• AWE Tuning Audi S4 Sedan 3.0T B8.5 ColdFront Coolant Pump 4710-11026

    AWE Tuning 4710-11026 | Audi S4 Sedan 3.0T B8.5 ColdFront Coolant Pump; 2013-2016
    AWE Tuning 4710-11026 | Audi S4 Sedan 3.0T B8.5 ColdFront Coolant Pump; 2013-2016 Alternate Image 1

    * Images may be a representation and may not reflect the actual product.

    Have a question about this part?

    Contact Us


    • Log Into your account for special savings.
    • $846.55
      FREE Shipping
      (Lower 48 States)

      • Shop More:
      • S4 Water Pumps
      • Shop Other:
      • S4 Parts
      • BRAND:
      • AWE Tuning
      • Fitment Years:
      • 2013-2016
      • MODEL TRIM:
      • Sedan 3.0T Quattro S-Tronic
      • Part Number:
      • 4710-11026
      • CATALOG #:
      • 00905277

      IN STOCK

      Hurry, Only 1 Left at this price!
      * Ships within 24hrs

    • QUANTITY:
    • + Add to Wish List

Product Description

AWE Tuning Audi S4 Sedan 3.0T B8.5 ColdFront Coolant Pump, AWE Tuning Audi S5 Cabriolet 3.0T B8.5 ColdFront Coolant Pump, AWE Tuning Audi S5 Coupe 3.0T B8.5 ColdFront Coolant Pump

AWE Tuning Audi S4 Sedan 3.0T B8.5 ColdFront Coolant Pump, AWE Tuning Audi S5 Cabriolet 3.0T B8.5 ColdFront Coolant Pump, AWE Tuning Audi S5 Coupe 3.0T B8.5 ColdFront Coolant Pump

AWE Tuning Audi B8.5 ColdFront Coolant Pump

Group ColdFront_System Description

Presenting the AWE Tuning Audi 3.0T ColdFrontSystem. Designed in house at AWE Tuning, our ColdFrontproduct line is the solution for consistent and reliable performance for modified vehicles looking for maximum power and security. AWE Tuning ColdFrontproducts are available in the following configurations:

  • Package: The full ColdFrontproduct suite, featuring the AWE Tuning ColdFrontHeat Exchanger, ColdFrontReservoir, and ColdFrontCoolant Pump.
  • Package: The ColdFrontHeat Exchanger and ColdFrontReservoir
  • The ColdFrontHeat Exchanger alone
  • The ColdFrontReservoir alone
  • The ColdFrontCoolant Pump alone
  • The add-on ColdFrontProtection Screen

The ColdFrontHeat Exchanger

The AWE Tuning ColdFrontHeat Exchanger was developed to reduce high air intake temperatures found in supercharged engines. Designed and conceptualized in house at AWE Tuning, the AWE Tuning ColdFrontHeat Exchanger should be a mandate for supercharged 3.0T engines looking to keep things consistent and reliable.

The AWE Tuning ColdFrontHeat Exchanger is a direct replacement for the factory heat exchanger, fitting neatly behind the front bumper and grill assemblies. This product was specifically designed by the engineers at AWE Tuning to include a unique drain plug and bleed screw, allowing the system to be bled without the need for external tools. In other words, all the benefits of a cooling upgrade with none of the fitment downsides.

Why a heat exchanger?

Insufficiently cooled air entering your vehicle's engine will rob power and performance. Modified vehicles, notably those flashed and/or equipped with a modified supercharger pulley like the AWE Tuning Stage 2 Performance Pulley, are particularly susceptible to higher intake air temperatures. Enter the AWE Tuning ColdFrontHeat Exchanger: Proven to maintain consistent intake air temperatures and power, even under the most demanding of conditions.

How it works

The AWE Tuning ColdFrontHeat Exchanger utilizes a larger frontal area, resulting in in cooler supercharger coolant temperatures, leading to better air intake temperatures and consistent, reliable power.

Partner products:

The AWE Tuning ColdFrontHeat Exchanger can be used either in combination with other members of the AWE Tuning ColdFrontproduct line, or it can be used as a stand-alone upgrade.

The ColdFrontReservoir

The AWE Tuning ColdFrontReservoir is CNC Machined from 6061 Billet Aluminum and plumbed directly into the heat exchanger coolant system to increase supercharger coolant capacity. The increase in coolant capacity leads to lower coolant temperatures, in turn supporting lower air intake temperatures. To further reduce coolant temperatures, the AWE Tuning ColdFrontReservoir incorporates a true flow through design which acts to reduce coolant temperature as it flows through the unit. The AWE Tuning ColdFrontReservoir features an anodized aluminum cap laser etched with the AWE Tuning logo, ensuring that checking the coolant level is a breeze.

Partner products:

The AWE Tuning ColdFrontReservoir can be used either in combination with other members of the AWE Tuning ColdFrontproduct line, or can be used with the factory heat exchanger.

The ColdFrontCoolant Pump

The AWE Tuning ColdFrontCoolant Pump is the final member of the ColdFrontfamily. Manufactured by the cooling-system wizards at Meziere Enterprises, who have nearly three decades worth of experience in engineering and manufacturing performance cooling system components, the ColdFrontCoolant Pump replaces the stock heat exchanger pump - and out-performs it to the tune of an impressive 100% gain in flow-rate over the factory pump. During excessive dynamometer torture testing on our in house 3.0T, we recorded an additional 8% decrease in intake air temperatures when the pump was combined with the ColdFrontHeat Exchanger and ColdFrontReservoir. Cool.

Partner products:

While the ColdFrontCoolant Pump may be used in conjunction with the stock heat exchanger, it cannot be used without the ColdFrontReservoir.

The ColdFrontProtection Screen

The AWE Tuning ColdFrontProtection Screen is the solution for guarding the ColdFrontHeat Exchanger from road debris. The ColdFrontProtection Screen guards the full face of the ColdFrontHeat Exchanger with durable stainless wire mesh and is surrounded by a stainless steel frame, protecting it against any small objects that may find their way past the vehicle's grill. This keeps the heat exchanger fins free of damage, allowing them to perform with maximum efficiency.

ColdFrontDrive Select Cooler (for B8 S4s with Audi Drive Select)

For 2010-2012 B8 S4s with Audi Drive Select, you're going to need this. The factory Audi Drive Select Cooler snakes through the area where the ColdFrontHeat Exchanger lives. But we fixed that. Our ColdFrontAudi Drive Select Cooler places the new cooler in a safe new location beneath the crash bar.

Please note, AWE Tuning ColdFrontSystems are for racing use only.

Search Terms: 4710-11020, 4510-11032, 4710-11018, 4710-11016, 4710-11026, 4710-11030, 4710-11034, 4710-11032, 4710-11048

The finest cooling system on the market:
  • Available as ColdFront Packages, or individually as the ColdFront Heat Exchanger, ColdFront Reservoir, or ColdFront Coolant Pump
  • The proven solution for reducing intake air temperature
  • 100% increase in coolant flow rate when equipped with optional ColdFront Coolant Pump
  • Lowers Intake Air Temperatures (IATs) by up to 15F
  • Reduces coolant temperatures by a maximum of 24F
  • Maintains consistent power in extreme conditions
  • Perfect OEM fitment for easy installation
  • Only Heat Exchanger on the market with a drain plug and bleed screw to ensure no air is trapped while adding coolant
  • Designed in house at AWE Tuning
  • AWE Tuning ColdFront Protection Screen also available
  • Fits Audi Drive Select cars with addition of AWE Tuning Drive Select Cooler
  • Perfect Fitment - Guaranteed
Below are graphs of the performance testing done on the ColdFront System. All tests were performed on the AWE Tuning Mustang MD-500-SE AWD dyno using a 6-speed B8 Audi S4 equipped with G.I.A.C. Stage 2 Performance Pulley Software on 93 octane pump gas in a controlled ambient temperature of 90F.

Above is a graph showing the supercharger coolant temperature difference of the coolant before entering vs. after exiting the ColdFront Heat Exchanger. The red line represents the pre heat exchanger coolant temperature. The green line represents the post heat exchanger coolant temperature. The top graph shows the temperature difference the stock heat exchanger is capable of producing, the middle graph shows the temperature difference the ColdFront Heat Exchanger is capable of producing, and the third graphs show the temperature difference the ColdFront Heat Exchanger and Reservoir are capable of producing. It can be seen that the stock heat exchanger struggles to keep the supercharger coolant temperatures low, especially at high RPM, yielding a maximum temperature drop of 8.6F @ 4760 RPM. In contrast, the ColdFront Heat Exchanger produced a maximum temperature drop of 13.7F @ 6960 RPM, and 14.5F @ 7100 RPM when adding the ColdFront Reservoir to complete the ColdFront System. This results in a total maximum temperature drop of 24F when compared to the stock unit. 

Above is a graph showing the intake air temperatures when performing back to back pulls on our dyno. (Eight in total using 30 sec. intervals). The red line represents the stock heat exchanger, the green line represents the ColdFront Heat Exchanger, and the blueline represents the ColdFront Heat Exchanger and Reservoir.  It can be seen that the stock unit suffers greatly from heat soak. During the eighth pull the intake air temperatures had climbed upward of 180F at redline. In contrast, the larger ColdFront Heat Exchanger produces a maximum air intake temperature of slightly over 165F after eight pulls. Adding the optional reservoir to complete the ColdFront System results in a maximum air intake temperature of just under 165F after the eighth pull, with lower temperatures throughout the first seven pulls as well. 

Above is a graph representing the horsepower produced when performing back to back pulls on our Mustang dyno (Four runs in total). The green line represents the wheel horsepower during the first dyno run. The red line represents the wheel horsepower during the fourth dyno run.   It can be seen that the stock heat exchanger suffered from heat soak, resulting in a power loss of 12 WHP @ 6900 RPM. In comparison, the ColdFront Heat Exchanger had a power loss of just 4 WHP @6900 RPM. When adding the optional AWE Tuning ColdFront Coolant Reservoir to the ColdFront Heat Exchanger, there was no power loss at all even multiple back to back dyno pulls.

Below are graphs of the performance testing done with the ColdFront Coolant Pump installed. All tests were performed on the AWE Tuning Mustang MD-500-SE AWD dyno using a 7-speed DSG B8.5 Audi S5 equipped with G.I.A.C. Stage 2 Performance Pulley Software on 93 octane pump gas in a controlled ambient temperature of 85°F.

Above is a graph showing the supercharger coolant temperature difference of the coolant before entering vs. after exiting the ColdFront Heat Exchanger. The red line represents the pre heat exchanger coolant temperature. The green line represents the post heat exchanger coolant temperature. The top graph shows the temperature difference the stock heat exchanger is capable of producing, the middle graph shows the temperature difference the ColdFront Heat Exchanger is capable of producing, and the third graph show the temperature difference the full ColdFront package, with the ColdFront Coolant Pump, is capable of producing.It can be seen that by simply replacing the stock coolant pump with the ColdFront Coolant Pump, coolant temps are decreased by a maximum of 6.2°F @ 4169 RPM.

Above is a graph showing the intake air temperatures when performing back to back pulls on our dyno. The red line represents IATs recorded using the stock heat exchanger coolant pump, and the green line represents IATs recorded with the ColdFront Coolant Pump.It can be seen that the ColdFront Coolant Pump, due to its increased flow capacity, yields not only more stable IATs, but also cooler IATs, with the IAT temperature peaking at 165°F after eight pulls. The stock coolant pump, in comparison, yielded IATs of more than 175°F.

Above is a graph representing the horsepower produced when performing back to back pulls on our Mustang dyno (Four runs in total). The green line represents the wheel horsepower during the first dyno run. The red line represents the wheel horsepower during the fourth dyno run. It can be seen that the addition of the ColdFront Coolant Pump to the ColdFront Heat Exchanger and ColdFront Reservoir helps maintain power after repeated full-throttle acceleration runs, reducing power losses from 23 WHP @ 6900 RPM to just 10 WHP @ 6900 RPM.

Why is the factory heat exchanger not enough?

Heat soak is an issue that plagues all forced induction vehicles. Hot intake air leads to decreased performance, and becomes noticeable with more aggressive driving. Modifying the 3.0T motor to produce increased boost pressure either via software, a smaller pulley, or both, will result in even higher air temperatures. The stock heat exchanger simply becomes overwhelmed and cannot sufficiently cool the charge air. Recovery times for intake air temperatures to come back down are also increased due to the increased heat. The factory heat exchanger is simply too small to operate well enough during performance driving, especially when the vehicle is running increased boost pressure.

Download Installation Instructions: Installation Instructions for the AWE Tuning ColdFrontSystem

Download Installation Instructions: Installation Instructions for the AWE Tuning ColdFrontCoolant Pump

Fitment: Audi S5 Coupe 3.0T Quattro Manual

AWE Tuning Audi S4 Sedan 3.0T B8.5 ColdFront Coolant Pump, AWE Tuning Audi S5 Cabriolet 3.0T B8.5 ColdFront Coolant Pump, AWE Tuning Audi S5 Coupe 3.0T B8.5 ColdFront Coolant Pump

AWE Tuning Exhaust had its start in 1991 and has the facilities needed to do everything in house assuring you of a first rate product. Their unique products like the SWITCHPATH AWE Exhaust System for your Porsche is designed to direct exhaust gasses away from the side mufflers giving you that impressive AWE exhaust touring tone only slightly louder and then with the “SWITCHPATH” valve open your exhaust gasses are directed away from the side muffler and you get that more aggressive sound.

IMAGES: Images may be a representation and may not reflect the actual product.

AWE Tuning Warranty Policy

Start at the original place of purchase. 100% of claims start with the original place of purchase, and all refunds, if granted, are through the original place of purchase. Call them first.

If you remove, we can not approve. If a product issue is discovered after installation, do not remove the product before receiving confirmation of a return approval from the original place of purchase. On-car information can often lead to diagnosis and action plans; AWE requires a chance to address in this manner. Post-install products removed prior to return authorization will be denied any warranty claim.

Any alterations or attempts to fix will void the warranty. This includes welding, bending, or any ad-hoc methods that alter the product in any way.

All warranties are for the original owner only. Second owners can purchase replacement components at a discount, directly from AWE or from participating dealers.

Manufacturer defect is defined as any characteristic of the product which hinders its usability for the purpose for which it was designed and manufactured. The warranty against manufacturer defects doesn’t cover any cosmetic changes, or normal use wear and tear. All warranties cease at a product’s discontinuance. Here’s a quick summary of our products and how long each is covered for manufacturer defects: All AWE brand products. Please note that special order items are not returnable.

All durations start at the time of purchase (we’ll ask for a proof of purchase date):

AWE brand exhausts: Tubing, welding, flex areas: Lifetime

Valves on exhausts: Three-years on mechanical components, one year on valve motors

Electronics / Electronic Components found on any product: One year*

Catalysts: One Year

Tip finish defects (please follow washing instructions prior to contacting support): One year (see Tip Finish below)

Intakes (all components): One year

Filters: One year

Intercoolers: One year

Other: Foilers, accessories, tools, valances, drive train stabilizers, suspension components: One year

Turbo kits/turbochargers: Not covered under warranties, special order item.

In the event of a return, a product must be returned with no signs of abuse, incorrect installation, forced installation, motorsports usage, or product altering whatsoever. Any trace of the aforementioned will result in warranty denial.

AWE's One Year Tip Finish Warranty covers defects on AWE tips for a period of one year from purchase date. Exclusions to the AWE One Year Tip Finish Warranty: (1) Pinhole sized pitting on the inside of tips, which is considered normal wear and tear, and (2) Blemishes or marring of appearance due to weather, road hazards, lack of maintenance (defined in next sentence) or extremes of heat or cold. Thorough periodic cleaning of AWE tips is required as general maintenance, and must be done prior to submitting a warranty claim on tips, as returned tips found to have been dirty (and not defective) will have forfeited any core charges.

Policies

California Residents: Prop 65 WARNING: This product MAY contain chemicals known to the State of California to cause cancer and birth defects or other reproductive harm. Wash hands after handling. For more information, visit www.P65Warnings.ca.gov

California Residents: TIRE WARNING: LMPerformance will not ship Tires to California.

Legal: Some or all of these parts may not comply with Federal, State, Province, and/or Local laws, ordinances, and regulations. Buyer takes all responsibility to ensure that any modifications or upgrades that have done conform to all applicable laws and regulations for road use, especially pertaining to safety and emissions. LMPerformance is not responsible for buyer not complying with Federal, State, Province, and/or Local laws, ordinances, and regulations. This policy shall be in force for all past, current, and future purchases from LMPerformance, Inc. LMPerformance will not ship ANY non-CARB compliant products to California where California requires products to be CARB certified such as Catalytic Converters and Induction Kits.

FREE SHIPPING: Please note FREE Shipping refers to shipping within the contiguous continental US only. All other locations extra. Some items that require Truck Freight Delivery will require a Truck Freight surcharge. This surcharge is still a discounted shipping amount that is lower then the actual truck freight shipping charge that is charged to LMP. LMP will try to still give the lowest price possible for truck freight items.

IMAGES: Images may be a representation and may not reflect the actual product. Examples would be SPEC stage 3 clutch kits which all use the same photo.

TYPOS: LMPerformance tries to present the best most accurate information on our website. Sometimes we get mistakes in product information sent from vendors such as typos. We can not be responsible for these typos, if you see something that does not look right please let us know before ordering so we can double check for you first. LMPerformance will not pay for typos in any way, monetarily or otherwise.

AWE Tuning 4710-11026 Water Pump Review(s)

Other Popular Parts

Recently Viewed