TY - JOUR
T1 - Dynamic and thermodynamic characteristics of a linear Joule engine generator with different operating conditions
AU - Jia, Boru
AU - Wu, Dawei
AU - Smallbone, Andrew
AU - Ngwaka, Ugochukwu Charles
AU - Roskilly, Anthony Paul
N1 - Publisher Copyright:
© 2018 The Authors
PY - 2018/10/1
Y1 - 2018/10/1
N2 - The Linear Joule Engine Generator is an energy conversion system made up from a linear expander, a linear compressor, and a linear alternator. It is adaptable to variable renewable energy fuel sources, e.g. biogases, biofuels, hydrogen and ammonia, etc. In this paper, an investigation on the system dynamics and thermodynamic characteristics under different operating conditions is presented. Real time adjustable parameters were identified, i.e. the system pressure, the valve timings, and the coefficient of electric resistance force. Their influence on the indicated power of the expander, the electric power output from the linear alternator and the energy conversion efficiency are scrutinised using a validated numerical model. In order to achieve stable operation of the system, each parameter is controlled within a practical range, and optimised to maximise the electricity generation efficiency. The system pressure was proved to be the most effective parameter to alter the system power output. The indicated power of the expander with the existing dimensions can reach up to 11.0 kW by adjusting the system pressure, and it cannot exceed 8.0 kW by just tuning valve timings or optimising the coefficient of electric resistance force. The coefficient of electric resistance force is found to be the most influential parameter to maximise the electricity generation efficiency up to 80%.
AB - The Linear Joule Engine Generator is an energy conversion system made up from a linear expander, a linear compressor, and a linear alternator. It is adaptable to variable renewable energy fuel sources, e.g. biogases, biofuels, hydrogen and ammonia, etc. In this paper, an investigation on the system dynamics and thermodynamic characteristics under different operating conditions is presented. Real time adjustable parameters were identified, i.e. the system pressure, the valve timings, and the coefficient of electric resistance force. Their influence on the indicated power of the expander, the electric power output from the linear alternator and the energy conversion efficiency are scrutinised using a validated numerical model. In order to achieve stable operation of the system, each parameter is controlled within a practical range, and optimised to maximise the electricity generation efficiency. The system pressure was proved to be the most effective parameter to alter the system power output. The indicated power of the expander with the existing dimensions can reach up to 11.0 kW by adjusting the system pressure, and it cannot exceed 8.0 kW by just tuning valve timings or optimising the coefficient of electric resistance force. The coefficient of electric resistance force is found to be the most influential parameter to maximise the electricity generation efficiency up to 80%.
KW - High efficiency engine
KW - Linear Joule engine
KW - Linear alternator
KW - Numerical model
KW - Power generation
UR - http://www.scopus.com/inward/record.url?scp=85050859305&partnerID=8YFLogxK
U2 - 10.1016/j.enconman.2018.07.098
DO - 10.1016/j.enconman.2018.07.098
M3 - Article
AN - SCOPUS:85050859305
SN - 0196-8904
VL - 173
SP - 375
EP - 382
JO - Energy Conversion and Management
JF - Energy Conversion and Management
ER -