Micro CHP has been identified as a means of reducing the carbon dioxide
emissions from household energy consumption. Large scale field trials undertaken
in the UK, with systems internal to a single dwelling and based on Stirling engines,
were disappointing because of the low thermal efficiencies of such engines.
Alternative engines/devices with higher thermal efficiencies are currently being
evaluated in Japan but such systems are external to the dwelling.
The reciprocating Joule cycle engine is proposed as an engine for a micro CHP
system because of its potential to be more thermally efficient than a Stirling engine
and at least as thermally efficient as an internal combustion engine. Such an
engine has not previously been analysed in detail nor is there any information that
such an engine has been built and operated, particularly at power output levels
below 5 kW.
Mathematical modelling of the RJC engine is used to determine power outputs and
efficiencies taking into account frictional, thermal and pressure losses. Such
modelling indicated an engine with a maximum thermal efficiency of 33% making it
suitable for micro CHP applications. When the individual models are combined to
model a CHP system, and using the engine exhaust heat to preheat the
combustion air, an overall maximum system efficiency of 79% was indicated.
Date of Award | 2008 |
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Original language | English |
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Awarding Institution | |
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The reciprocating joule cycle engine for micro combined heat and power applications
Allen, R. W. (Author). 2008
Student thesis: PhD