New Products | CorkSport Mazda Performance Blog

August 31, 2009October 25, 2009

Cold Air Induction Box

CorkSport is proud to announce that we are expanding our Cold Air Induction Box product line to include an Air Box for the COBB SF Intake system as well as our current development of cold air boxes for the 2010 Mazdaspeed3 and 2010 Mazda3.

In our testing of this product we wanted to define:

Where the cold and hot air fronts exist in the engine compartment and what differential can be expected between these areas.

Where high and low pressure areas exist which direct requirements for sealing off areas to ensure the coldest air temperatures into the filter.

To achieve these results, we determined that extensive pressure drop testing under dynamic conditions was not possible while delivering a box that retails under $100. A well planned design of experiment which measured temperatures in the engine compartment, airbox and surrounding areas would give us not only the hard numbers we needed to show results, but also some intuition as to where the various pressure zones exist and how that effects movement of hot and cold air in the vicinity of the filter. What we found is that the various pressure zones in the engine compartment can create barriers preventing the intake from drawing hot air.

Our testing utilized a MSD DashHawk OBD2 Datalogging system and an Innovate TC-4 Four Channel Thermocouple Logger to measure Inlet Air Temperatures, Boost Air Temperatures, Ambient Air Temperature and two channels of thermocouple inside the box and directly outside the box in the hot engine compartment. The ambient air temperature on this day was about 64F. Earlier in the day we tested the short ram intake without our box and found intake air temps were 2-8 degrees lower than the engine compartment temperature.

Testing these variables on our cold air box design we saw a huge benefit – over 30 degree difference between the engine compartment and the interior of the box. By time of this testing, the engine compartment had a chance to heat soak and the hot air in the engine compartment 10-15 degrees higher. Despite this increase in temperature, our average temperature differential was now in the 25-28 degree range and inlet air temperatures were down 8-12 degrees dependent on volume of airflow past the sensor – obviously in traffic you’re going to get some level of heatsoak in the inlet system, MAF Housing, etc. – but that cools off quickly when 64 degree ambient air temperatures blast past at the rate of an office cubicle of volume per minute.

Some may ask, why is your box not enclosed or better sealed within the engine compartment? In the course of our testing seal off surfaces, we found areas – such as the gap under the box – are either a source of cool air or have a pressure effect that prevents hot air from entering into them. Some of these, such as the seams on the box, were beneficial to seal off, some provide relatively cool air, but others were completely inconclusive. Bottom line, there are a number of areas which may appear to allow hot air into the box, but testing proved otherwise.

The end result is a series of boxes which use a overhanging lid with seal strip along the mating surface, silicone seal at the filter port and contoured front edges which align with the headlight assembly. These systems promote filter temperatures roughly equivalent to ambient air temperature and 8-12 degree inlet air temperatures drops compared to similar intake systems without the box. Note: As we did not test at all possible outside air temperatures, extremely hot or extremely cold ambient temperatures may show some variation from these results, but the effects should be minimal.

If you have any questions or suggestions of further tests or concerns you may have with the CorkSport Power Series Intake System or CorkSport Cold Air Induction Systems, feel free to post comments to this blog so we may update the details and content.

– Jason

August 3, 2009January 30, 2019

Catalysts for All!

Now I know what you may be thinking – WHAT? We don’t need no steenking catalysts. But ya see, that’s the rub – those track days at the ‘ring are lots of fun, but you’re not fooling anyone when the people in the lunch line at Laguna Seca can smell your exhaust. I’ll be the first to say that catalysts serve a great purpose and beyond the evils of over-restrictive cats on stock vehicles, can be a great addition to any performance vehicle.

At CorkSport we have been listening to you, our customers, and there seems to be an interest to have the performance of a racepipe without the foul, eye-scorching smell of fuel every time you cold start the vehicle. Well, you’re in luck – we’ve recently found a source for high quality metallic substrate catalysts in a compact yet high flowing 410 stainless steel package and we plan on offering a range of products that provide these catalysts as a configurable option with our current line of racepipes.

Catalysts: How they work and their failure modes.

A catalytic converter is a device resembles a muffler or resonator – basically an enlarged section of your exhaust system that has a honeycomb structure held inside of it. The honeycomb is then coated with a substrate that creates a chemical reaction based on heat and any unburnt fuel in your exhaust system. Anyone who has used a propane space heater – the kind that glow and don’t really give off any tangible flame – has seen a catalyst at work. Substrate and brick/insert design is relatively straightforward – the more surface area you have, the more efficient the catalyst is at burning unburnt fuel. In the search for more surface area, the density of the honeycomb increases – as does restriction of the system.

This honeycomb comes in two forms – a metallic stainless foil version and a ceramic version. Based on the manufacturing process, the ceramic version must be retained in the canister with a fiberglass or vermiculite packing material around the circumference of the ceramic ‘brick’. In rotary and turbocharged applications, this material often deteriorates from excess heat and pressure allowing the ceramic substrate to rotate and/or crack.

Our catalysts

Our catalysts utilize a 200 cell metallic substrate design and have the honeycomb material all the way to the wall of the canister without any additional packing material that may deteriorate. The metallic spiral is held in place mechanically from either end to prevent movement. The canisters and tubing are made of 410 Stainless Steel and all carry a 5 year manufacturers warranty.

New products

To start with we will be offering the RX-8 Power Series Racepipe in a single resonator/single 65mm catalyst configuration (as well as a single or dual resonator configuration). We’re in the process of doing the first production run on these and hope to have them out in the next two or three weeks.

The next product we will be working with is the Mazdaspeed3 Racepipe with 80mm high flow catalyst, this should be available in the next month in production quantities.

Finally, we are also working on Mazdaspeed6 Racepipe with 80mm high flow catalyst.

Drop me an email if you’re interested in getting in on these products hot off the mandrel – we’ll have a handful of pre-tested prototypes and then full production runs of all of these products within the coming months.

– Jason

July 17, 2009October 24, 2023

First Look: RX8 – Power Series Dual-Resonated Racepipe

The last week has been a lot of fun here at Corksport. We have been working on developing a cure for High Decibel Situational Tourettes Syndrome, which effects a certain percentage of enthusiasts who run a non resonated racepipe in their RX-8.

Our latest solution is a dual resonated Power Series Racepipe for the ’04-’10 RX-8. Incorporating a 140mm primary resonator and a 100mm secondary resonator with 61mm exhaust tubing, the resonated racepipe improves exhaust flow dramatically while keeping the decibels at a level reasonable enough to avoid spontaneous profanity from drivers and spectators alike. Think your racepipe is too loud? Check out this video clip of the Power Series Dual Resonated Racepipe and with Power Series Cat-Back Exhaust on our ’04 RX-8 and let us know what you think:

Like all of our Power Series exhaust products, the Dual Resonated Racepipe for the RX-8 incorporates only the highest quality materials and manufacturing methods. Featuring T304 stainless mandrel bent tubing, stainless oxygen sensor fittings (one for the stock oxygen sensor and a secondary unit for the use of a Wideband O2 monitoring & datalogging system), T304 resonators and flanges. All connections are TIG welded with 308 stainless rod to ensure good weld penetration and attractive finish on the weld bead.
We’re hoping to get a handful of these systems out on the street in the next month and we’ll keep you posted as soon as they’re available to the public.

We’re also entertaining the possibility of incorporating a high flow catalyst into the system to keep emissions to a minimum. This will be a 108mm spun metallic substrate catalyst replacing the secondary resonator. If this is something that would interest you, let me know by dropping me an email.

Next week: Short Ram Intake Cold Air Box Performance Results & Analysis for the Mazdaspeed 3 and 6.

– Jason