Increasing numbers of cars have it, but what exactly is climate control? Well, it’s an advanced form of air conditioning, one that allows for greater control of your car’s cabin temperature in any weather conditions.
Air conditioning itself has become standard equipment on nearly every new car on sale today. But the more you pay for a car, the more likely it is to have an air conditioning system that allows you to tailor the car’s cabin temperature to your needs. Climate control does exactly as it says because it allows you to control the climate of your car, no matter what the conditions are outside.
Air conditioning first appeared in the 1930s in the US on cars built by Packard, although the unit it used was fitted after the car was built, so it took up boot space, had unreliable plumbing, and was expensive to install. More successful was Chrysler’s Airtemp air conditioning, which appeared in the 1950s, while US firm Nash introduced its own more reliable system in the same decade.
Air conditioning was a popular addition to cars in the US, but it took a little longer for it to gain a foothold in Europe. Having picked it up, however, European carmakers have developed it so that drivers have more control over the cabin temperature than ever before.
This is climate control and it works similarly as a house thermostat, because you set a temperature, and the car’s heating, ventilation, and air-conditioning (HVAC) operates to maintain that temperature as best it can. But with so many different types of climate control on offer, it can be difficult to know exactly what you’re getting.
Climate control explained: the different types of car heating and cooling systems…
This is the most basic form of HVAC that’s on offer in a car. You’ll find it on the most basic cars on sale, and it simply uses a control on the dashboard to warm the air coming into the car. This is heated by using engine heat as well as a heater element in the engine bay that warms the air as it passes through.
This basic system is good at warming passengers when it’s cold outside, but offers no respite when the weather is warm, as it doesn’t cool air coming into the car. If you want the cabin to cool down, the only option is to open a window.
This is pretty much standard fitment on every new car sold in the UK. Operated by an AC button on the dashboard, the air conditioning system can heat or cool air flowing into the car.
Warm temperatures are controlled as they are in a standard car heater, but to cool the air, the car is fitted with an additional compressor under the bonnet that directs air to a condenser. This then charges the air with refrigerant to cool it down, and the air is then sent through the air vents in its chilled state. Like a heater system, there’s a control to set how hot or cold you want the cabin, while a separate AC button allows you to activate and deactivate the air conditioning independently.
One obvious clue that the AC button has been pressed will be a change in engine note from your car when it’s idling. The system runs off the car engine, and when it’s activated, there will be a slight drop in revs (especially in cars with small engines) as the system takes power from the engine, usually around 4bhp, to operate. You will also notice your car returning poorer fuel consumption figures, although tests have shown that this drop in the economy is no worse than that caused by the extra drag of driving with the windows wound down. If it’s warm, then AC is ideal to keep your cabin cool so you can keep concentrating on driving.
As well as cooling the air in the cabin, another advantage of an AC system is that it can remove condensation from the air coming into the car when it’s raining or cold outside, thus reducing the risk of your windows steaming up when temperatures drop.
One issue with air conditioning is that the refrigerant that cools the air can lose its effectiveness over time. This can cause the system to pump out condensation into the car and make the windows steam up. If this happens, then you need to regas your AC system, which can be done as part of a car’s service by a dealer, by your local Kwik Fit or an independent garage.
The major difference between air conditioning and climate control is that the latter allows the occupants to set the desired temperature, and the system automatically maintains that temperature as the conditions outside the car change.
Rather than having a controller that sets a vague temperature setting, a climate control system will allow you to set a specific temperature. They will sometimes be in half-degree increments, ranging from around 16 degrees to 30 degrees Centigrade. Most cars have a Max setting, too, which will automatically put the heater on full blast, usually so that the car’s windscreen and windows can be cleared as quickly as possible with temperature-controlled air.
Another key difference between air-con and climate control is that the latter is likely to have an Auto setting. While the usual controls that allow you to guide air to your feet, body or head are present – as well as a button that allows you to choose between fresh air or recirculated cabin air – the Auto button does exactly as it says, by automatically regulating airflow around the car to maintain the desired temperature.
While climate control is a catch-all name for this type of HVAC system, there are a variety of different types on offer above and beyond the standard cabin climate control system…
Dual-zone climate control
This features two temperature controls so that the left-side and right-side of the car can have different temperature settings. There will be two controllers on either side of the dashboard that allows different temperatures to be set, although some systems will limit how much warmer or colder one side of the car can be when compared to the other so that the HVAC system isn’t put under too much stress.
Three-zone climate control
As you’d expect, this adds a third zone that has its temperature control. In this instance, there are still two zones in front of the car that are divided into the left and right, but the third zone is in the rear seating area. Back seat occupants will have their air vents and a temperature setting to play with, but who gets control of that is open season. Which is where the following comes in…
Four-zone climate control
Yes, four-zone climate control splits the temperature of the cabin into four areas for each of the four main seats in a car. This type of climate control can be found on high-end luxury cars, mainly limos like the Mercedes S-Class and the most expensive SUVs on sale. However, four-zone climate control – like three-zone systems – will also give the driver the ability to control the rear cabin temperatures, while all three of these set-ups will come with a ‘Sync’ button that will set all areas to the same temperature, perfect for drivers with OCD.
If you drive a plug-in hybrid or electric car, then you’re likely to be aware of cabin pre-heating. This is also available as an option on some upmarket petrol and diesel cars and allows owners to warm or cool the cabin of the car before they climb on board.
As well as setting a temperature for the car’s cabin, pre-heating lets an owner set a time for when the cabin needs to be warmed up. It’s an added luxury on conventional cars, but on EVs and plug-in hybrids, it’s an essential way of saving battery charge for driving. It means the cabin is warmed or cooled and ready to go when using power from the mains, thus maximizing the number of miles that the vehicle can travel on a full charge.
how much petrol do they consume?
Heating and air conditioning in petrol cars have completely different functions. However, everything changes if we’re talking about electric cars. We’ll calculate your out-of-pocket expenses.
Today, it’s difficult for us to imagine a trip in a car without heating or air conditioning, depending on the season of the year. But for half of their history, cars didn’t have either one.
It was only after 1940 that some models started to emerge that were capable of controlling the interior cooling/heating. It is still possible to find cars that, in their basic versions, do not include air conditioning.
But how much petrol does it consume to use the heating or air conditioning in your car?
Car heating is free
Though many people don’t know it, turning on the heat does not increase the car’s consumption of petrol.
Heat is obtained from the energy generated by the engine itself, and so it is enough to have it turned on to provide heat. For that reason, if you turn on the heat, you just need to wait a few minutes to feel its effects (however long it takes for the engine to heat up).
However, it is false to say that its consumption is equal to zero. The fan that makes the heat pass inside the car uses electricity from the battery. And to charge the battery, it also uses some petrol, but very little.
“By taking advantage of the heat dissipation from the engine, heating a car is practically free.”
Air conditioning: up to 1 liter per 100 km
Air conditioning, on the other hand, uses a compressor connected to the belt of the engine to function. This consumes energy, and therefore, petrol. It consumes between approximately 0.2 liters and 1 liter of petrol per 100 km.
Consuming more or less depends on both the exterior temperature and the intensity at which you use the air conditioning. The machine needs to cool the air inside the car: the more degrees it needs to go down, the more petrol it will consume.
“Air conditioning of a car consumes between 0.2 and 1 liter of petrol at 100 km.”
Electrical cars: less dissipation, more sustainability
Everything changes with electric cars. A thermal motor wastes most of the heat it generates. As we’ve seen, this wasted part is what provides the heat in a petrol car.
However, an electric car strives not to waste anything. For that reason, if you turn on the heat, (in the case of electric cars) the consumption of energy will go up considerably.
Thus, we’re talking about a paradigm shift. By driving a petrol car, you are wasting every meter you travel… and a side effect of this is that you can obtain heating based on that waste. But it is false to say that heating is free. It comes from petrol that you’re wasting.
By commuting in an electric car, everything is more controlled. When the car stops, energy consumption stops as well. Unless you need to use the lights, radio, or heating and air conditioning. The idea here is to always consume as little as possible, striving for zero waste.
If you drive an electric car and you need air conditioning or heat, the energy necessary will be extracted directly from the traction battery. You’ll have your cold/heat, but in turn, the autonomy of the vehicle will be reduced. How much? In normal conditions, it is around 10% or 20%.
To solve it, manufacturers are already implementing in their electric models, a small heat pump. This invention that is so common in homes and offices is thus carving out its niche in the future of driving by guaranteeing the maximum performance in any weather condition.
“In electric cars, both air conditioning and heating consume the energy of the battery, and therefore, reduce autonomy.”