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post #1 of 10 Old 10-23-2005, 12:50 PM Thread Starter
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Intercooling Basics

For quite some time now, I've been hearing about people's turbo setups and there are a lot of misconceptions on Intercooling. The purpose of this thread is to cover the basics of intercoolers in relationship to turbo charged vehicles.

To start off, a LOT of people think that intercoolers HAVE to be put on a vehicle if it is turbo'd. This all started because someone would say something along the lines of:

John: "Wow, that car is Turbo'd!"
Joe: "How do you know?"
John: "Because it has an intercooler in the front!"
Joe: "Wow! I know nothing about Turbos, but I will spread this information among my friends!"

Another misconception is intercooler sizing. Again, I imagine a conversation going somewhat like this:

Jane: "Daaaaaamn, look at that huge intercooler on that Silvia!"
Jill: "Yeah! That thing is HUGE! This car MUST be making power!!"
Jane: "Yes, I know, and think of how efficent that must be, even though I don't know the effect that proper design has on it!"

Basics (How they work):

So WHY would one need an intercooler? What is the purpose of having one? Well, that is a very good question.

We learned in our highschool science class that any compressed fluid will increase in temperature, but because hot air is less dense (meaning less oxygen per unit of volume), in an automotive application, hot air is our enemy. Less oxygen means less power, and lower temperatures reduce the risk of detonation.

This is why intercoolers are used. Like a radiator, an intercooler is a simple heat exchanger for the incoming air charge, the intercooler cools the intake air charge to temperatures closer to ambient, condensing it and allowing you to fit more into each combustion stroke. This also helps in reducing combustion temperatures (bad) and again, helps prevent detonation.

Construction (Part I):

Intercoolers are made in two primary parts. The core and the end-tanks. The core is a collection of fins, each one passing a small part of the air charge by a small part of the cooling medium (outside air in an air/air unit, or water in an air/water unit), who's low temperature and high flow around the core absorb the heat of the air charge. The endtanks simply take the air from the pipe and distributes it to the fins of the core, or the other way around.

The curved pieces of sheet metal that you see on both the inside and outside of intercooler cores, between the fins are called Turbulators. They do much to increase drag, but more over, they increase heat transfer. Their job is to separate the air charge (as well as the cooling medium) into even smaller units, forcing virtually all of the two fluids to do their part in heat exchange. The more turbulators there are, the better the heat exchange, but the greater the flow restriction as well. Therefore, in an application with lots of internal flow area, more turbulators can be reasonably employed, while in an application with less internal flow area the reverse is the case.

What makes a good intercooler?

There are several things to take into consideration when selecting the proper intercooler.

Internal Volume:

While more volume will provide more space for heat transfer, just as overly large piping will result in more lag and less throttle response, a larger intercooler will take more time to pressurize and have the same effect. The goal of designing/selecting the proper intercooler for each application is to find the balance between maximizing the ability to remove heat from the system while minimizing flow restriction and pressure loss. Therefore, depending on your application, bigger is not always better.

Internal Flow

In the design of intercooler cores, there is always a balancing act between too much and not enough drag. If the air charge has a hard time passing through the core and spends more time in it, it will consequently have more time to give up its heat to the cooling medium and cool down. However, if it spends too much time in the core, it will experience large pressure drop, forcing the compressor to do extra work to achieve the same boost level, and thereby reducing efficiency.

Core Size

As the cooling medium passes through the core and absorbs the heat of the air charge it heats up, by the end of the core the efficiency of the heat transfer decreases significantly; so much that the second half of the intercooler only does one half of the work. Increasing depth also increases the air for the passing medium, which can be a considerable issue for air/air intercoolering. If the outside air can more easily pass around the intercooler then through it, then it will do just that, thereby decreasing the amount of heat exchange that can possibly occur. Fortunately, proper positioning of the intercooler and ducting to it can be used to counter this problem, as will be discussed later.

Core Material

Generally speaking, aluminum seems to be the material of choice for all automotive heat exchange, but there are other materials that offer distinct advantages and disadvantages. Silver, for example has a lower coefficient of heat than aluminum, and will support more heat exchange in an otherwise identical situation. The price increase is surprisingly small as well. For air to water cores, copper offers even better heat properties at a fraction of the cost of both aluminum and silver. Unfortunately, due to copper's corrosive properties, it generally isn't appropriate for street use in an air to air situation.

Air to Air or Air to Water?

The main draw of an air/air intercooler is its low cost and simplicity. The outside air offers a virtually limitless supply of cooling medium, and offers excellent efficiency at high speeds. Unfortunately, an air/air intercooler can never lower charge temperatures below ambient air temperature, and in some applications (such as the top mount unit found in WRX's) at lower speeds can function more as an interheating then an intercooler (although this isn't a huge problem, as at low speeds lower charge temperatures generally aren't as important, if important at all).

The Air/water intercooler's biggest performance draw is its ability to lower air charge temperature below ambient air below ambient air temperature. Water can transfer heat 14 times more easily then air. The obvious drawback is the need for a much more complex. For a setup like this, a pre-cooled cooling medium boost be employed, such as an ice water tank. However, such as setup can only be used for a short time, as after the medium absorbs all the heat of the air charge, no further heat exchange can occur. It would also prove to be quite costly.

Construction (Part II):

Core Streamlining


As mentioned earlier, air will travel the path with the least resistance. More drag there is between the fins of a core, leads to less ambient air will flow between them and the less heat exchange. The simplest method of increasing air flow is to increase the internal flow area, but doing so lowers the amount of heat exchange, so alternate means of doing so should be employed first.

Core Flow Direction

Because greater internal flow area will increase the amount of heat transfer over a unit with the same volume but less internal flow area, the orientation of endtanks with respect to the core should always be designed to maximize internal the flow area. However, because of space considerations in our cars, its very difficult to employ an intercooler of this sort in the front bumper.

Fin shape

The two primary fin designs of intercoolers on the market today are bar and plate and round edged extruded. Because it is easier for air to flow around a smooth curve, round edged finds will always provide for better air flow over bar and plate designs.


Placement

The placement of the intercooler plays a huge role in the amount of heat exchange that can take place, but is almost always limited by available space. Front air dams, fender wells and practically anywhere that has consistent access to a large amount of ambient airflow will work, but for Integra purposes the front air dam tends to be the place of choice, both for reasons for success and necessity. Top mount units, such as those used in the WRX and FC RX-7 usually enjoy sufficient airflow at high speeds when paired with a hood scoop and proper ducting for the air to leave, but will always be subject to the high temperatures of the engine bay; it gets the job done, but by no means is it ideal.

Ducting

Proper ducting of ambient air to and away from the core can increase airflow by up to 20%. However, contrary to what common sense might imply an opening larger then the internal flow area of the core is not the ideal size. Instead, the opening should be between 60 and 25% of the core area. This number is both a result of the fact that in a completely open situation, less then one forth of the area going towards the core would flow between its fins, and a smaller inlet tapering open towards the core will produce a low pressure area, sucking in more air and maximizing air flow. An inlet tapering down towards the core will produce a high-pressure area, and consequently hinder airflow towards the core. After leaving the intercooler, the outside air should be given an unrestricted path away from the core, thus allowing cooler air to come and take its place. However, in most Integra front mount applications, the radiator sits behind the intercooler, causing it to both restrict airflow and receive already heated air for cooling. Fortunately, the affect of this on the cooling system is generally acceptably small.


Endtank Design

An ideal endtank will take the air charge from the piping inlet and evenly distribute it among each fin, or vise versa. However, many intercoolers on the market today employ endtanks that unevenly distribute the air, putting more work on one section of the intercooler then the other, and as a result decreasing efficiency. Un-ideal endtank design can be compensated for by using internal baffles to even out the airflow, or simply altering the shape of the endtank itself.




Intercooling Piping

Piping Diameter


Although intercooler piping generally follows the best (if not only) path it can take, there are several factors to take into account. Larger diameter piping will allow for less restriction in a high pressure, high flow application, but will also require more time to fill and hinder throttle response. 2.25" outer-diameter piping tends to be the size of choice for low/mid boost street Honda applications, while 2.5" piping is more appropriate for high boost race applications.


Piping Material

Although there are limitless possible materials to construct intercooler piping out off (they've got carbon fiber intakes these days…), the cost and performance effective material is hands down aluminized steel. Cheap, common and easy to work with, it can quickly be fabricated to whatever shapes are necessary. The only drawback to aluminized steel is its heavy weight when compared to aluminum. Unfortunately, aluminum can easily cost over three times as much as aluminized steel, but fortunately, a full set of aluminized steel intercooler piping only weighs about 15-20 pounds. Due to the high flow velocity of the air charge and the relatively low surface area of a simple pipe (when compared to that of an intercooler core), heat soak from the engine bay is generally unimportant. Insulating wrap, chrome plating, ceramic coating or different piping materials can all be used to reduce it further, but for virtually any street application the gain is power doesn't even come close to validating the effort.


Connector Material
Rubber and Silicone are the two most common and readily available base materials for piping connectors. While silicone by far offers the best heat resistance (and therefore the greatest ability to hold the piping together under the high temperatures of the engine bay), many blends of rubber exist, some being better then others.


Beading

Piping blow off under boost can be a huge problem (not to mention embarrassment) if not prevented. Pressing or welding a bead around the edge of each pipe will provide the piping connectors with something to hold on to, and in most cases eliminate the problem altogether. However, piping connectors will always be the weak link in the system, and wherever possible (with easy removal in mind) pipes should be bent as one piece or welded together.

Conclusion

Intercooling is a big part of a turbocharged air-induction system. Lower air charge temperatures produce more power per psi and a larger safety margin of detonation resistance. Because of this, boost levels can be safely increased by 3-4psi, increasing power output that much more, therefore proper intercooler design should aim for the least possible pressure drop and the highest possible efficiency of heat exchange.

Hope that this will help people who are shopping for intercoolers, or doing research in general.


A lot of this information was taken from John at swift-performance.com, so big thanks to him.

I also wouldlike to think Initial Danial on another forum for posting this information as well



97 240 - SR Power - 400whp

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post #2 of 10 Old 10-23-2005, 10:58 PM
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Good stuff. Definitely a "must read" post

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post #3 of 10 Old 10-24-2005, 12:47 AM
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good read! *two thumbs up*
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post #4 of 10 Old 10-24-2005, 01:44 PM Thread Starter
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I'm gonna spend some time tonight and get some pics for this to make it even more interactive

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post #5 of 10 Old 10-25-2005, 04:23 AM
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lol, you really go outta your way, i think the reading part is more fundamental, if you're illiterate or have ADD you shouldn't be readin forums anyhow so i think this is perfectly fine Ace, again
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post #6 of 10 Old 10-01-2006, 08:20 PM
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wow again I know everthing there is to know about intercoolers.

I'm definitely going to print this one out
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post #7 of 10 Old 09-04-2007, 04:16 AM
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thanks
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post #8 of 10 Old 10-27-2007, 12:54 AM
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Good reas men... Approve!!!!
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post #9 of 10 Old 12-04-2008, 05:31 AM
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that does help so good job man.
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post #10 of 10 Old 02-15-2009, 09:05 PM
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sorry to bring up a semi old post, even tho the write up is awesome, is there a mathematical formula to determine the correct size intercooler? what about the mounting angle? I've heard people say that straight vertical is ok, but at the same time ive heard mounting the intercooler at a slight angel increases drag allowing better cooling. Anyone have any thoughts or input?

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