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CTR3893S-6767
Reverse Rotation

Horsepower 1000

Displacement 1.5L - 6.0L

PATENTED OIL-LESS WATER COOLED 3.0

Part # 3893002-SR

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Reverse rotation turbochargers are a mirror image of conventional rotation turbos and allow for symmetry in V-configuration engine twin turbo setups. Symmetric turbos also allow for ease of intercooler, charge pipe, and exhaust fabrication! Reverse rotation turbos aren’t limited to twin turbo application’s, they could provide the clearance needed for inline engine configurations.

Lubrication is essential for turbochargers which rotate at extremely high speeds. The use of engine oil to lubricate turbocharger bearing systems has long been the standard, but not without its limitations and inconveniences. Oil lubricated systems offer limited mounting options where oil must be gravity fed back into the engine unless incorporating expensive and complicated scavenging systems. Oil lubricated systems are also susceptible to contaminants from engine wear and are susceptible to leaking and smoking. These factors served as motivation to remove the use of engine oil from turbocharger bearing systems, thereby eliminating the problems associated. Comp Turbo's innovative design and technology led to the development and introduction of the world's first production oil-less water-cooled turbocharger!

The patented CTR Oil-Less Turbochargers employ a version of the Triplex Ceramic triple ball bearing system where bearings are lubricated by a proprietary high-quality non-channeling grease. The bearing housing incorporates a water jacket for cooling, and a Zerk fitting for easy servicing. Comp Turbo ball bearing turbochargers feature a patented triple ball bearing design boasting a 99% mechanical efficiency! Resulting in a faster transient response over the industry standard dual ball bearing system due to minimized friction losses. Dramatically improving response times and maximizing power output! Our patented Triplex Ceramic bearing system is housed within a billet aluminum cartridge making our turbochargers an average of 5 to 12 pounds lighter than others! Our complete line of turbochargers is proudly made in the USA and feature our latest R-Line technology! Consisting of the CTR 7/14 veined billet slim hub extended tip compressor wheel and high efficiency CTR slim hub high flow turbine wheel, our most advanced rotor technology yet!

FEATURES

Titanium Bullet Nose

99% Mechanical Efficiency

Fully Rebuildable/Upgradeable

Anti-Surge Compressor Housing

Billet Aluminum Bearing Housing

Can Be Mounted In Any Orientation

Inconel 713C 10 Bladed Turbine Wheel

Patented TRIPLEX CERAMIC™ Ball Bearing Oil-Less System

NEW 7/14 Vane Billet Slim Hub Extended Tip Compressor Wheel

UPGRADE OPTIONS

Anodized Bearing Housing

Anodized Compressor Wheels

Polished Compressor Housing

Ceramic Coated Turbine Housing

Powder Coated Compressor Housing

MAINTENANCE VIDEO

CTR Compressor Wheel Technology

The R-line of compressor wheels are 7-14 vaned and embody the latest in compressor design technology.  They feature a minimum diameter hub to maximize intake airflow and an extended tip design for increased efficiency at higher pressure ratios. The R-line design features, including maximum inducer diameters, produce higher boost pressures at high engine speeds and allow increases in engine HP output of up to 15%. The R-line of advanced design compressor wheels is now available on our complete line of CT turbochargers.

CTR High Flow Turbine Technology

The CTR Turbine wheels are 25% lower inertia leading to faster rotor acceleration. The slim hub and thin blade design make this wheel unique while the design feature maximizes the flow capacity, increasing it  by 30% more than the prior GT style Turbine wheel. The Comp Turbo CTR high flow turbine wheels have minimal leaving velocity due to a longer surface blade length, thus leaving losses are minimized.  Which leads to higher turbine efficiency and greater flow range than available turbine wheels in the industry.  CTR turbine wheels are designed where high exhaust flow capability is required and have minimal leaving gas velocity that increases turbine efficiency.

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