Systematic solution for voltage quality evaluation and optimization of low-voltage transformer area distribution networks

A low-voltage station area and voltage quality technology, applied in the field of power systems, can solve problems such as large line loss, excessive power supply radius of distribution lines, unbalanced three-phase loads in the station area, etc., and achieve the lowest comprehensive line loss rate and investment cost Optimizing, intensifying comprehensive rectification efforts, and improving the effect of power supply quality

Active Publication Date: 2015-04-29
广东力行电气技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] With the continuous improvement of rural people's living standards, especially the policy of sending home appliances to the countryside stimulates the massive use of household appliances such as air conditioners, refrigerators, rice cookers, and induction cookers among rural residents, and even a large number of electrical appliances above the kilowatt level. The rapid development and the substantial increase in rural electricity consumption make it difficult for many distribution transformers to meet the requirements of normal and economical operation
[0005] (2) The line equipment is in poor condition
[0006] First of all, the construction time of the current operating lines is relatively early, and the technical requirements and construction standards at that time must not meet the current electricity demand in rural areas. Due to the phenomenon of insulation aging caused by long-term operation, the problem of low voltage becomes more and more serious
[0007] Secondly, the power supply radius of the distribution line is too large
Since the layout of substations in the rural power grid has not realized the power supply pattern of one township and one station, the geographical distribution of individual substations is unreasonable, resulting in the distribution of 10 kV lines with too long power supply radius, and the low-voltage line power supply radius seriously exceeds the standard requirements, resulting in large line losses, The phenomenon of low terminal voltage
Moreover, the layout of the transformer is unreasonable, so that it cannot go deep into the load center to achieve the most economical power supply radius, and the low-voltage power supply line is radial in one direction, resulting in low terminal voltage
[0008] Finally, the rural power grid is at the end of the power system, the reactive power supply is inherently insufficient, and the rural power load consumes a large amount of reactive power, resulting in a serious lack of reactive power in the rural power grid
However, due to the one-sidedness of understanding, it is quite common to pay

Method used

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  • Systematic solution for voltage quality evaluation and optimization of low-voltage transformer area distribution networks

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Experimental program
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Embodiment 1

[0045] The systematic solution method for evaluating and optimizing the voltage quality of the distribution network in the low-voltage station area of ​​this embodiment can run on a PC, and supports 32-bit or 64-bit operating systems such as Windows xp and Windows 7, and has high compatibility. Distribution network modeling, voltage analysis and optimization" software adopts a graphical user interface (GUI) and supports mouse and keyboard operations.

[0046] like figure 1 As shown, the systematic solution to the voltage quality assessment and optimization of the distribution network in the low-voltage station area of ​​this embodiment includes the following steps:

[0047] 1) modeling

[0048] Collect the distribution network topology, line parameters, phase sequence of end users, and load curve characteristics of each station area, and establish a mathematical model of the low-voltage station area;

[0049] The establishment of the model of the low-voltage station area can...

Embodiment 2

[0072] This embodiment is an application example of the above method. It is found through field investigation that there are more than 800 station areas in Zhaoqing Gaoyao, and more than 200 station areas have low voltage problems. Due to limited energy and time, Daqi Village with typical low-voltage symptoms was selected as a case for implementation verification.

[0073] 1) Data collection of Daqi Village Taiwan Area

[0074] 1.1) Line parameter data

[0075] According to the determined line naming rules, the line parameters of Daqi Village are shown in Table 3, which are only shown here as examples.

[0076]

[0077]

[0078] Table 3 Line parameters of Daqi Village

[0079] The monthly electricity data of Daqi Village and the industry electricity consumption classification table are unified in one Excel, see Table 4 below for details.

[0080] Customer Number

client's name

Year and month of electricity bill

Tariff code

Total active power ...

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Abstract

The invention discloses a systematic solution for voltage quality evaluation and optimization of low-voltage transformer area distribution networks. The systematic solution comprises the following steps: collecting topological structures, circuit parameters, phase sequence of tail end users, and load curve characters of the distribution networks in all low-voltage transformer areas to establish a low-voltage transformer area mathematical model; calculating average power or instantaneous power of users according to user consumption data in a marketing system of a power supply enterprise, and computing an active power, a line loss rate and each node voltage value of each section of a line through a forward-backward sweep distribution system power flow calculation method; performing optimal design and simulation analysis on the low-voltage transformer areas through modes of transferring load, newly increasing lines, changing lines and adjusting phase sequence to realize the optimal line loss rate and investment costs comprehensively. According to the solution, with a developed software platform, workload of line patrol and modeling in the low-voltage transformer areas can be greatly reduced, real-time data updating of the low-voltage transformer areas can be realized by basic-level power supply stations (offices) through combining with corresponding management measures, and the operation and maintenance level of the low voltage distribution networks can be improved.

Description

technical field [0001] The invention relates to a systematic solution method for voltage quality assessment and optimization, in particular to a systematic solution method for voltage quality assessment and optimization of a distribution network in a low-voltage station area, and belongs to the technical field of power systems. Background technique [0002] Voltage is one of the important indicators of power quality. Voltage quality is directly related to the safety and economic operation of the power system and the service life of electrical equipment. "Low voltage" and "stuck neck" have long been troubled by power supply problems in rural areas. How to Using low-cost methods to completely eradicate and cure this problem is the top priority of the new round of rural power grid upgrading and reconstruction projects. There are many reasons for the increase of rural low-voltage users, including irresistible factors, such as the rapid growth of rural electricity consumption cau...

Claims

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Application Information

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IPC IPC(8): G06Q10/04G06Q50/06
CPCG06Q10/04G06Q50/06
Inventor 刘希喆肖少华
Owner 广东力行电气技术有限公司
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