System and method for diagnosing faults of photovoltaic power generation systems in online manner

A photovoltaic power generation system and fault diagnosis system technology, applied in the field of solar power generation, can solve problems such as low maintenance efficiency, difficulty in reporting monitoring data, false alarms, etc., to achieve accurate monitoring and collection data, simple and reliable step-by-step reporting, and fault monitoring and positioning fast effect

Inactive Publication Date: 2015-07-22
GUANGZHOU INST OF ENERGY CONVERSION - CHINESE ACAD OF SCI
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, such a large-scale photovoltaic power generation system requires a huge number of devices. When a device fails, all devices are checked one by one, and the workload is huge.
Taking a 50,000-kilowatt photovoltaic power station as an example, there are more than 100 inverters, more than 800 combiner boxes, more than 190,000 battery components, and a large number of DC confluence branches. In addition, the current distribution of photovoltaic power generation systems or geographical The location is remote, the transportation is inconvenient, or it is built on the roof of the building, so it is very difficult to inspect and manage the equipment
[0004] At present, there are also data acquisition and monitoring systems for photovoltaic power generation systems, but their existing problems are: 1) The monitoring data is unacceptable and unreliable
There is no string monitoring or only simple string data collection, the monitoring measurement accuracy is not high, and the measurement data is inaccurate; 2) It is difficult to report the monitoring data
The monitoring data is uploaded through the RS-485 bus, the transmission rate is low, there are many communication failures, false alarms and false alarms are serious; 3) fault location is difficult
The number of photovoltaic modules and nodes is huge, and there is a lack of effective fault location methods. Fault detection mainly relies on manual inspection and manual measurement and comparison through multimeters. The fault processing cycle is long, affecting power generation output, low maintenance efficiency, and large investment in manpower; 4) system Management lacks digital means
Simple collection and presentation of monitoring information, manual processing of a large number of data reports through Excel, poor comprehensive data analysis capabilities, lack of quantitative means for power generation operation analysis and improvement, and unified management of multiple systems cannot be realized

Method used

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  • System and method for diagnosing faults of photovoltaic power generation systems in online manner
  • System and method for diagnosing faults of photovoltaic power generation systems in online manner
  • System and method for diagnosing faults of photovoltaic power generation systems in online manner

Examples

Experimental program
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Effect test

Embodiment 1

[0032] figure 1 It is a schematic diagram of a medium and high voltage grid-connected non-energy storage photovoltaic power generation system and its monitoring system. The photovoltaic system includes step-up transformers, AC power distribution cabinets, photovoltaic inverters and other equipment. Each photovoltaic inverter is connected to several combiner boxes, and each combiner box is connected to several photovoltaic strings. The string is composed of multiple photovoltaic modules in series; the specific number of the above-mentioned devices depends on the scale of the system. The configuration scheme of its online fault diagnosis system is: a host computer 5, a photovoltaic monitoring terminal 3, an environmental monitor 4, several combiner box monitoring modules 2, and several component monitoring modules 1. When performing online fault diagnosis on a photovoltaic power generation system, the data acquisition and communication process is as follows: first, a component ...

Embodiment 2

[0053] image 3 It is a schematic diagram of a low-voltage grid-connected non-energy storage photovoltaic power generation system and its monitoring system. Compared with Example 1, the structure of the photovoltaic power generation system is almost identical, except that there is no step-up transformer. Therefore, the online fault diagnosis system for the photovoltaic power generation system is the same as that of Embodiment 1, and when performing online fault diagnosis for the photovoltaic power generation system, only the step-up transformer needs to be excluded when determining the equipment to be diagnosed.

[0054] Other technical features are the same as those in Embodiment 1, and will not be repeated here.

Embodiment 3

[0056] Figure 4 It is a schematic diagram of a low-voltage grid-connected energy storage photovoltaic power generation system and its monitoring system. Compared with Embodiment 2, the photovoltaic power generation system adds a charge and discharge controller and a storage battery. Its online fault diagnosis method is as follows: the charging and discharging controller collects and monitors the voltage, current, power of its AC and DC terminals and the working temperature of the storage battery, stores and uploads these data to the host computer 5; establishes fault diagnosis of these devices in the host computer 5 Model, determine the characteristic parameters that can characterize the normal operation of these devices, judge whether these operating parameters are in the normal range, and then judge whether the device is faulty.

[0057] For other technical features, refer to Embodiments 1 and 2, which will not be repeated here.

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Abstract

The invention provides a system for diagnosing faults of photovoltaic power generation systems in an online manner. The system comprises an upper computer, an environment monitoring instrument, a photovoltaic monitoring terminal, header box monitoring modules, assembly monitoring modules and the like. The upper computer has analyzing and processing functions, the environment monitoring instrument and the photovoltaic monitoring terminal are connected with the upper computer, the header box monitoring modules are respectively arranged on various header boxes, and the assembly monitoring modules are respectively arranged on various photovoltaic assemblies. The system has the advantages that the system is simple and reasonable in structure, each assembly monitoring module is arranged on the corresponding photovoltaic assembly, each header box monitoring module is arranged on the corresponding header box, accordingly, voltages, currents and power on each photovoltaic assembly, each photovoltaic assembly string and the header boxes can be detected; the various monitoring modules are organized to form a network and are matched with the environment monitoring instrument and the photovoltaic monitoring terminal, monitored and acquired data of various devices of the photovoltaic power generation systems and other reference data can be uploaded to the upper computer along network nodes step by step, accordingly, running states of the photovoltaic power generation systems can be comprehensively analyzed, and the system has an online fault diagnosing function.

Description

technical field [0001] The invention relates to the field of solar power generation, in particular to an integrated, efficient and intelligent online fault diagnosis system for a photovoltaic power generation system and an online fault diagnosis method for a photovoltaic power generation system. Background technique [0002] After more than ten years of rapid development, my country's photovoltaic industry has entered the stage of large-scale development. As of 2013, the cumulative installed capacity of photovoltaics in my country was 17.16GW, and the target for newly installed photovoltaic capacity in 2014 is 14GW. In 2020, the total capacity of photovoltaic power generation will reach 180GW. The operation level of the photovoltaic power generation system is the core element that affects the system benefits. It will directly affect the operation and maintenance cost, power generation efficiency, and power generation reliability of the photovoltaic power generation system. H...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02S50/00
CPCH02S50/00Y02E10/50
Inventor 吴志锋舒杰崔琼吴昌宏张继元黄磊
Owner GUANGZHOU INST OF ENERGY CONVERSION - CHINESE ACAD OF SCI
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