil leakage from
old hose or pipe.
Oil need not be added.
  Significant oil leakage from
old hose or pipe.
2.1oz
Misc gas leakage No signs of oil leakage. Oil need not be added.
  Significant signs of oil leakage. 2.1oz

Removing Compressor Oil

As necessary to meter and and refill the new compressor.

  1. With the compressor upside-down, completely drain oil through the suction port (from the embossed letter "s" marked side).
  2. When the oil stops flowing out, rotate the clutch hub (not just the pulley) two or three times to completely drain oil.