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Compatible for BMW Chra

The turbocharger cartridge (Centre Housing Rotating Assembly) is essentially a turbocharger minus the compressor and turbine housings. CHRA incorporates the complete rotating assembly, shaft and wheel, bearing housing and compressor wheel.Turbo cartridges prevent oil and coolant from entering the intake or exhaust.

Hanging a Maxpeedingrods Turbo Cartridge on a small engine allows it to breathe big, increasing power output up to 320HP. Our compatible for BMW CHRA is the ideal replacement component option for your turbo. Compatible for BMW e87, compatible for BMW e46, compatible for BMW 530d, compatible for BMW e60, compatible for BMW x5 for your selection.

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New Turbo Charger Cartridge compatible for Mini Cooper S And Clubman S Models 53039880118

(3)
$95.00

Compatible for BMW 530D E60 M57N 218PS for GT2260V 725364 Hybrid Turbocharger CHRA CARTRIDGE

(4)
$191.00

Turbocharger Cartridge Chra 2.0L compatible for BMW 520d E60 E61 X3 E83 2004-

(0)
$112.00
-18%

Compatible for BMW 530d E60 E61 X5 E53 742730 11657790308 for GT2260V Turbo CHRA Cartridge New

(0)
$120.00 $146.00
-7%

Turbo Cartridge Chra For 49135-05895 TF035HL compatible for BMW 120D 320D 520D X3 2.0D 177HP

(0)
$195.00 $210.00

Turbo Cartridge chra compatible for BMW 3 Series E46 330d/330xd 2.5L M57D30 1999-2006 for GT2256V Replacement

(0)
$187.00

Compatible for BMW 1 Series E87 2.0L N47D20 2004-2011 TF035HL Replacement Turbo Cartridge

(3)
$202.00

For GT1749V Turbo Cartridge Core compatible for BMW 01- 320D E46 X3 E83 2.0D 150HP 110KW M47TU

(1)
$173.00

Turbocharger Core Chra Cartridge compatible for BMW 320D E46 X3 2.0 E83N 2.0 for GT1749V 750431

(1)
$165.00

Compatible for BMW X5 2.9L M57TU M57N E53 3.0 D for GT2260V Turbo core Cartridge CHRA

(0)
$121.00

Compatible for BMW 318D 320D 520D E46 E39 136 HP for GT1549V Turbocharger Cartridge CHRA 700447

(3)
$121.00

Turbo Catridge compatible for BMW 530 D 730 D 3.0L D M57 D30 6 Zyl/M57 for GT2556V 454191 Replacement

(0)
$189.00
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  • What is A Turbocharger?

    A turbocharger(turbo)is a turbine-driven forced induction device that increases an internal combustion engine’s efficiency and power output by forcing extra air into the combustion chamber. When a turbocharger brings more air into the chamber, it gets mixed with more fuel, yielding more power as a result. In reality, the turbo doesn’t really get “extra air” into the engine, it actually compresses the air, which means there are more molecules being packed into the same space.

  • How Does a Turbocharger Work?

    The most basic observation we can make about a turbocharger is that it is made up of two main sections: the turbine and the compressor.The turbine consists of the turbine wheel and the turbine housing. As your engine is running it creates exhaust gasses, these exhaust gasses would otherwise be wasted, but on a turbocharged engine, these hot and fast-moving gasses are used to drive the turbine wheel. On the other side, it is the compressor. The compressor also consists of two parts: the compressor wheeland the compressor housing. The compressor wheel has a fixed connection to the turbine wheel via a common shaft. When you spin the turbine wheel, you also spin the compressor wheel. The compressor wheel shape is designed to suck in air into the turbocharger. It’s called the compressor wheel because other than sucking the air in, the compressor wheel plays an important part in compressing the air, after which it sends the air through the compressor housing into your engine intake manifold and your combustion chamber. The compressed air is pushed into the engine, allowing the engine to burn more fuel to produce more power.

  • How to choose the right turbocharger?

    When choosing a high performance turbocharger, first determine your horsepower goals. Each turbocharger has a corresponding horsepower and engine displacement. If a turbocharger is too large for your engine, you will have a lot of turbo lag, and if a turbocharger is too small for your engine, you may not reach your horsepower goal. When selecting compressor and turbine housings, choose the one that will pump the most air into the cylinders, but will not raise the temperature above that specified by the complex laws of thermodynamics. As size increases, efficiency decreases and heat rises. As efficiency decreases, air density decreases, and in turn, the amount of air available for the combustion chamber decreases. The things to be concerned about are horsepower and airflow. Lower boost pressure means that whatever turbo you use will produce less heat and work less hard, but all of this is of little consequence to your engine, which will decide whether to blow itself to pieces or produce a lot of power based on cylinder pressure rather than boost.