초록 ▼

A method and system for controlling a free-piston energy converter is disclosed in which effects of events, like combustion events, in at least one of at least two cylinders, are decoupled from each other by predicting forces acting on the moving mass of the converter during a stroke of the moving m

A method and system for controlling a free-piston energy converter is disclosed in which effects of events, like combustion events, in at least one of at least two cylinders, are decoupled from each other by predicting forces acting on the moving mass of the converter during a stroke of the moving mass and by evaluating or estimating a value representing a force which is exerted onto the moving mass, so that the moving mass reaches a desired reference condition or state, like a desired reference kinetic energy, at a certain position along the stroke.

대표청구항 ▼

The invention claimed is: 1. Method for controlling a free-piston energy converter by an electromagnetic force exerted onto a moving mass of the converter, by which method effects of disturbance events in at least one of at least two cylinders are decoupled from each other, comprising the following

The invention claimed is: 1. Method for controlling a free-piston energy converter by an electromagnetic force exerted onto a moving mass of the converter, by which method effects of disturbance events in at least one of at least two cylinders are decoupled from each other, comprising the following steps: predicting future forces acting on the moving mass of the converter during a stroke of the moving mass, wherein predicting future forces is conducted based on at least one of certain present states and conditions within the converter for a first position of the moving mass, evaluating or estimating on the basis of the predicted future forces a value for generating the electromagnetic force which is exerted onto the moving mass, so that the moving mass reaches a desired reference condition or state at a certain position along the stroke; and repeating the steps of predicting and evaluating or estimating for a second position of the moving mass along its stroke. 2. Method according to claim 1, wherein the desired reference condition or state is a desired reference kinetic energy. 3. Method according to claim 1, wherein a future development or future values of the future forces acting on the moving mass of the converter are predicted based on at least one of an evaluation of at least one of an observed and estimated certain present condition or state within the free piston energy converter. 4. Method according to claim 1, wherein the electromagnetic force acting on the moving mass of the converter and a fuel input to the converter are control variables and an ignition time and a output power of the converter are output values to be controlled by the variables. 5. Method according to claim 1, wherein the electromagnetic force which is exerted onto the moving mass is evaluated or estimated based on a physical model of the moving mass and on at least one of pressure- and position- and velocity-signals within the free piston energy converter. 6. Method according to claim 5, wherein the physical model for evaluating or estimating at least one of the position and velocity of the moving mass of the converter is based on how the mass is moving with respect to the applied total forces. 7. Method for controlling a free-piston energy converter by an electromagnetic force exerted onto a moving mass of the converter, by which method effects of disturbance events in at least one of at least two cylinders are decoupled from each other, comprising the following steps: predicting future forces acting on the moving mass of the converter during a stroke of the moving mass, wherein predicting future forces is conducted based on at least one of certain present states and conditions within the converter, and evaluating or estimating on the basis of the predicted future forces a value for generating the electromagnetic force which is exerted onto the moving mass, so that the moving mass reaches a desired reference condition or state at a certain position along the stroke, wherein the electromagnetic force which is exerted onto the moving mass is evaluated or estimated based on a physical model of the moving mass and on at least one of pressure- and position- and velocity-signals within the free piston energy converter, and the physical model for evaluating or estimating the pressure is based on a filtering of pressure signals generated by pressure sensors within at least one cylinder of the converter. 8. Method according to claim 1, wherein the electromagnetic force which is exerted onto the moving mass is evaluated by the following steps: (1) measuring or estimating present values of kinetic energy or velocity of the moving mass and pressure within a cylinder at a first position; (2) considering a desired future reference kinetic energy of the moving mass near an end of the stroke or at a certain position; (3) predicting a constant electromagnetic force and exerting the same onto the moving mass, so that the desired future reference kinetic energy of the moving mass will be reached at the end of the stroke or at the certain position on based on values measured or estimated under step (1) above; and (4) jumping back to step (1) and repeating the procedure for a second position of the moving mass. 9. System for controlling a free-piston energy converter for conducting a method according to claim 1 comprising a velocity servo controller for predicting future forces acting on the moving mass of the converter and for at least one of evaluating and estimating a value for generating an electromagnetic force which is exerted onto the moving mass, so that the moving mass reaches a desired reference condition or state, like a desired reference kinetic energy, at a certain position along the stroke. 10. System according to claim 9, comprising an observer for at least one of observing and estimating certain present states and conditions within the free piston energy converter which are evaluated by the velocity servo controller for predicting a future development or future values of the future forces acting on the moving mass. 11. System according to claim 9, wherein the velocity servo controller comprises a stabilizing compensator which receives input signals indicating an estimated pressure within a cylinder, an estimated kinetic energy of the moving mass at an estimated (current) position and a value of a desired reference kinetic energy of the moving mass at a certain position along the stroke and wherein the stabilizing compensator is provided for outputting a value of an electromagnetic force to be exerted onto the moving mass. 12. System according to claim 9, wherein the observer comprises an ignition time estimator, a piston state estimator and an output power estimator. 13. System according to claim 12, wherein the piston state estimator receives switching signals of a Hall effect sensor effected by the moving mass, the present value of the electromagnetic force acting on the moving mass and the present value of the pressure within the cylinder, for evaluating an estimated position and an estimated kinetic energy of the moving mass. 14. System according to claim 9, comprising an ignition time controller and an output power controller. 15. Free-piston energy converter comprising a system for controlling a free-piston energy converter for conducting a method according to claim 1. 16. An arrangement comprising a system for controlling a free-piston energy converter for conducting a method according to claim 1 and a computer connected to the internet and arranged to download from the interne a computer program to at least one of the system and a component of the system, the computer program being adapted to perform the method or for use in a method according to claim 1. 17. Computer program product stored on a computer readable medium, comprising computer program code adapted to perform a method or for use in a method according to claim 1.