Chapter 29-Fixed Geometry and Wastegated Turbochargers
compressor wheel
a centrifugal-type air pump attached to the turbine wheel. The compressor wheel uses centrifugal force to compress air
turbo lag
a delay between driver demand for power and the point when the engine responds with power proportional to driver demand
single sequential turbocharger (SST)
a turbocharger design that uses a single turbine wheel and two compressor wheels. Together the compressor wheels supply a greater volume of air to the intake manifold
variable geometry turbocharger (VGT)
a turbocharger with the capability of changing boost pressure independent of engine speed and load; also known as the variable nozzle turbocharger (VNT) and variable vane turbocharger (VVT).
asymmetrical turbocharger
a turbocharger with volutes of two different sizes. Asymmetrical turbochargers are used by Detroit DD series engines
fixed geometry turbocharger
a turbocharger without boost pressure controls; the name is derived from the fact the housing and components have unchanged dimensions
supercharger
an engine that pressurizes the air intake system above atmospheric pressure
naturally aspirated
an engine that uses only atmospheric pressure and not pressurized air to charge the cylinders with air
wastegate
an exhaust bypass valve in the turbine housing that allows exhaust gases to bypass the turbine and directly enter the exhaust pipe, thus "wasting" some of the exhaust energy.
transient emissions
emissions produced temporarily when the engine load or speed is increased, such as when accelerating or upshifting gears
boost pressure normalization
the feature of a turbocharger that maintains boost pressure even as the engine climbs to higher altitudes with low air density
compressor housing
the housing that encloses the compressor wheel
A/R ratio
the ratio between the area (A) of either the compressor or turbine inlets to the radius (R) of the housing
parallel turbocharger
the use of two turbochargers that share the exhaust energy from an engines from an engine's exhaust manifold. The output of both turbochargers is connected directly to the intake manifold of the engine to increase airflow into the engine
series turbocharging
using two differently sized turbochargers where the compressor outlet is connected to the inlet of a second compressor
