Tony DYE / Epicam: Dexpressor --- Revolutionary new engine
technology converts waste heat to rotary work; reduces load 50%

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**Tony DYE**

**Dexpressor**

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**<http://www.businessweekly.co.uk/news/view_article.asp?article_id=11600>
  
28 February 2007**  


**New Engine to Slash 50% Off
Emissions**

**by** **Sam Fountain**

A Cambridgeshire firms new engine technology, reportedly
capable of reducing CO2 emissions by 50 per cent, could become a
commercial reality following a GBP40k award to develop a
prototype.

*Dexpress delivery: Tony Dye, MD of Epicam, shows the
revolutionary dexpressor technology to Peter Howarth of
specialist consultancy Technology Business Development*

![](dye-dxprsr.jpg)

Epicam has broken cover after winning a national competition,
Springboard, set up by Shell to reward the most innovative and
commercially viable ways of reducing CO2 output.

Current engine technology only takes advantage of approximately
20 per cent of the energy potentially made available by burning
fossil fuels, with 30 per cent of the valuable energy being
wasted as heat.

Epicam believes its dexpressor, which harvests this wasted
heat, could improve the efficiency of the engine, thus
decreasing the amount of CO2 released into the atmosphere by up
to 50 per cent.

The dexpressor works on a similar principal to a turbocharger,
harnessing energy associated with the engines exhaust and
translating it into mechanical energy.

But where a turbo uses an impeller inside the exhaust manifold
to drive a pump, Epicams technology collects the waste heat
emitted by the exhaust and uses it to drive a pump-like rotor.

As a combustion engine runs, it produces hot exhaust gases
which leave the engine system via the exhaust pipe. Engineers
regard the heat produced by the engine as low-grade, i.e. not
sufficiently intense to be productive.

The unique technology, currently a computer model pending the
development of a working prototype, accumulates and utilises
this low-grade energy in a closed system, heating water via a
heat exchange coil around the exhaust manifold of the engine.

The water in this system is super-heated to around 370 degC, past
the stage of steam, becoming super-critical water and building
up 1000 bar of pressure. The pressure is used to turn two
rotors, via an innovative pressure retention system, a pair of
low friction rotating devices.

One of these rotors feeds into the crankshaft of the engine,
lending its power to turn the wheels of the car.

It is the method of keeping the high pressure created in the
system and using it to turn the crank that is the secret behind
Epicams invention. The help given to the engine in turning the
crank could translate into being able to reduce the capacity of
the engine by up to 50 per cent; so less capacity equals less
fuel burnt which in turn would create lower carbon dioxide
emissions.

The GBP40k award will now give Epicam the financial capability to
translate its dexpressor idea from a computer model into a
working example of the technology, which the firm expects to
complete in four to six months.

This award is a strong endorsement of Epicams innovative
approach to CO2 reduction and will help the company to fund the
development of a working prototype for demonstration to engine
manufacturers later this year, said Tony Dye, Epicams MD.

The automotive industry is the entry point for the technology,
according to Peter Howarth, who is working with Epicam on its
business strategy. But the technology could also be employed on
a powerplant, or any system similar to an automotive engine
which generates heat, and runs a driveshaft, said Howarth.

The company is extremely hopeful about the potential of the
innovative design, but doesnt yet have any offers from the
automotive industry --- not at this early stage, Howarth said.

![](dxprsrcam.jpg)

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**A ROTARY DEVICE AND A METHOD OF OPERATING A ROTARY DEVICE**
  
**WO2006000797**   
**2006-01-05**

DYE ANTHONY OSBORNE (GB)   
Applicant: EPICAM LTD (GB); DYE ANTHONY OSBORNE (GB)   
Classification: - international: F01C1/12; F01C1/16; F01C1/20;
F01C11/00; F01C1/00; F01C11/00; (IPC1-7): F01C1/12; F01C1/20;
F01C11/00; F01C21/12; F01C21/16; - European: F01C11/00B2;
F01C1/12B; F01C1/16; F01C1/20   
Cited documents:  WO9106747 // US6176695 // EP0116356 //
WO9527844 // DE4325454

**Abstract ---** The invention relates to a rotary device,
comprising: a chamber for receiving a charge of an air/fuel
mixture and for oxidising the fuel by detonation; and a rotary
expander having a transient chamber of variable volume, the
transient chamber being in fluid communication with the
detonation chamber during at least part of a cycle of rotation
of the rotary expander, the rotary expander being arranged to be
driven by expansion of the air/fuel mixture caused by detonation
thereof.

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**AN ENGINE AND AN APPARATUS FOR PROVIDING FORCED ASPIRATION
TO AN ENGINE**   
**EP1753945**   
**2007-02-21**

**Abstract ---** The invention provides an apparatus (20)
for providing forced aspiration to an internai combustion engine
(2). The apparatus comprises a first displacement device (24)
for being driven by exhaust gas from an internai combustion
engine to which the apparatus is in use mounted and, a second
displacement device (22) operable to compress combustion gas for
provision to an engine to which the apparatus is in use mounted.
The first and second displacement devices are coupled such that
when in use the first displacement device (24) is driven and
causes the second displacement device (22) to operate.

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**ROTARY ENGINE**   
**EP1751398**   
**2007-02-14**

**Abstract ---** The present invention relates to a rotary
device, comprising a first rotor rotatabe about a first axis and
having at its periphery at least one recess bounded by a curved
surface; a stator about which the first rotor is arranged for
rotation; a second rotor counter-rotatable to said first rotor
about a second axis, parallel to said first axis, and having at
least one radial lobe bounded by a curved surface; the first and
second rotors being coupled for inter-meshing rotation to
produce a transient chamber of progressively increasing or
decreasing volume defined between said curved recess and lobe
surfaces of said first and second rotors; a housing in which the
rotors are enclosed, said housing having end surfaces abutting
end surfaces of said inter-meshing rotors; and a rotor port
arranged to enable a flow of a gas into or out of said at least
one recess in the recess rotor, the port having dimensions at
least one of which is greater than the distance between the
outermost extent of the stator and the minimum radius of the
recess in the recess rotor.

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**FUEL INJECTION ASSEMBLY**   
**Publication number: WO0233245**   
**2002-04-25**

**Abstract ---** A fuel injection assembly comprising a main
structure (101) for mounting on an internal combustion engine,
the main structure having one or more orifices (115) for
injecting fuel directly into the combustion chamber of the
internal combustion engine, and the main structure also having
mounted thereon charge electrodes (105, 118) positioned to
provide an electric field which passes through the flow of fuel,
for charging fuel particles to improve atomisation. The main
structure also has mounted thereon a spark electrode (104)
adapted to provide a fuel ignition spark for the internal
combustion engine. The main structure of the assembly is adapted
for removable mounting, having a threaded portion (102) adapted
to co-operate with a threaded aperture in the internal
combustion engine, normally adapted to receive a convention
spark plug.

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**Internal combustion engine fuel supply and tuning**   
**GB2149535**   
**1985-06-12**

**Abstract ---** A method for adjusting the fuel:air ratio
supplied to an internal combustion engine comprises measuring
cylinder pressure during each of a sample of engine cycles and
obtaining a measure of the extent of variation of the combustion
process, e.g. the extent of intercycle variation in said
pressure at a corresponding stage in each cycle, comparing the
said measure to a corresponding standard and adjusting the
fuel:air ratio to cause said measure to approach the standard.
Carried out continuously the method may be used for the
management of the fuel supply to an engine. Alternatively, the
method may be used for tuning an engine.

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**Inlet valve assembly for internal combustion engines**   
**US4428336**   
**1984-01-31**

**Abstract ---** The invention provides an improved inlet
valve assembly for use in internal combustion engines. Gas
distribution mechanism are provided to divide the gas passing
between the valve and the valve seat into a plurality of
circumferentially spaced jets each having a radial component of
motion. Preferably, the jets are inclined to the radial
direction.

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