ProEcoPolyNet
Best practice Sheet
Annex 42: Stirling Engine
technology was used during the 19th century for
RTD Project Identification
various applications including ship propulsion
and ventilation. However, Stirling engine
RTD Project Name: FC+COGEN-SIM:
technology usage was eliminated from the
IEA/ECBCS Annex 42 - The Simulation of
marketplace early in the 20th century due the
Building-Integrated Fuel Cell and Other
robust and reliable quality of the internal
Cogeneration Systems
combustion engines, as well as the cost
RTD Contract No.: IEA/ECBCS Annex 42
reductions derived from the mass production of
Programme: Annex 42 operates under the
internal combustion engines together with the
auspices of the International Energy Agency's
use of liquid petroleum fuels for transportation
(http://www.iea.org) Energy Conservation in
applications. Today, due to several factors
Community Systems (http://www.ecbcs.org/)
including increased environmental concerns,
program
cogeneration applications, increased demand for
electricity and the deregulation of the electricity
Description of technology has
industry, the market is attracting opportunities
for Stirling engines development
Annex 42 considers modelling of various
cogeneration technologies in the building
environment. This Best Practice Sheet focuses Operating principle has
on Stirling Engines.
Stirling engines operate on the Stirling cycle,
The principle of the Stirling engine has been
based on isothermal processes. Stirling cycle
known for a long time. Unlike reciprocating
engines have been developed in recent years as
internal combustion engines, the heat supply is
external combustion engines with regeneration,
from external sources via a heater or heat
in which case the cycle resembles the ideal
exchanger, allowing the use of a wide range of
Carnot cycle.
energy sources including fossil fuels such as oil
Stirling engines are classified according to their
or gas, and renewable energy sources like solar
arrangement: the Alpha, Beta and the Gamma
or biomass. Since the combustion process takes
arrangements as shown in Figure 26. The Alpha
place outside the engine, it is a well-controlled
configurations have two pistons in separate
continuous combustion process, and the
cylinders connected in series by a regenerator,
products of combustion do not enter the engine.
heater and cooler. Both the Beta and the
The operating gas is compressed at low
Gamma configurations use the displacement
temperature in the compression cylinder and
piston arrangement, but the Beta arrangement
expands at high temperature in the expansion
has the piston and the displacer in the same
cylinder. As a result of the continuous
cylinder while the Gamma arrangement uses
combustion process, two power pulses per
different cylinders. Stirling engine drive methods
revolution, and fewer moving parts compared to
are based on kinematic drive and free piston
reciprocating internal combustion engines,
drive. Kinematic drives utilize conventional
Stirling engines have low wear and long
mechanical elements like the cranks, connecting
maintenance free operating periods, and are
rods and flywheels in series that move in a
quieter and smoother than reciprocating internal
prescribed manner. On the other hand, the free
combustion engines.
piston drives move the reciprocating elements
There is an increasing interest in the use of
using the pressure variations produced by the
Stirling engine based cogeneration systems for
working gas, with the work being harnessed by
residential and commercial cogeneration
a linear alternator.
because of their prospect for high efficiency,
good performance at partial load, fuel flexibility,
low emission level, low vibration and noise
level16. A patent for the first Stirling engine was
first granted to Robert Stirling, in 1816. This
Promotion of Eco-building Technologies, small Polygeneration and Renewable Heating & Cooling Technologies for Buildings
º% Maintenance
Service intervals are from 5,000 to 8,000 hours,
which are long compared with Otto gas engines
of the same range. This considerably reduces
the operating costs. Due to the tight sealing of
the casing, the free piston Stirling engines are
expected to eliminate mechanical contact,
friction and wear, therefore eliminating
mechanical maintenance during an operating
lifetime of about ten years.
º% Specific maintenance costs (Ź /kWh): 0.010
State of Development/Market
implementation
º% Prototype
º% Field tested
º% Serial production
º% Full market implementation
CO2 and primary energy savings
Fuel (kg/kWh)
Technical characteristics of
NOx, (gm/bhph): 0.08- 0.12
installation
CO, (gm/bhph): 0.04- 0.06
º% Type: Stirling engine
º% Electrical output capacity (kW): 2  9.5
Benefits and obstacles
º% Thermal output capacity (kW): 8-26
With the exception of micro-turbine systems,
º% Electrical efficiency (%): 40 (can be up to 50
these technologies are suitable for single- and
in future)
multi- family residential applications (1 - 10kW).
º% Total efficiency (%): 65-85 (up to 92)
From the technological perspective, fuel cell and
Stirling engine cogeneration systems seem
º% Power to heat ratio: 1.2  1.7
promising for residential applications; however,
Stirling engines also have good capability to
before these systems can see wide spread
operate under part-load conditions.
acceptance, their affordability and reliability
Stirling engines operate smoothly, resulting in
must be improved significantly.
lower vibration and noise level.
Currently, well-proven and robust systems
available for residential as well as small-scale
Location and use
commercial cogeneration applications at
º% Private Buildings
reasonable cost are based on reciprocating
º% Residential Buildings internal combustion engines.
º% Commercial Buildings
Contact and further information
º% Public Buildings
Dr. Ian Beausoleil-Morrison
º% Others
CANMET Energy Technology Centre  Ottawa
Capital investment and maintenance Energy Technology and Programmes Sector
costs Department of Natural Resources Canada
Government of Canada
º% Capital investment
580 Booth Street, 13th Floor
Cost of unit (2001Ź ) 8200
Ottawa, Ontario, Canada, K1A 0E4
Installation cost (Ź ) 2050
Total Cost (2001Ź ) 10,200
Date of elaboration: 24/102007
Presently, the investment cost for the unit is still
about twice as high as an internal combustion
engine CHP unit of the same capacity.
Promotion of Eco-building Technologies, small Polygeneration and Renewable Heating & Cooling Technologies for Buildings


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