Method for performing flexible power generation based on distributed photovoltaic power station regional protection system

A distributed photovoltaic and photovoltaic power station technology, applied in the direction of photovoltaic power generation, electrical components, circuit devices, etc., can solve the problems of limited transformer capacity, light abandonment, lack of comprehensive management and control methods, etc.

Active Publication Date: 2017-08-04
SHIJIAZHUANG KE ELECTRIC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Due to the limited capacity of transformers, the grid-connected generation power is limited. At present, in most areas, the number of photovoltaic power stations that can be installed in this area is determined based on the ratio of transformer capacity to the full capacity of photovoltaic power stations. However, in practical applications, photovoltaic power stations in operation There are often off-grid situations, and most of the lighting time cannot be fully emitted, which leads to the inability of the transformer to reach the maximum consumption capacity most of the time, which greatly reduces the power generation efficiency and the power generation capacity of the transformer
[0004] As the number of distributed photovoltaic power generation in a region (such as a village) increases, its power generation exceeds the capacity limit of the upper-level transformer or the grid-connected voltage deviation is too large. In this case, all photovoltaic power plants in the region should be disconnected immediately. network, resulting in the phenomenon of large-scale abandoned light
Due to the relative dispersal of distributed photovoltaic power plants, the lack of effective comprehensive management and control methods has always been an important problem that is difficult to solve, which determines whether distributed photovoltaic power plants can develop in a reasonable and orderly manner.

Method used

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  • Method for performing flexible power generation based on distributed photovoltaic power station regional protection system
  • Method for performing flexible power generation based on distributed photovoltaic power station regional protection system

Examples

Experimental program
Comparison scheme
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no. 1 Embodiment

[0052] see figure 1 The photovoltaic power station includes solar modules, a photovoltaic inverter connected to the solar module, and a photovoltaic grid-connected access box connected to the photovoltaic inverter. The photovoltaic grid-connected access box converts the power generated by the photovoltaic power station into the inverter The adjusted value is uploaded to the transformer, and then uploaded to the grid after voltage regulation by the transformer. Due to the limited capacity of transformers, the grid-connected generation power is limited. At present, in most areas, the number of photovoltaic power stations that can be installed in this area is determined based on the ratio of transformer capacity to the full capacity of photovoltaic power stations. However, in practical applications, photovoltaic power stations in operation There are often off-grid situations, and most of the lighting time cannot be fully emitted, which leads to the inability of the transformer to...

no. 2 Embodiment

[0070] The difference from the first embodiment is:

[0071] Step B1 includes the following steps:

[0072] Adjust the current generating power of the grid-connected photovoltaic power station upwards, the total adjustment amount ,

[0073] B1-1: Add all grid-connected photovoltaic power stations to the collection of photovoltaic power stations that intend to increase power generation. There are N photovoltaic power stations in the collection.

[0074] B1-2: j=1,

[0075] B1-3: According to the following formula, calculate the target adjustment power of the jth photovoltaic power station to be increased in power generation ,

[0076] (1),

[0077] if ,but , , N=N-1, remove the photovoltaic power station from the set of photovoltaic power stations that intend to increase power generation, go to step B1-2; otherwise, go to step B1-4,

[0078] B1-4: j=j+1, if j>N, execute step C, otherwise, go to step B1-3.

[0079] The core of this embodiment is: if , then th...

no. 3 Embodiment

[0081] The difference from the first embodiment is that the dead zone processing is required. The dead zone means that when the control quantity (input quantity) changes in a small range, the actual output quantity does not necessarily change. This range is called the dead zone. The purpose of passing the dead zone is to make it easier to calculate the target power. If only proportional calculation is performed, the obtained target variable power may be smaller than the dead zone, resulting in unsuccessful regulation. The specific method is:

[0082] A. The central control device receives the operating parameters of grid-connected photovoltaic power plants and transformers, and calculates the current adjustable active power of the transformers , , where P max Indicates the maximum power of the transformer, Indicates the sum of the current power of grid-connected photovoltaic power plants, , j=1, 2...N represents the sequence of grid-connected photovoltaic power plants...

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Abstract

The invention discloses a method for performing flexible power generation based on a distributed photovoltaic power station regional protection system. The distributed photovoltaic power station regional protection system is connected between photovoltaic power stations and a transformer, and is characterized by comprising photovoltaic acquisition / control devices which communicate by means of electric carrier waves, a low-voltage comprehensive distribution box and a central control device, wherein the photovoltaic acquisition / control devices are connected with inverters of the photovoltaic power stations and used for acquiring parameters of the corresponding inverters, transmitting the acquired parameters to the central control device, receiving a command of the central control device and controlling the current generation power of the corresponding inverters; and the low-voltage comprehensive distribution box is connected with the transformer and used for acquiring operating parameters of transformer and transmitting the acquired parameters to the central control device. In the technical scheme, the current power of the transformer and the grid-connected photovoltaic power stations is monitored in real time through the distributed photovoltaic power station regional protection system, whether the transformer stays at a full capacity state or not, the photovoltaic power stations are enabled to reach a full capacity state as far as possible through upward adjusting the current generation power of the grid-connected photovoltaic power stations if the transformer does not stay at the full capacity state, the transformer is enabled to reach the maximum consumption capacity at most of the time, and the power generation efficiency and the power generation capacity of the transformer are improved.

Description

technical field [0001] The invention belongs to the field of photovoltaic power generation, and relates to a distributed photovoltaic power station, in particular to a distributed photovoltaic power station area protection system and a control method for flexible power generation. Background technique [0002] With the depletion of traditional fossil energy such as coal and oil, and the increasingly serious environmental pollution, the development and application of new energy represented by photovoltaic power generation has become the industry direction guided by the government. At present, the state encourages all kinds of power users to build distributed photovoltaic power generation systems in accordance with the method of "spontaneous self-use, surplus to the grid, and grid regulation". [0003] Due to the limited capacity of transformers, the grid-connected generation power is limited. At present, in most areas, the number of photovoltaic power stations that can be ins...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/38
CPCH02J3/385Y02E10/56
Inventor 常生强陈洪雨袁玉宝陈贺赵宏杰高胜国安志国李春海刘海涛锁存良杜晓刚范嘉煜魏东平凯曹晓光郝磊李晓楠陈龙王宁王会平杜涛张鹏张奎仲张向平赵鹏强建龙
Owner SHIJIAZHUANG KE ELECTRIC
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