scholarly journals Investigations to Conduct a Study about Possibilities to Use Small Scale Solar Dish Stirling Engine System in Thailand

2014 ◽  
Vol 56 ◽  
pp. 367-377 ◽  
Author(s):  
Kongrit Mansiri ◽  
Sukruedee Sukchai ◽  
Chatchai Sirisamphanwong
Keyword(s):  
Stirling Engine ◽  
Small Scale ◽  
Engine System

Experimental characterization of an innovative low-temperature small-scale Rotary Displacer Stirling Engine

2019 ◽  
Vol 201 ◽  
pp. 112073
Author(s):  
Amirhossein Bagheri ◽  
William C. Mullins ◽  
Phillip R. Foster ◽  
Huseyin Bostanci
Keyword(s):  
Low Temperature ◽  
Stirling Engine ◽  
Small Scale ◽  
Experimental Characterization

Numerical investigations on the Dish–Stirling engine system

2017 ◽  
Vol 40 (3) ◽  
pp. 274-284 ◽  
Author(s):  
D. J. Shendage ◽  
S. B. Kedare ◽  
S. L. Bapat
Keyword(s):  
Stirling Engine ◽  
Numerical Investigations ◽  
Engine System

A numerical study of the influence of design variable interactions on the performance of a Stirling engine System

2020 ◽  
Vol 170 ◽  
pp. 115039 ◽  
Author(s):  
Saúl Islas ◽  
Ricardo Beltran-Chacon ◽  
Nicolás Velázquez ◽  
Daniel Leal-Chávez ◽  
R. López-Zavala ◽  
...  
Keyword(s):  
Design Variable ◽  
Numerical Study ◽  
Stirling Engine ◽  
Engine System ◽  
Variable Interactions

Thermal Model of the EuroDish Solar Stirling Engine

2007 ◽  
Vol 130 (1) ◽  
Author(s):  
Francisco J. García Granados ◽  
Manuel A. Silva Pérez ◽  
V. Ruiz-Hernández
Keyword(s):  
Experimental Data ◽  
Thermal Efficiency ◽  
Thermal Model ◽  
Stirling Engine ◽  
Good Qualitative Agreement ◽  
Parabolic Dish ◽  
Engine System ◽  
Work Model ◽  
Main Components ◽  
Comparison With Experimental Data

One parabolic dish—Stirling engine system—has been in operation at the Engineering School of Seville since March 2004. The unit, based on the Eurodish system, is one of the several Country Reference Units of the EnviroDish project. The system has achieved a maximum thermal efficiency (solar to electricity) close to 20% during operation. The analysis of the different parameters suggests a high potential for improvement. A thermal model of the main components of the engine package (cavity, receiver, and Stirling engine) can help to evaluate possible modifications of the system and identify the most promising ones. The development of such a thermal model and its comparison with experimental data gathered during this period are reported in this work. Model results exhibit a good qualitative agreement with the available measurements. However, the validation of the model will require measuring more parameters at the cavity, receiver, and engine.

scholarly journals Experimental and Dynamic Analysis of a Small-Scale Double-Acting Four-Cylinder α-Type Stirling Engine

2021 ◽  
Vol 13 (15) ◽  
pp. 8442
Author(s):  
Chin-Hsiang Cheng ◽  
Yi-Han Tan ◽  
Tzu-Sung Liu
Keyword(s):  
Numerical Model ◽  
Dynamic Model ◽  
Thermodynamic Model ◽  
Heating Temperature ◽  
Engine Performance ◽  
Transient Behavior ◽  
Stirling Engine ◽  
Small Scale ◽  
Working Zone ◽  
Shaft Power

This research studies the double-acting four-cylinder α-type Stirling engine. A numerical model is developed by combining the thermodynamic model and dynamic model to study the engine performance. The pressure values of the working zone calculated using the thermodynamic model are taken into the dynamic model to calculate the forces acting on the mechanism. Then, the dynamic model further calculates the displacement, velocity, and acceleration of the mechanism link to provide the pistons’ displacements for the thermodynamic model. The model is also validated using experimental data obtained from testing an engine prototype. Under a heating temperature of 1000 K, cooling temperature of 315 K, charged pressure of 10 bar, and loading torque of 0.33 Nm, the engine is capable of achieving a shaft power of 26.0 W at 754 rpm. In addition, the thermal properties and the transient behavior of the engine can be further simulated using the validated numerical model.

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