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1. Pressure relief valve ZA High pressure M8 Low pressure gas liquid ES High pressure E Low pressure liquid gas Compressor Condenser Refrigerant With liquid tank pressure sensor CZCS ANNAN ISLS J AAARAALZWN NA NAN ZN ZN ZAZA AAAAAANNINN AAAA Evaporator Blower motor Expansion valve y Safety Automotive air conditioners operate under high pressures and use refrigerants that can be dangerous if improperly handled Service and repairs should be performed only by properly trained persons who understand refrigeration systems and their operation They must have access to specialized service tools and equipment and follow approved safety precautions Additionally any HVAC system refrigerant recovery repairs require special licensing e Always wear eye protection when working on the refrigerant loop If refrigerant contacts your eye it may freeze possibly causing an injury FREA ANNO e Refrigerant can quickly cause frostbite Avoid skin contact with refrigerant Always wear gloves when working with refrigerant e Work in a well ventilated area Since refrigerant evaporates quickly breathing may become difficult due to lack of oxygen in poorly ventilated areas e Keep refrigerant away from open flame Poisonous gas is produced when R 12 refrigerant burns e Never heat liquid refrigerant above 104 F as this may cause the container to explode Never apply direct flame to a ref2. output to control evaporator temperature by using a pressure feedback system which controls piston stroke length Since the compressor circulates refrigerant oil along with the refrigerant it is necessary to know what type of oil to use There are different refrigerant oils based on the type of refrigerant Polyalkylene Glycol PAG oil is used for R 134a refrigerant Compressor Clutch Operation The compressor clutch is an electro mechanical assembly that transfers mechanical power from the engine to the compressor via a belt The clutch engages the compressor using an electromagnet in response to various sensor input signals In older fixed displacement compressors the clutch would stop and start the compressor to control refrigerant flow For swash plate and variable displacement compressors the clutch operates continuously a s 4 1 I I I j l N Sst COMPRESSOR CLUTCH Malfunctions Extreme operating conditions can cause the compressor clutch to fail Compressor clutch problems are often mistaken for compressor failure as mentioned in the discussion of the compressor Diagnosis If the compressor is not operating is operating poorly or is operating noisily check the compressor clutch and belt for slippage Remove the belt and turn the compressor clutch by hand to check for noise and proper contact These parts may be hot so be careful Idler pulley bearings when worn also create a grindin
3. receiver drier or compressor without flushing the system may allow debris to reach the evaporator This is why it s important to fix everything right the first time and think ahead to the consequences of a component failure Moisture removed from the air collects in the condenser pan and flows out a drain tube Occasionally debris will clog the drain and water will accumulate in the HVAC module Customers typically are concerned about a stagnant odor or even water dripping on their feet when it sloshes out of the condenser pan on sharp turns Except for this situation musty odors from the evaporator are much less common now due to water repelling and mildew resistant coatings on the condenser core and pan Note To protect the mildew resistant coating never clean an evaporator with anything stronger than dishwashing detergent or other mild soap Diagnosis e During touch and feel diagnosis to be discussed later the incoming line of a properly operating evaporator is cool the evaporator is just above freezing and the outgoing line is warm e Air flow through the discharge vents will decrease if air flow through the evaporator is obstructed Check for leaves or other foreign objects inside the cooling unit e Evaporator icing can be a serious problem because the expansion of water as it freezes can crack the evaporator When the humidity inside the vehicle is extremely high water may condense on the evaporator and freeze if its surf
4. CLIMATE CONTROL SYSTEM OPERATION DIAGNOSIS AND REPAIR Welcome to Climate Control System Operation Diagnosis and Repair which is the final training course in the Electrical training sequence When you have completed this course you will know how to verify diagnose repair and recheck problems related to the climate control systems refrigerant loop heater controls and automatic temperature control This course will teach you the diagnostic and repair skills you need to fix it right the first time so you have satisfied customers instead of unhappy ones J ust like any other automotive system many Climate Control concerns are simple to solve while others are tricky to diagnose or require repairs to multiple components when one component s failure damages others Completing this course will also help prepare you for the ASE certification test for Air Conditioning Because ASE exams use domestic car terminology you may want to check out some ASE test preparation books from your local public library to finish studying for the exam Besides the obvious benefit that ASE certification shows your expertise in auto repair studying for the exams will improve your skills INY i N T What is Climate Control Climate Control refers to the systems in a vehicle that allow customers to adjust air temperature humidity and direction Although we usually think of climate control as just a comfort feature the defroster i
5. ace temperature is cold enough e Ice buildup on the evaporator fins blocks air flow and causes symptoms noticed by the customer such as poor or intermittent cooling Except in conditions of excessive humidity this is typically caused by a defective thermal expansion valve TXV Since it takes a while for ice to form and it will often melt after the evaporator is blocked long enough for the temperature to rise above freezing the customer may report that the air conditioner seems to work intermittently However if a variable compressor fails so it is always in its maximum stroke position this will also cause the same symptoms e Any water in the refrigerant may freeze inside the evaporator The symptoms would be similar to the above and would be cured by recycling the refrigerant to remove the water and replacing the receiver drier or accumulator liquid tank as applicable e A restriction in the evaporator will cause slightly cool air at the discharge vents Touch and feel diagnosis will show the incoming line is cool the evaporator is not as cold as it should be and the outgoing line is also cool due to poor heat transfer High side pressures may be close to normal and low side pressures will be lower than normal If the evaporator is completely restricted you may get a vacuum reading on the low side manifold pressure gauge
6. ck in the recirculate position the defroster will be less effective and the air in the car may seem stuffy or musty If the intake door is stuck in the fresh air position this would be less noticeable except when trying to use the recirculate setting to avoid outside odors If the door is stuck midway the defroster may be somewhat less effective but otherwise this fault would not be very noticeable If the intake is stuck on fresh air the air mix is stuck on hot and the mode is stuck on defrost check the unified meter and auto amplifier Using self diagnosis follow the directions in the service manual to find malfunctioning components and rule out other control problems Thermal Expansion Valve Operation All Nissan and Infiniti vehicles except the Quest s front air conditioner use a thermal expansion valve TXV to control refrigerant flow into the evaporator The TXV uses a controlled restriction to reduce refrigerant pressure and control the amount of refrigerant flowing into the evaporator Refrigerant enters the TXV as a warm high pressure liquid When refrigerant leaves the TXV it is a cold low pressure liquid just beginning to vaporize Valve Block Type Expansion Valve Standard Expansion Valve Refrigerant flow through the evaporator is moderated by feedback from a sensing bulb at the evaporator outlet tube This sealed sensing bulb contains a gas that responds to the temperature of the refrigerant at the outlet of th
7. e evaporator and changes the pressure on the diaphragm in the TXV As the temperature of the evaporator rises the valve opens to release more refrigerant As the temperature falls the valve closes to stop refrigerant flow and prevent evaporator icing On standard expansion valves the sensing bulb must have good thermal contact with the evaporator s outlet tube so it is usually wrapped to it with insulating foam All current Nissan and Infiniti vehicles use a Block Type Expansion Valve This valve functions exactly the same as the standard expansion valve with one exception the sensing bulb is contained in the valve housing It could be said that TXVs use a variable valve controlled by a feedback mechanism which allows them to change the refrigerant flow volume in response to varying temperature conditions which increase efficiency Malfunctions The TXV can stick open stick closed or become restricted The sensing bulb can also malfunction causing the TXV to stay closed The opening of the valve is very small If the valve opening becomes restricted with contaminants the TXV should be replaced along with the receiver drier Diagnosis A TXV that is stuck closed or partially restricted will cause the discharge air to be cool to warm Not enough refrigerant is entering the evaporator and it is cooling inefficiently The high side of the system will read high and the low side of the system will read very low NOTE When t
8. eneration Quest is the only fixed orifice tube system used in a Nissan vehicle 1 EVAPORATOR AV AVAVAVAVAVAVAVAY WAVAVATATATATATATAY NAVAYAYAYAYAYAYAYAY HIGH PRESSURE VAPOR LOW PRESSURE VAPOR 3 COMPRESSOR 4 CONDENSER HIGH PRESSURE 5 FIXED ORIFICE TUBE arene LOW PRESSURE LIQUID FIXED ORIFICE TUBE SYSTEM 1 The compressor moves the refrigerant through the loop starting as a high pressure high temperature vapor Remember the temperature pressure relationship 2 Heat is released from the refrigerant to cooler air flowing over the condenser fins This causes the refrigerant vapor to condense The refrigerant leaves the condenser as a warm high temperature liquid 3 The fixed orifice tube FOT uSes a preset opening to reduce the pressure of the refrigerant and limit the amount of refrigerant entering the evaporator Unlike the TXV there is no feedback and no adjustment of refrigerant flow to increase efficiency The refrigerant enters the fixed orifice tube as a warm high pressure liquid and leaves as a low pressure low temperature liquid before entering the evaporator 4 In the evaporator the refrigerant absorbs heat from the air circulating in the passenger compartment This heat transfer causes the refrigerant to finish evaporating and cools the air in the passenger compartment The refrigerant leaves the evaporator under low pressure as a low temperature vapor 5 The refrigerant enters and leave
9. es the airflow with a combination of settings which directly control heating air conditioning vent position and fresh air intake With automatic temperature control ATC a central controller uses sensor input to control these components and determine which route air takes through the HVAC module It also determines the most efficient fan speed HVAC UNIT BLOWER UNIT Malfunctions Each of the A C components is discussed separately and the door system is discussed under ATC Intake Door Operation The intake door is automatically controlled by the unified meter and auto amplifier or the driver to help obtain the set temperature The intake door motor positions the intake door to control either fresh outside air recirculated air air recirculated through the passenger compartment or a mix of both into the passenger compartment Refer to the service manual for each vehicle for the wiring diagram and physical location of the intake door motor BLOWER ASSEMBLY WITH INTAKE DOOR MOTOR Exceptions to automatic control occur in defrost mode In defrost mode the intake door is set in the fresh air position In manual recirculate mode the intake door is set in the recirculate position Malfunctions The control rod to the intake door may be dislodged or misadjusted or the intake door motor can fail Also the switch on the control panel or the connection to the auto amplifier can be damaged Diagnosis If the intake door is stu
10. g If there is an air flow problem touch and feel diagnosis will show that both inlet and outlet are hot as no heat is transferred out of the refrigerant If you check with gauges both high and low side pressures will be higher than normal The condenser tubes are often overlooked as a source of refrigerant leakage and should be checked thoroughly during a leak check procedure If the condenser seems to be making noise check the rubber mounts for deterioration and replace if needed Liquid Tank Receiver Drier Operation The receiver drier sometimes referred to as the liquid tank is a container with an inlet and outlet at the top and filters and a layer of desiccant inside Older models were cylindrical but the new pointed base design makes it easier to recover small amounts of refrigerant at the bottom Desicant Refrigerant RECEIVER DRIER The receiver drier has three functions in the refrigerant loop e Stores refrigerant e Removes moisture from the refrigerant using a desiccant e Filters contaminants and debris from the refrigerant Malfunctions Receiver drier malfunctions are often caused by contaminants clogging the filter The desiccant can only absorb a certain amount of water before it becomes saturated In either case the receiver drier will have to be replaced Diagnosis If the receiver dryer is restricted discharge air will be warm Touch and feel diagnosis will show the inlet is warm and the outlet is co
11. g noise that could be misdiagnosed as a compressor clutch or compressor The clutch should always remain engaged for variable displacement compressors and should engage and disengage as the system cycles on and off for fixed displacement and swash plate compressors If the clutch does not engage check the electrical circuit and also check the clutch to see if it engages when supplied with current On vehicles with an IPDM E R A quick test for compressor circuitry inspection is done using the AUTO ACTIVE TEST See the appropriate ESM PG section for information on this test Refrigerant Lines and Hoses Operation Air conditioning system lines and hoses are an integral part of the system They direct refrigerant and oil between system components and they prevent leaks under conditions ranging from low temperature and pressure to high temperature and pressure Hose diameter and type is determined by the application rigid tubing lines between the evaporator and liquid refrigerant lines low temperature and pressure and flexible tubing hoses between the condenser and the compressor high pressure and temperature Pressure relief valve E High pressure BN Low pressure gas liquid EEN High pressure E Low pressure liquid Compressor me Condenser Refrigerant With liquid tank pressure sensor Blower motor Expansion valve a An easy way to tell which lines and hoses are high pressure and low pressure
12. gerant Loop Evaporator SESE PTT TTL Low pressure service port PT j High pressure ervice port nn Pressure relief valve Condenser The better you understand the basic principles of refrigeration the easier it will be to diagnose A C problems Refrigeration works by taking advantage of a few simple physical principles 1 Heat travels from high temperature to low temperature areas 2 Compressing a gas or vapor increases both its temperature and pressure 3 Removing heat from a gas or vapor makes it condense into a liquid 4 Raising the temperature of a liquid makes it evaporate into a gas or vapor When refrigerant enters the evaporator as a mist it vaporizes and absorbs heat from the passenger compartment until it 2 leaves the evaporator as a slightly superheated vapor mpr TEMPERATURE ecnheaee AT REST COVPRSSI pr The vaporized refrigerant travels through the low pressure vapor lines to the compressor The pistons in the compressor pressurize the refrigerant and raise its temperature mAs This hot high pressure refrigerant vapor goes through the high pressure vapor lines to the condenser at the front of the car Because it is much hotter than the outside air air passing through the condenser absorbs heat from the refrigerant As the refrigerant loses heat it condenses to a liquid Next the cool liquid refrigerant passes through the liquid line to the receiver drier
13. have remained the same The primary automotive refrigerant in general use today is R134a Although the name Freon is sometimes used to refer to any automotive refrigerant Freon is a registered trademark of DuPont R134 a refrigerant is more environmentally friendly than R 12 Systems using R134a have slightly higher pressures than an R12 system In addition R134a systems use a different type of refrigerant oil which is specific to the type of compressor There is a distinct temperature pressure relationship for R 134a refrigerant As the pressure increases the boiling point rises Refer to the chart on the following page for these relationships REFRIGERANT R 134A TEMPERATURE VS PRESSURE RELATIONSHIP Temp Pressure Temp Pressure F psig F psig 16 15 3 100 124 18 16 7 102 129 20 18 0 104 133 22 E 19 4 106 137 24 V 219 108 142 26 A R 22 4 110 147 28 P A 24 0 112 152 30 O N 25 6 114 156 32 R G H3 116 162 34 AE 29 0 118 C 167 36 I 30 8 120 O 172 38 O 32 6 122 N R 178 40 R 34 5 124 D A 182 45 sue 126 E N 188 50 449 128 N G 194 55 50 7 130 S E 200 60 56 9 135 E 215 65 63 6 140 R 230 70 70 7 145 247 75 78 3 150 264 80 88 4 155 283 85 95 0 160 301 90 104 165 321 95 114 170 342 R 134A BOILING POINT IS 15 1 F Malfunctions All automotive A C systems eventually require service A typical A C system needs recharging every three or four years and contamination in the system water incorrect oil dirt
14. he TXV is closed all the way refrigerant will still flow through the valve If there is debris in the valve then it could stop the flow of refrigerant completely If the TXV is closed or completely restricted you will not be able to hear the normal hissing or spraying sound The discharge air will be warmer the high side pressure will be higher than normal and the low side may range from very low to a vacuum Because no refrigerant is flowing into the evaporator evaporator temperature remains high A closed TXV may cause the compressor to run continually as it tries to cool the passenger compartment Variable displacement compressors will remain at maximum capacity Fixed displacement compressor systems will never cycle off Contamination by particles typically restricts or closes the valve Also if the sensing bulb its capillary tube or the diaphragm has failed the TXV will close If examination of the failed TXV shows contamination flush the system and replace the receiver drier If the TXV is stuck open outlet air will be slightly cool to warm Touch and feel diagnosis will find the tubes leading from the TXV are quite cold and frost or ice may be present High side pressure will be slightly high and the low side will read high A stuck open TXV may also cause the evaporator to freeze up If the evaporator freezes air flow from the outlet vents will be reduced Ice formation can damage the evaporator so this is a serious conditio
15. he evaporator the refrigerant absorbs heat from the air circulating in the passenger compartment This heat transfer causes the refrigerant to finish evaporating and cools the air in the passenger compartment The refrigerant leaves the evaporator under low pressure as a low temperature vapor The sealed gas filled sensing bulb on the TXV senses the temperature of the evaporator and adjusts the TXV accordingly Refrigerant enters the TXV as a warm high pressure liquid and leaves as a low pressure low temperature liquid as it enters the evaporator This feedback allows the thermal expansion valve system to operate more efficiently than a fixed orifice tube FOT system which uses a preset opening to meter refrigerant Notes Evaporator Operation The refrigerant entering the evaporator from the thermal expansion valve is a cold low pressure liquid just starting to vaporize As air flows across the evaporator fins the refrigerant continues to vaporize as it absorbs the heat transferred from the air to the evaporator Previous Style Evaporator Armada QX56 Evaporator The evaporator has a tube and vane construction similar to a radiator and performs the same basic task heat transfer It is located in the HVAC module along with a blower motor to circulate warm air past it to absorb the heat and send cooler air into the passenger compartment The evaporator also dehumidifies the air As warm humid air passes over the evaporator co
16. ld Frost may even appear on the bottom of the receiver drier When a restriction is present manifold gauge readings will show the high side to be high and the low side to be low or at a vacuum depending on the degree of restriction This is because when refrigerant passes through the restriction it expands suddenly and loses heat as if it were in an thermal expansion valve If the receiver drier is saturated with moisture the outlet air will start out cold but warm up in 5 to 10 minutes This is caused by excessive moisture freezing in the thermal expansion valve when the refrigerant temperature drops If this happens touch and feel results will show a warm inlet and a cold even frosted thermal expansion valve Manifold gauge readings will be the same as those for a restricted receiver drier NOTE At one time it was standard practice to replace the receiver drier whenever the system was opened In recent years however tests have shown this is no longer necessary due to improved desiccant materials You may have already seen the service bulletin directing technicians to reuse the receiver drier in most circumstances The receiver drier should only be replaced if e The compressor is seized e Refrigerant oil contains metallic flakes e Diagnosis indicates a major blockage If you can t document a specific reason to replace the receiver drier it will not be covered on warranty claims If you encounter a car with a third party e
17. lines and hoses is the high pressure lines and hoses are smaller diameter than those for low pressure side of the system In the past lines and hoses relied on refrigerant oil to seal the hoses and prevent leakage at hose and line fittings Newer air conditioning systems use barrier type hoses that are self sealing and prevent refrigerant leakage with or without refrigerant oil Condenser Operation The condenser operates very much like the radiator in a car transferring heat to the outside air by passing hot coolant through a collection of tubes and fins Both the condenser and the radiator are placed at the front of the vehicle and have fans to ensure air flow even when the vehicle is stopped in traffic After refrigerant leaves the compressor it enters the condenser as a high temperature high pressure vapor As the refrigerant travels through the condenser it is cooled by outside air flowing over the condenser fins The refrigerant in the condenser coils changes from a vapor to a liquid and leaves the condenser as a warm high pressure liquid Because the refrigerant temperature is so high when it enters the condenser it is always hotter than the outside air and can lose heat to the air even on a hot day However just like the radiator the condenser transfers heat least effectively when you need it the most when it s very hot outside Three types of condenser are used in Nissan and Infiniti vehicles serpentine flow parallel f
18. low and subcooling You can identify the parallel flow condenser by the refrigerant end tank and smaller more closely spaced center section tubes as illustrated above The subcooling condenser has an extra cooling pass between the receiver drier and the lower third of the condenser for extra cooling power Ist and 2nd Inlet Liquid Tank Receiver Dryer Outlet to Expansion Valve 3rd Pass Final Sub cool Pass SUBCOOLING CONDENSER Malfunctions Condenser malfunctions are usually caused by internal restrictions collision damage or obstructed air flow through the cooling fins Noise or a vibration may result from the condenser fins or lines touching the body due to deteriorating rubber mounts Diagnosis If the condenser has internal restrictions the air conditioner will be less efficient Touch and feel diagnosis will show the high side is hot and the low side is warm High side pressures will be high and low side pressures will be low Collision damage can crimp tubes without breaking them causing a restriction rather than a leak Another cause of poor cooling performance is obstructed air flow which can be diagnosed by inspection Leaves plastic bags dirt and other trash can stick to the front of the condenser and block air flow Also check between the condenser and radiator Remember at low speeds an inoperative condenser fan can cause the same symptoms as obstructed air flow so make sure the fan is operatin
19. metal fragments acids can cause a wide variety of problems Much contamination can be prevented by keeping things clean while working on the HVAC system Make sure all valves and fittings are free of grease and dirt and keep the protective caps on components lines and hoses until you are ready to install them Always flush the system after failure of the compressor receiver drier or accumulator as these components can introduce debris into the system when they fail Always double check to make sure you are using the right type of oil for the compressor Diagnosis Cooling performance will be poor if the refrigerant is undercharged To rule out other causes of poor cooling performance perform touch and feel diagnosis If the refrigerant charge is low the thermal expansion valve and receiver drier or the fixed orifice tube will be warm or slightly cool to the touch Both high pressure and low pressure readings are low if refrigerant undercharge is the cause Always check for leaks and make any required repairs before recharging the system The compressor may be noisy if the refrigerant is overcharged If the A C alternates between working well and not working an excessive refrigerant charge may be causing icing If both high pressure and low pressure readings are high and particularly if splashing water on the condenser lowers the pressure you will need to remove enough refrigerant to meet the specification in the service manual Refri
20. n Typically water or wax contamination or mechanical failure will lock a TXV in the open position If examination of the failed TXV shows contamination flush the system and replace the TXV tube and receiver drier Liquid Tank NOTE The ACR5 AC Service Center has the capabilities of flushing an AC system Refer to the owner s manual for the proper procedure and adapters BLOCK TYPE THERMAL EXPANSION VALVE TXV SYSTEM The compressor moves the refrigerant through the loop starting as a high pressure high temperature vapor Remember the temperature pressure relationship Heat is released from the refrigerant to cooler air flowing over the condenser fins This causes the refrigerant vapor to condense The refrigerant leaves the condenser as a warm high temperature liquid The refrigerant enters and leaves the receiver drier as a warm high pressure liquid The receiver drier stores filters and removes moisture from the refrigerant Its equivalent in the fixed orifice system is the accumulator The thermal expansion valve TXV uses a variable restriction to reduce the pressure of the refrigerant and control the volume of refrigerant entering the evaporator If too much refrigerant enters the evaporator it will not completely evaporate If too little refrigerant enters the evaporator it will evaporate too quickly In either case the system will not cool efficiently BLOCK TYPE EXPANSION VALVE In t
21. ponents of the refrigerant loop are the evaporator compressor condenser liquid tank receiver drier and the expansion valve Condenser Compressor Heated Vapor From Cooled Liquid c Refrigerant ompressor to Liquid Tank Dryer Block type expansion valve Liquid tank Note The receiver drier is referred to as the liquid tank in the service manuals The basic operation of the refrigerant loop is quite simple it moves heat from the interior of the vehicle to the outside air e The compressor concentrates the heat in the refrigerant and propels it through the system e The condenser transfers heat to the outside air e The receiver drier filters the refrigerant and stores any excess liquid e The thermal expansion valve TXV sprays a mist of refrigerant into the evaporator to start the loop again e Finally the evaporator absorbs heat from inside the passenger compartment All these components are connected by rigid metal tubes and flexible hoses and are sealed with various seals and O rings A variation of this basic system layout is found in the first and second generation Nissan Quest which has a fixed orifice tube FOT and an accumulator in the basic system and a thermal expansion valve TXV in the optional rear air conditioner The engine compartment is a harsh environment due to vibration and heat so it s no surprise the most common A C problem is low refrigerant charge due to gradual leakage
22. re water in the air condenses on the cold evaporator just like it does on a cold glass of your favorite beverage Dry air feels cooler than its actual temperature and allows the body to cool itself more efficiently Drying the air also relieves the sticky clammy feeling of extremely humid air and prevents humidity from building up on the inside of the vehicle Air being sent to the defroster vents also passes over the evaporator to remove excess moisture which helps it clear fog from the windshield more effectively Block type expansion valve Malfunctions The evaporator is a very reliable component Evaporator malfunctions are limited to obstructed air flow or internal restrictions Air flow can be blocked by air flow through the In Cabin Microfilter if equipped leaves paper or other debris falling into the HVAC module through the air intake or interior vents and being held against the evaporator by the air from the blower Ice forming on the outside of the evaporator fins see Diagnosis below may also block air flow and reduce air conditioning performance In Cabin Microfilter On vehicles with the In Cabin Microfilter the entry of airborne dust and pollen particles are filtered and restricted before they reach the evaporator coils If the Receiver Drier fails desiccant particles from the receiver drier may lodge in the evaporator core although they are more likely to clog the TXV Replacing a damaged or failed
23. rigerant container e Keep refrigerant containers stored below 104 F e Never release refrigerant directly into the atmosphere It s a federal law with fines and imprisonment for anyone releasing refrigerant into the atmosphere Always use approved recovery recycling and charging equipment e Never mix R 134a and R 12 or their refrigerant oils Results will range from poor A C system performance to expensive component and equipment damage e There are many different Federal state and local ordinances to control the use of refrigerants and their release into the atmosphere Make sure you comply with these ordinances including training and certification Refrigerant Operation The refrigerant in an air conditioning system absorbs transports and then releases heat via the condenser A good refrigerant must have a number of specific characteristics It must be e Compatible with a wide variety of materials such as brass aluminum copper steel rubber and neoprene e Oil soluble which allows it to circulate through the system with the oil e Non poisonous and non flammable Unfortunately no single substance found in nature has all these characteristics Automotive refrigerants are man made compounds developed especially for automotive air conditioning systems Automotive refrigerant has changed over the years from ammonia gas to R12 Freon to R134a The characteristics of each gas and the purpose in the refrigerant system
24. s a safety feature Air conditioning also improves the air quality which may benefit people with certain health problems by dehumidifying and cleaning the air as it cools it All the components of the Climate Control system work together as a complete system Understanding the relationship between these components will help you accurately verify and diagnose complaints For example when a customer selects Defrost the system opens the fresh air intake door activates the heater core and refrigerant loop directs air over the evaporator and the heater core and blows this warm dry air through the defroster ducts on the dashboard If any one of these components isn t working properly the customer will have concerns about poor defroster performance Similarly a customer may have concerns with poor air conditioner performance if the Sunload sensor has failed and the ATC is no longer accounting for the heating caused by sunlight on the vehicle System Overview All Nissan and Infiniti vehicles except the first and second generation Nissan Quests have the same basic refrigerant loop components and all models except the Frontier Xterra and Sentra are available with ATC Once you ve learned how the basic systems work you can apply this knowledge to any vehicle Although there are a few variations in the design of each component you ve probably noticed that Nissan and Infiniti systems are simpler than those of other makes The five major com
25. s the accumulator as a low temperature low pressure vapor The accumulator stores filters and removes moisture from the refrigerant It also stores refrigerant oil and prevents liquid refrigerant from entering the compressor Notice that the accumulator is located on the low pressure side of the refrigerant loop while the receiver drier is located on the high pressure side FOT systems use an accumulator to dry filter and store refrigerant It is placed between the evaporator and the compressor to collect any liquid refrigerant in the low pressure lines before it reaches the compressor Compressor Operation The compressor moves the refrigerant through the refrigerant loop It also pressurizes the refrigerant vapor until it becomes a high pressure high temperature vapor hot enough it can transfer heat to the outside air in the next component the condenser The compressor circulates refrigerant oil throughout the system to lubricate other moving parts such as the expansion valve COMPRESSOR A system that uses a fixed displacement compressor such as a fixed rotary vane type without a suction throttling valve or a swash plate type compressor will cycle the compressor ON and OFF to control evaporator and interior temperature Systems equipped with a variable displacement compressors such as the V 5 and V 6 do not cycle ON and OFF Instead of cycling during operation the V 5 and V 6 compressors change displacement or refrigerant
26. to absorb any moisture or impurities which could damage the system The refrigerant is still a warm liquid as it continues through the liquid line to the thermal expansion valve TXV When it reaches the TXV the liquid refrigerant yartially is evaporator During normal system operation the operates TXV allows enough liquid refrigerant into the evaporator to keep it partially filled with vaporizing liquid refrigerant while the system operates Refrigerant Loop Components The refrigerant loop consists of a group of components which are connected by rigid lines and flexible hoses and sealed with seals and O rings There are also two service ports one on the high pressure side and one on the low pressure side to allow access to the refrigerant for diagnosis and repair Pressure relief valve ZA High pressure M8 Low pressure gas liquid E High pressure W8 Low pressure liquid gas Compressor Condenser Refrigerant With liquid tank pressure sensor ZSOLT OZR ARAAAALLA VAVAI AOAO ZAZA TAVANA ATENTANTA AN VWAALAAALALAT Evaporator Blower motor THERMAL EXPANSION VALVE TXV SYSTEM In the standard thermal expansion valve TXV system the major components are the evaporator compressor compressor clutch condenser receiver drier liquid tank and block type thermal expansion valve Fixed Orifice Tube Systems Quest Only The front air conditioning system available on the first and second g
27. xtended warranty which requires receiver drier replacement on all A C work discuss the situation with your Service Manager NOTE This is sometimes a difficult problem to understand when there is a restriction in the system like at the receiver drier or at the expansion valve the high side pressure is lower than normal If there is less refrigerant going to the compressor from the restriction the compressor has less to pump so the pressure is lower If the restriction were close to the compressor then the refrigerant would hydro lock and the pressure would be high As long as there is room in the system to store the refrigerant between the compressor and the restriction then the high side pressure is low HVAC Module and I ntake Assembly Operation Most current HVAC systems consist of an HVAC module unit assembly The HVAC module assembly contains the heater core the door system and evaporator core The blower housing is a separate unit The cooling unit in the HVAC assembly contains the evaporator core the block type thermal expansion valve and the door system The intake unit contains the intake door thermo resistor or fan control amplifier and a blower A control system controlled manually or electronically directs air over the heater core to raise the temperature over the evaporator to lower the temperature and humidity and through the desired vents In vehicles with manual controls the customer determin
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