Method, system and device for regulating voltage fluctuations induced by at least one renewable energy source

What is claimed is: 1. A method comprising: providing a renewable energy generation system; providing a pilot node in an energy distribution network, wherein the pilot node is subject to departures from voltage limit values due to intermittency of operation of the renewable energy generation system; providing an electrical energy storage unit in the energy distribution network; connecting the renewable energy generation system to the pilot node, and operating the renewable energy system so as to induce an instantaneous voltage level at the pilot node and at a connection node that is in the energy distribution network and remote from the pilot node; receiving a prediction of a mean voltage level induced at the pilot node by the renewable energy generation system over a time window; controlling a charging power of the electrical energy storage unit over the time window so as to compensate for disturbances caused at the pilot node by variations in the instantaneous voltage level induced by the renewable energy generation system relative to the prediction of the mean voltage level over the time window; wherein the controlling is effective to maintain a voltage level at the pilot node that is constant over the time window and corresponds to the prediction of the mean voltage level despite the variations of the instantaneous voltage caused by the renewable energy generation system. 2. The method according to claim 1 , wherein the renewable energy generation system induces an instantaneous voltage level that is a function of an instantaneous operating parameter, and wherein the step of controlling comprises controlling a power reserve of the electrical energy storage unit in such a manner that a charging power setpoint is increased when the instantaneous operating parameter is greater than a mean operating parameter over the time window, and the charging power setpoint is reduced when the instantaneous operating parameter is lower than the mean operating parameter over the time window. 3. The method according to claim 2 , wherein the power reserve is controlled in such a manner that the charging power setpoint for the power reserve of the electrical energy storage unit is modified linearly as a function of the instantaneous operating parameter. 4. The method according to claim 3 , wherein the power reserve is controlled in such a manner that, over the time window, the variation of the charge level of the energy storage unit corresponds to an expected variation when, over the time window, the mean of the instantaneous voltage level induced by the renewable energy generation system corresponds to the predicted mean voltage level. 5. The method according to claim 3 , wherein the power reserve is controlled in such a manner that the charging power setpoint for the power reserve is controlled linearly as a function of the instantaneous operating parameter over a range of operating parameters that extends from a lower operating parameter to an upper operating parameter and which comprises the mean operating parameter is found. 6. The method according to claim 1 , comprising a prior step of reserving a power reserve of the electrical energy storage unit in an operating plan for the electrical energy storage unit. 7. The method according to claim 2 , wherein the renewable energy system is a photovoltaic energy generation system, the instantaneous operating parameter corresponds to an instantaneous insolation, the mean voltage level is induced by a mean insolation over the time window and the instantaneous voltage level is induced by the instantaneous insolation. 8. The method according to claim 7 , further including a step of predicting the mean insolation for the time window and a step of measuring the instantaneous insolation. 9. A control device for controlling an energy storage unit connected at a connection node of an energy distribution network to which there is connected a renewable energy generation system that induces an instantaneous voltage level at a pilot node of the energy distribution network remote from the connection node, wherein the pilot node is subject to departures from voltage limit values due to intermittency of operation of the renewable energy generation system, said instantaneous voltage level being that is a function of an instantaneous operating parameter, the control device comprising: a measuring unit for measuring the instantaneous operating parameter; and a control unit for controlling a charging power of the energy storage unit, the control unit being configured: to receive the instantaneous operating parameter measured by the measuring unit and a prediction of a mean operating parameter over a time window; and to act, over said time window, as a function of the difference between the measured instantaneous operating parameter and the prediction of the mean operating parameter, so as to compensate for disturbances that may be caused at the pilot node by variations in the instantaneous voltage level relative to a mean voltage level induced at the pilot node that corresponds to the prediction of the mean operating parameter; wherein the controlling is effective to maintain a voltage level at the pilot node that is constant over the time window and corresponds to the prediction of the mean voltage level, wherein the constant voltage level is maintained despite the variations of the instantaneous voltage caused by the renewable energy generation system. 10. A system for regulating voltage in an energy distribution network to which there are connected at least one renewable energy generation system that induces an instantaneous voltage level at a pilot node of the energy distribution network and, at a connection node remote from the pilot node, at least one electrical energy storage unit, the system comprising: at least one control device according to claim 9 , and a central supervisor device comprising a unit for determining control parameters for the at least one control device, said control parameters comprising the prediction of the mean operating parameter and a rule for correcting a charging power setpoint of the at least one energy storage unit as a function of the difference between the measured instantaneous operating parameter and the prediction of the mean operating parameter.