| 1 |
Thermodynamic, dynamic and flow friction analysis of a Stirling engine with Scotch yoke piston driving mechanism
Karabulut H, Okur M, Halis S, Altin M
Energy, 168, 169, 2019 |
| 2 |
Mathematical formulation of alpha -type Stirling engine with Ross Yoke mechanism
Bataineh K
Energy, 164, 1178, 2018 |
| 3 |
Thermodynamic and dynamic analysis of an alpha type Stirling engine and numerical treatment
Ipci D, Karabulut H
Energy Conversion and Management, 169, 34, 2018 |
| 4 |
A novel second-order thermal model of Stirling engines with consideration of losses due to the speed of the crack system
Sayyaadi H, Ghasemi H
Energy Conversion and Management, 168, 505, 2018 |
| 5 |
Analytical closed-form model for predicting the power and efficiency of Stirling engines based on a comprehensive numerical model and the genetic programming
Babaelahi M, Sayyaadi H
Energy, 98, 324, 2016 |
| 6 |
Constrained control framework for a stand-alone hybrid (Stirling engine)/supercapacitor power generation system
Alamir M, Rahmani MA, Gualino D
Applied Energy, 118, 192, 2014 |
| 7 |
Modelling the Italian household sector at the municipal scale: Micro-CHP, renewables and energy efficiency
Comodi G, Cioccolanti L, Renzi M
Energy, 68, 92, 2014 |
| 8 |
Simulation, experimental validation and kinematic optimization of a Stirling engine using air and helium
Bert J, Chrenko D, Sophy T, Le Moyne L, Sirot F
Energy, 78, 701, 2014 |
| 9 |
Thermodynamic optimization of a Stirling engine
Campos MC, Vargas JVC, Ordonez JC
Energy, 44(1), 902, 2012 |
| 10 |
Development of the performance of an alpha-type heat engine by using elbow-bend transposed-fluids heat exchanger as a heater and a cooler
El-Ehwany AA, Hennes GM, Eid EI, El-Kenany EA
Energy Conversion and Management, 52(2), 1010, 2011 |
