Line power control method and system for unified power flow controller

The invention claimed is: 1. A line power control method for a unified power flow controller, comprising: generating, by means of an outer loop line power control, a valve side current reference value; generating, by means of an inner loop valve side current control, a converter output voltage reference value, according to the valve side current reference value; and outputting, by means of a converter valve control according to the voltage reference value, a corresponding voltage to control line power, wherein the generating, by means of outer loop line power control, a valve side current reference value specifically refers to that: calculating a line current instruction by means of the outer loop line power control according to an input power instruction and a measured line alternating voltage, and summing the calculated line current instruction and an output value that is obtained by performing a proportional integral operation on a difference between a line power instruction and measured line power, to obtain an outer loop valve side current reference value; and the generating, by means of inner loop valve side current control, a converter output voltage reference value specifically refers to that: calculating the converter output voltage reference value by means of the inner valve side current control according to the valve side current reference value that is input, a measured valve side alternating current, and a measured valve side alternating voltage. 2. The line power control method for a unified power flow controller according to claim 1 , wherein after dq transformation is performed on the measured line alternating voltage, calculation is performed on the transformed voltage and the line power instruction to obtain a dq component of the line current instruction, correspondingly, a line current instruction that is used for summation is the dq component of the line current instruction. 3. The line power control method for a unified power flow controller according to claim 1 , wherein after dq transformation is performed on the measured valve side alternating current and the measured valve side alternating voltage, calculation is performed on the transformed current, the transformed voltage, a value of a reactor of a bridge, and a dq component of the valve side current reference value to obtain a dq component of the converter output voltage reference value, and then dq reverse transformation is performed on the dq component to obtain the converter output voltage reference value. 4. The line power control method for a unified power flow controller according to claim 2 , wherein a phase angle of phase A of the measured line alternating voltage is a reference angle of the dq transformation. 5. The line power control method for a unified power flow controller according to claim 3 , wherein a phase angle of phase A of the measured line alternating voltage is a reference angle of the dq transformation and the dq reverse transformation. 6. The line power control method for a unified power flow controller according to claim 1 , wherein the line power control method is applicable to a unified power flow controller that is based on an MMC structure converter. 7. The line power control method for a unified power flow controller according to claim 1 , wherein the line power control method is applicable to a unified power flow controller whose series side does not include a filter structure. 8. The line power control method of claim 1 , the outer loop line power control unit comprises a current instruction calculation module, a first measurement module, a second measurement module, an integrator module, and a summation module, wherein the first measurement module is configured to measure a line alternating voltage, the second measurement module is configured to measure line power, the current instruction calculation module is configured to calculate a line current instruction according to an input line power instruction and the line alternating voltage that is measured by the first measurement module, the integrator module is configured to perform a proportional integral operation on a difference between the line power instruction and the line power that is measured by the second measurement module, and the summation module is configured to sum an output value of the integrator module to an output value of the current instruction module to obtain an outer loop valve side current reference value; and the inner loop valve side current control unit comprises: a third measurement module, a fourth measurement module, and a calculation module, wherein the third measurement module is configured to measure a valve side alternating voltage; the fourth measurement module is configured to measure a valve side alternating current; and the calculation module is configured to calculate the converter output voltage reference value according to the valve side current reference value, the valve side alternating voltage that is measured by the third measurement module, and the valve side alternating current that is measured by the fourth measurement module. 9. The line power control method according to claim 8 , wherein the outer loop line power control unit further comprises a dq transformation module, and correspondingly, after the dq transformation module performs transformation on the measured line alternating voltage, and calculation is performed on the transformed voltage and the line power instruction to obtain a dq component of the line current instruction; and a phase angle of phase A of the measured line alternating voltage is a reference angle of the dq transformation. 10. The line power control method according to claim 8 , wherein the inner loop valve side current control unit further comprises a dq transformation module and a dq reverse transformation module; correspondingly, after the dq transformation module performs dq transformation on the measured valve side alternating current and the measured valve side alternating voltage, calculation is performed on the transformed current, the transformed voltage, a value of a reactor of a bridge, and a dq component of the valve side current reference value to obtain a dq component of the converter output voltage reference value, and then the dq reverse transformation module performs dq reverse transformation on the dq component to obtain the converter output voltage reference value; and a phase angle of phase A of the measured line alternating voltage is a reference angle of the dq transformation and the dq reverse transformation.