\”\”What\’s missing from this picture? Automotive air conditioning.Stockbyte/Getty Images
You\’re stopped in traffic on an August afternoon. Sweat drips from your neck all the way down your back until your shirt absorbs it, making a damp spot between you and the seat. Your legs are either stuck to the vinyl upholstery or prickled by its cheap velvet. Your hands feel like they\’re about to slip off the steering wheel, and you\’re thankful your eyebrows are keeping the sweat from running into your eyes. Well, mostly.
What\’s missing from this picture? Automotive air conditioning. It\’s become nearly universal, with 99 percent of all new cars as of summer 2010 coming equipped with it. When it\’s missing, we notice.
It\’s also been with us longer than you might think. Packard invented automotive AC all the way back in 1939, and in 1940 was the first car company to offer factory-installed air conditioning. Of course, this early system didn\’t have a thermostat, but it was better than not having anything at all. The idea caught on, though, and by 1969, more than half of all new cars were sold with air conditioning built in. That\’s not including the aftermarket AC units that could be installed during the first heat wave of the year, when the new owner regretted his penny-pinching at the dealership in January.
Eventually, it was determined that the refrigerant used for decades in automotive AC, known as R-12,CFC-12, or its brand name Freon, was damaging the ozone layer (it\’s a chlorofluorocarbon). It was banned from being manufactured in the United States and an alternative, called R-134a or HFC-134a, was required for all cars manufactured after 1996. Now, any car older than that needs to be retrofitted with a new system that can use the newer, safer refrigerant.
Air conditioning has worked pretty much the same way for its entire existence: it cools and removes humidity from the air. There are three main parts to the system — the compressor, condenser, and evaporator — that achieve this, plus a few other parts to keep the system running smoothly. Let\’s take a look at each.
- The High-pressure Side
- The Low-pressure Side
- Recharging a Car's AC
The High-pressure Side
All automotive air conditioning systems are (nearly) closed loops with a high-pressure side and low-pressure side. We\’ll start with the high-pressure side as it leads from the engine to the passenger compartment:
Compressor: The compressor is a pump driven by a belt attached to the engine\’s crankshaft. When the refrigerant is drawn into the compressor, it is in a low-pressure gaseous form. Once the gas is inside the pump, the compressor lives up to its name. The belt drives the pump, which puts the gas under pressure and forces it out to the condenser. Compressors cannot compress liquids, only gasses. You\’ll see as we go through the system that there are other parts whose job it is to capture any water that accidentally makes into the AC loop.
Condenser: The condenser is basically a radiator, and it serves the same purpose as the one in your car: to radiate heat out of the system. The refrigerant enters the condenser as a pressurized gas from the compressor. The process of pressurizing the gas and moving it to the condenser creates heat, but air flowing around the twisting tubes of the condenser cool the refrigerant down until it forms a liquid again. Imagine steam cooling down and condensing back into water, and you\’ve got the idea. The liquid refrigerant is now a high-pressure liquid and nearly ready to cool the car.
Receiver-Dryer: But first, the refrigerant needs to be prepped for the evaporator. As it moves out of the condenser, the liquid goes through a little reservoir installed in the line. This receiver-dryer contains desiccants, small granules that attract water. You\’ve seen packets of desiccants in shoeboxes, where they do the same thing: attract water from the air to keep new shoes fresh and ready for your feet. (They\’re usually labeled "Do not eat.") In the receiver-dryer, they remove any water that has entered the system. If the water is allowed to remain and possibly form ice crystals, it can damage the air conditioning system.
That\’s enough high-pressure for anyone, so let\’s move on to the low-pressure side of the system.
The Low-pressure Side
Thermal Expansion Valve (TXV): Here, the system changes from the high-pressure side to the low-pressure side. If you were to touch this part of the system, you\’d feel it change from hot to cold.
The high-pressure liquid refrigerant flows from the receiver-dryer through the expansion valve, where it is allowed to expand. This expansion reduces the pressure on the refrigerant, so it can move into the evaporator. The valve senses pressure and regulates the flow of refrigerant, which allows the system to operate steadily, but the moving parts of the valve can wear out and sometimes require replacement.
Some vehicles have an orifice tube rather than an expansion valve, but it serves the same purpose in allowing the refrigerant to expand and the pressure to be lowered before the liquid enters the evaporator. The orifice tube allows refrigerant to flow at a constant rate and has no moving parts, but it can become clogged with debris over time. Systems with an orifice tube automatically turn the AC system on and off to regulate the flow of refrigerant to the evaporator.
Evaporator: This is where the magic happens. While all the other parts of the system are located in the engine compartment, this one is in the cabin, usually above the footwell on the passenger side. It also looks like a radiator, with its coil of tubes and fins, but its job is to absorb heat rather than dissipate it.
Refrigerant enters the evaporator coil as a cold, low-pressure liquid, ideally at 32 degrees Fahrenheit (0 degrees Celsius), which is why you don\’t want any water in the system. The refrigerant doesn\’t freeze at this temperature, but it does have a very low boiling point. The heat in the cabin of the car is enough to make the R-134a in the evaporator boil and become a gas again, just like water turning back to steam. In its gaseous form, refrigerant can absorb a lot of heat.
The gas moves out of the evaporator — and out of the passenger compartment of the car, taking the heat with it. A fan blowing over the outside of the evaporator coil blows cool air into the passenger compartment. The refrigerant in gas form then enters the compressor, where it is pressurized and the whole process starts all over again.
If the system uses an orifice tube, there will be an accumulator between the evaporator and the compressor. An orifice tube sometimes lets too much refrigerant into the evaporator and it doesn\’t all boil. Since the compressor cannot compress liquid, only gas, the accumulator traps any excess liquid before it can get into the compressor.
The evaporator also takes humidity out of the air in the car, which helps you feel cool. Water in the air condenses on the evaporator coil, along with dirt and pollen and anything else floating around in the cabin. When you stop the car and see water dripping underneath, it\’s probably the water from the AC evaporator and nothing to worry about.
We\’ve all heard about "recharging the AC," so we\’ll take a quick look at that next.
Recharging a Car's AC
\”\”An assortment of automotive air conditioning gaugesThinkstock/Comstock Images/Getty Images
Most of us start seeing ads in the spring for car repair shops offering deals on recharging your car\’s air conditioning in time for the coming summer. Which makes us ask, what is recharging the AC? Is it required, like an oil change? Does my car\’s air conditioning need to be recharged? Is this another scam that repair shops can pull on unsuspecting customers?
The answer to that last one is definitely no; recharging the AC is not a scam. It simply means that fresh refrigerant is added to the system. If the refrigerant is a bit low, it can be topped off, the same as if you were a bit low on oil in the engine. If it\’s really low, though, whatever refrigerant is still in the system needs to be drained out and replaced. This process of clearing out the system and adding new fluid is called recharging.
In either case, you\’ve lost some refrigerant, which isn\’t so great. Even though R-134a is better for the environment than Freon, the Environmental Protection Agency would rather not have any air conditioning refrigerant leaking into the soil and rivers. If you\’re going to have the system drained and recharged, the EPA recommends having the technician take a look at the system to find the source of the leak and fix it. They don\’t require the repair, but they\’d really, really like you to have it done.
This article has talked a lot about R-134a as a replacement for big, bad Freon, but there are others that have been approved by the EPA, too. R-134a has the distinction of being the refrigerant most tested and recommended by manufacturers, but there are others with names like Free Zone, Freeze 12, and Kar Kool that the EPA will allow in automotive air conditioning systems [source: EPA].
Originally Published: Feb 23, 2012
Automotive Air Conditioning FAQ
What are the components of a car air conditioner?
There are three main parts to the system — the compressor, condenser and evaporator.
How much does it cost to fix the air conditioning in your car?
Costs can vary. It can cost anywhere from $200 to $800 for minor repairs or $475 to $4,000 to replace your car\’s AC compressor, according to Midas.
What air conditioning system was banned in the U.S.?
It was determined that the refrigerant used for decades in automotive AC, known as R-12, CFC-12, or its brand name Freon, was damaging the ozone layer (it\’s a chlorofluorocarbon). It was banned from being manufactured in the United States.
Why is my car air conditioner not blowing cold air?
There are different reasons why your AC might not be working, but Repair Pal says the most common reason this happens is because of a refrigerant leak.
Which type of AC is used in car?
An R-134a or HFC-134a air conditioner was required for all cars manufactured after 1996.
Lots More Information
- How Air Conditioners Work
- How Car Cooling Systems Work
- How is Freon utilized in air conditioning?
- How does the thermostat in a car\’s cooling system work?
- How to Maintain an Air Conditioner
- Automobile Magazine. "Automotive Air Conditioning History." July 2010. (Feb. 1, 2012) http://www.automobilemag.com/features/news/1007_automotive_air_conditoning_history/index.html
- Family Car Parts. "Automotive Air Conditioning Systems." (Jan. 25, 2012) http://www.familycar.com/ac1.htm
- AirconCars.com. "How Air Conditioning Works." (Jan. 25, 2012) http://www.airconcars.com/html/how_it_works.html
- AirCondition.com. "How Refrigerant Flows through the System." (Feb. 1, 2012) http://www.aircondition.com/tech/questions/13/
- All About Auto AC Systems. "Orifice Tubes and Expansion Valves." (Feb. 1, 2012) http://www.autoacsystems.com/fasttrack/otubes.html
- Environmental Protection Agency. "Recharging Your Car\’s Air Conditioner with Refrigerant." Aug. 19, 2010. (Feb. 1, 2012) http://epa.gov/Ozone/title6/609/recharge.html
- Environmental Protection Agency. "Substitutes in Motor Vehicle Air Conditioners." Oct. 7, 2011. (Feb. 2, 2012) http://www.epa.gov/ozone/snap/refrigerants/lists/mvacs.html