Wind turbine system with integrated reactive power compensation device

What is claimed is: 1. A wind turbine system configured to supply real and reactive power to a grid, comprising: a tower; a generator within a nacelle configured atop the tower, the generator connected to a rotor, the rotor connected to a hub comprising a plurality of turbine blades mounted thereon; a power converter configured at a location within the tower; a reactive power compensation device dedicated to the wind turbine system and configured at the location within the tower, the reactive power compensation device operably configured with the power converter so as to provide additional reactive power from the wind turbine system in combination with reactive power generated by the power converter; and wherein the power converter and the reactive power compensation device are configured at a common side of a main breaker that connects the generator to the grid. 2. The wind turbine system as in claim 1 , further comprising a controller, the controller common to the power converter and the reactive power compensation device. 3. The wind turbine system as in claim 1 , further comprising a cooling system, the cooling system common to the power converter and the reactive power compensation device. 4. The wind turbine system as in claim 3 , further comprising a controller, the controller common to the power converter and the reactive power compensation device. 5. The wind turbine system as in claim 1 , wherein the reactive power compensation device comprises any one or combination of a Static VAR compensator (SVC), a Static VAR Generator (SVG) device, or a Static Synchronous Compensator (STATCOM) device. 6. A wind turbine system configured to supply real and reactive power to a grid, comprising: a tower; a generator within a nacelle configured atop the tower, the generator connected to a rotor, the rotor connected to a hub comprising a plurality of turbine blades mounted thereon; a power converter configured at a location within the tower; a reactive power compensation device configured at the location within the tower, the reactive power compensation device operably configured with the power converter so as to provide reactive power in combination with reactive power generated by the power converter; and wherein the generator comprises a doubly fed induction generator (DFIG), the power converter comprising a line side converter (LSC) and a rotor side converter (RSC), wherein the DFIG generates a generator stator-side reactive power (Qs) and the LSC generates a generator line-side reactive power (Ql), wherein the reactive power compensation device generates reactive power (Qmvb) that combines with (Ql) such that a total reactive power generated by the wind turbine system (Qwtg) is a total of (Qs), (Ql), and (Qmvb). 7. The wind turbine system as in claim 6 , wherein the reactive power compensation device is connected with the LSC at a connection point on a line-side bus. 8. The wind turbine system as in claim 7 , further comprising a system bus that connects the DFIG to the grid, and a main breaker in the system bus, the compensation device and the power converter on a common side of the main breaker. 9. A wind turbine system configured to supply real and reactive power to a grid, comprising: a tower; a generator within a nacelle configured atop the tower, the generator connected to a rotor, the rotor connected to a hub comprising a plurality of turbine blades mounted thereon; a power converter configured at a location within the tower; the generator comprising a doubly fed induction generator (DFIG), the power converter comprising a line side converter (LSC) and a rotor side converter (RSC); a reactive power compensation device dedicated to the wind turbine system and configured at the location within the tower, the reactive power compensation device operably configured with the power converter so as to provide additional reactive power from the wind turbine system in combination with reactive power generated by the power converter; the power converter and the reactive power compensation device configured at a common side of a main breaker that connects the generator to the grid; a controller, the controller common to the power converter and the reactive power compensation device; and a cooling system, the cooling system common to the power converter and the reactive power compensation device. 10. A wind turbine system configured to supply real and reactive power to a grid, comprising: a tower; a generator within a nacelle configured atop the tower, the generator connected to a rotor, the rotor connected to a hub comprising a plurality of turbine blades mounted thereon; a power converter configured at a location within the tower; the generator comprising a doubly fed induction generator (DFIG), the power converter comprising a line side converter (LSC) and a rotor side converter (RSC); a reactive power compensation device dedicated to the wind turbine system and configured at the location within the tower, the reactive power compensation device operably configured with the power converter so as to provide additional reactive power from the wind turbine system in combination with reactive power generated by the power converter; a controller, the controller common to the power converter and the reactive power compensation device; a cooling system, the cooling system common to the power converter and the reactive power compensation device; and wherein the reactive power compensation device is connected with the LSC at a connection point on a rotor-side bus.