Add to ORKGA non-dimensional analysis of a slotless tubular linear generator with longitudinal flux topology has been undertaken using a finite element method. Starting from an arbitrary initial design, design parameters were varied in order to maximise the electromotive force produced per unit cost of the generator. The influence of variation of design parameters on the cogging force has also been investigated
The high cost associated with operation has promoted the progress of wave energy conversion and has ...
This paper presents a finite element analysis of permanent magnet linear generators. The machines ca...
© 1965-2012 IEEE. At present, most of the linear generators contain a heavy translator for convertin...
PurposeThe purpose of this paper is to optimise the cost-based performance of a tubular linear gener...
his paper presents a comparison among two types of linear generators for wave energy conversion: an ...
In this paper the authors introduce a semi-analytical model for the analysis and the design of a Per...
Even though the magnetic circuit of a linear electric machine is very similar to a rotating electric...
In this paper, the design and development of a double-sided air-cored tubular generator (DSTG) is pr...
Generating power is of great importance nowadays across the world. However, recently, the world beca...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
Wave energy is one of the renewable resources with high availability area of the wave across the wor...
Linear permanent magnet generators are widely considered for the direct conversion of energy contain...
A number of research works have been carried out based on the optimization of linear generators for ...
A general framework for the analysis and design of a class of tubular linear permanent magnet machin...
The high cost associated with operation has promoted the progress of wave energy conversion and has ...
This paper presents a finite element analysis of permanent magnet linear generators. The machines ca...
© 1965-2012 IEEE. At present, most of the linear generators contain a heavy translator for convertin...
PurposeThe purpose of this paper is to optimise the cost-based performance of a tubular linear gener...
his paper presents a comparison among two types of linear generators for wave energy conversion: an ...
In this paper the authors introduce a semi-analytical model for the analysis and the design of a Per...
Even though the magnetic circuit of a linear electric machine is very similar to a rotating electric...
In this paper, the design and development of a double-sided air-cored tubular generator (DSTG) is pr...
Generating power is of great importance nowadays across the world. However, recently, the world beca...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
Wave energy is one of the renewable resources with high availability area of the wave across the wor...
Linear permanent magnet generators are widely considered for the direct conversion of energy contain...
A number of research works have been carried out based on the optimization of linear generators for ...
A general framework for the analysis and design of a class of tubular linear permanent magnet machin...
The high cost associated with operation has promoted the progress of wave energy conversion and has ...
This paper presents a finite element analysis of permanent magnet linear generators. The machines ca...
© 1965-2012 IEEE. At present, most of the linear generators contain a heavy translator for convertin...