A prototype of a biomass Stirling engine was developed and manufactured by an industrial company prior to the numerical investigations described in this paper. Dimensions and performance of the prototype had originally been estimated using the company’s own simplified “first-order” mathematical model of the engine’s working cycle. The manufactured engine was experimentally tested, and the results demonstrated that the power output from the machine was far less than expected. To understand what caused the engine’s low operational characteristics and to predict how to refine the design, more advanced numerical investigations of the working process of the engine were performed. This utilized a “second-order” type 5 control volumes model, together with three-dimensional computational fluid dynamics modeling. As an outcome of this study, several recommendations on to how alter the prototype’s design were forthcoming, which, in practice, allow significant improvements in the engine’s performance.

1.
Walker
,
G.
, 1980,
Stirling Engines
,
Clarendon Press
,
Oxford
.
2.
Kinnersly
,
R. F.
, and
Hislop
,
D. W.
, “
The Development of an Innovative Commercial Stirling Engine—An Update
,”
Proceedings of the European Stirling Engine Forum-2002
,
Osnabruck, Germany
,
ECOS GmbH
,
Osnabruck
, CD-ROM.
3.
Finkelstein
,
T.
, 1965, “
Simulation of a Regenerative Reciprocating Machine on an Analogue Computer
,”
Proceedings of the SAE International Congress on Automotive Engineering
, Paper 949F, January 11–15,
Detroit
.
4.
Tew
,
R.
,
Jeffries
,
K.
, and
Miao
,
D. A.
, 1978, “
A Stirling Engine Computer Model for Performance Calculations
,” U.S. DOE/NASA Report No. TM-78884.
5.
Urieli
,
I.
, and
Berchowitz
,
D. M.
, 1984,
Stirling Cycle Engine Analysis
,
Adam Hilger
,
Bristol
, p.
250
.
6.
Makhkamov
,
K.
, and
Ingham
,
D. B.
, 1999, “
Analysis of the Working Process and Mechanical Losses in a Stirling Engine for a Solar Power Unit
,”
ASME J. Sol. Energy Eng.
0199-6231,
121
, pp.
121
127
.
7.
Makhkamov
,
K.
, and
Ingham
,
D. B.
, 1999, “
Two-Dimensional Model of the Air Flow and Temperature Distribution in a Cavity-Type Heat Receiver of a Solar Stirling Engine
,”
ASME J. Sol. Energy Eng.
0199-6231,
121
, pp.
210
217
.
8.
Makhkamov
,
K.
, and
Ingham
,
D. B.
, 1998, “
Preliminary Results for a Two-Dimensional Simulation of the Working Process of a Stirling Engine
,”
Proceedings of the 33rd Intersociety Energy Conversion Engineering Conference
,
Colorado Springs
, Aug. 2–6,
ASME
,
Colorado
, Paper No. I408.
9.
Hirsch
,
C.
, 1990,
Numerical Computation of Internal and External Flows
,
Wiley
,
New-York
, Vols.
1–2
.
10.
Hoffmann
,
K. A.
, and
Chiang
,
S. T.
, 2000,
Computational Fluid Dynamics
,
Engineering Education System
,
Wichita, KS
, Vols.
I–III
.
You do not currently have access to this content.