acquisition The XB Series Two was last run in mass in 1995; with but a few teams running
the engine in 1996. It is a 2.65 liter V-8 burning methanol and producing
in excess of 750 horsepower at 12,000 RPM and 45" of boost. For reference,
boost is measured in inches of mercury absolute pressure. Standard
atmospheric pressure is 30" (14.7 psi) and thus 45" equates to 7.35 psi of
boost over ambient pressure. Although they were run to 13,200 RPM in their day, we limit
them to 12,000 RPM to reduce stress on the rotating assembly, reduce damaging
vibration and generally increase service life.
Performance: The Series Two engine
produced in excess of 283 horsepower per liter of displacement. For
comparison, a very well built normally aspirated Hayabusa engine with nearly the
same displacement per cylinder produces 188 horsepower per liter on gasoline.
I have included a picture of a
"Busa" piston placed on an XB head as a
comparison of the difference in bore (with a corresponding difference in
stroke). There is also a
picture of their respective intake and exhaust
valves in addition to a
picture of
their respective heads. In the end and side views of the valves, the
left side is XB while the right is Busa; the top being exhaust.
Construction: The XB, like the DF
before and the XD after, is based on a wet lined alloy block with nicasil
aluminum liners. The pictures below show the intricate nature of the
casting and the quality generated by Coscast. The four overhead cams are driven from the
front of the engine by a spur gear set which drives two chains, one to each
head. Chains are replaced at ten hour intervals when using a 12,000 RPM
limit.
Fuel Control: The fuel control used
on the XB is the same as used on the HB. The XB uses sixteen primary Bosch
Motorsport injectors,
two per cylinder, and four side feed Bosch injectors arranged in a ring,
called the PCI, at the turbo compressor inlet. The sixteen primary
injectors are driven directly by the ECU while the PCI injectors are driven by
the ECU through a separate PCI amplifier. Note: the PCI injectors were
changed from the early XBs to the later XBs, XD, XF, and XFE. See the note
on PCI Injectors for an explanation. Fuel rail pressure is 8 Bar or
approximately 120 psi! Atomization at this pressure is a sight to behold.
The compressor inlet injectors serve to cool the incoming mixture as it is
compressed. Fuel is supplied by a mechanical fuel pump located in the fuel
cell. The pump is driven directly from the XB's right side scavenge pumps
by a couple of inch long square drive quill. The fuel system must be
purged of corrosive methanol after each use. This is done by disconnecting
the feed from the fuel cell and looping the pressure side back to the return.
The engine supply and return is then connected to a separate "pickle" tank that
supplies gasoline under pressure and provides a dump can for returning methanol
from the engine's fuel rail. The ECU can be programmed with a pickle map
that fires the PCI injectors at low rpm while leaning the mixture significantly
from that required running methanol. In practice, I use a separate ECU
programmed with the pickle map. The XD fuel control has a nice feature in
that the Pickle Map can be configured to be one of the settings on the steering
wheel mixture control.
When restarting a pickled engine, the XB fuel rail must be purged prior to
connecting to the fuel cell. The fuel cell is made of natural rubber to
resist Methanol and will not tolerate Gasoline. This is done
simply by connecting the fuel cell's pressure output to the XB's inlet, routing
the XB's outlet to a separate catch can then starting the engine. Once you
have clear methanol entering the catch can, you can kill the engine and connect
the XB's return to the fuel cell. All this is worth the ability to run a
turbocharged engine at these kinds of output without the need for a heavy
intercooler.
The XB services communications via a separate (from the ECU) communication
controller. The box usually sits on the radiator inlet pod and has three
Lemo connectors on it. The ECU communication link is supplied to the
controller which separates and manages communication with the Cosworth
proprietary port and the data acquisition system data feed. The Cosworth
link is used to monitor the ECU and reprogram maps. One leg of the RS-422
data acquisition feed can be connected directly to the Motec dash's RS-232 data
input. See Data Acquisition for more
details.
Service Life: The XB is remarkably
affordable to run in vintage racing when run to 12,000 RPM, 45" of boost and set
to 6% rich. To date, my engine builder has been changing cam chains at ten
hours and performing a refresh at twenty. Ring seal does not deteriorate
appreciably in twenty hours so refresh periods are dictated by service to the
valve train. Springs are replaced at every refresh with valves every
other. Nicholson Mclaren purchased a large number of XBs from Cosworth
along with all of the spares and rights to continue making parts. They
have used the engine for several projects thus ensuring a continuing supply of
refresh spares. I have also had luck sourcing the more expensive parts
(valves, liners, etc.) from original vendors.
Email Questions or
Comments
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XB Block Click to Enlarge |
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XB Block Click to Enlarge |
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XB Block Click to Enlarge |
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XB Head Comparison with Busa Click to Enlarge |
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XB Combustion Chamber with Busa Piston Click to Enlarge |
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XB Combustion Chamber Click to Enlarge |
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XB Exhaust Port Click to Enlarge |
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XB Intake Click to Enlarge |
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XB v. Busa Valves Click to Enlarge |
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XB v. Busa Valves Click to Enlarge |
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Cutting Seats Click to Enlarge |
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Fresh Seats Click to Enlarge |
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XB Before Head Installation
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XB Valve Tappets
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They Do Not Weight Much
Click to Enlarge |
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