CN116819996A - Intelligent regulation and control system for operation environment of power transformation room - Google Patents

Abstract

The invention discloses an intelligent regulation and control system for the running environment of a transformer substation, which relates to the technical field of regulation and control of the transformer substation, and comprises a regulation and control center, basic equipment and auxiliary equipment arranged in the transformer substation, and an information acquisition module, wherein the information acquisition module is used for segmenting a historical time period according to a preset period to acquire weather information and a running mode of the basic equipment in each period; the weather information comprises temperature and humidity information inside and outside the transformer room; the first regulation and control module is used for calculating the period of the current time, generating control information and sending the control information to the regulation and control center so as to regulate and control the running mode of the basic equipment; the environment monitoring module is used for sending environmental monitoring data in the transformer room to the regulation and control center, comparing the received data with the historical environmental monitoring data in the corresponding period, and judging and calculating the abnormal duration; and the second regulation and control module is used for regulating and controlling the operation of the auxiliary equipment based on the abnormal duration time. The invention can effectively monitor and give historical environment data and real-time environment data to regulate and control the operation environment of the transformer room.

Description

Intelligent regulation and control system for operation environment of power transformation room

Technical Field

The invention relates to the technical field of power transformation room regulation and control, in particular to an intelligent regulation and control system for the running environment of a power transformation room.

Background

The power transformation room is an important component link in the power transmission system, is generally managed by a professional department, and has the tasks of receiving electric energy, converting the electric energy voltage, reducing the transmitted high-voltage electric energy into the voltage used by common machine equipment, and is generally provided with a transformer, a power distribution cabinet and other power distribution management systems, and the power transformation room is distributed to required places after the voltage is reduced by the transformer.

Most of the existing transformer rooms are unattended and matched with a regular inspection mode, a large amount of heat is generated during operation, if heat cannot be timely dissipated, normal operation of the transformer can be affected, and the ambient temperature and humidity in the transformer rooms are often required to be detected, regulated and controlled based on specific requirements, so that the service life of the electric appliance is prevented from being affected.

Whether elements such as temperature, humidity, current and voltage in the power transformation room are in a normal range or not is critical to the normal operation of the power transformation room, a large number of devices are arranged in the power transformation room, a large amount of heat can be generated when a plurality of devices are operated at the same time, the heat cannot be dissipated in time, the normal operation of the devices is affected, and the service period of the devices is shortened; and when encountering rain, the air humidity is increased to cause ground tide and indoor humidity to be increased, the equipment is stained with the moisture and is more prone to accelerate depreciation of the equipment, the problems of condensation, water immersion, water accumulation and the like can be caused, equipment ageing and damage are easily caused, insulation breakdown, partial discharge and short circuit phenomena are caused, and the safety operation and personal safety of the equipment are threatened.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the intelligent regulation and control system for the operation environment of the transformer substation, which can monitor the operation environment of the transformer substation and regulate and control the operation environment.

The technical scheme adopted for solving the technical problems is as follows: the intelligent regulation and control system for the running environment of the power transformation room comprises a regulation and control center, basic equipment and auxiliary equipment arranged in the power transformation room, and further comprises

The information acquisition module is used for dividing the historical time period according to a preset period to acquire weather information and a basic equipment operation mode in each period; the basic equipment comprises first dehumidification equipment and first cooling equipment, and the weather information comprises temperature information and humidity information inside and outside the transformer room;

the first regulation and control module is used for calculating the period of the current time, generating control information and sending the control information to the regulation and control center so as to regulate and control the running mode of the basic equipment;

the environment monitoring module is used for sending environmental monitoring data in the transformer room to the regulation and control center, comparing the received data with historical environmental monitoring data in a corresponding period, judging whether the transformer room is abnormal or not, and calculating the duration of the abnormality after the abnormality;

the second regulation and control module is used for judging whether the threshold value is exceeded or not based on the abnormal duration time, and if yes, regulating and controlling the operation of auxiliary equipment; the auxiliary equipment comprises second dehumidification equipment and second cooling equipment.

Further, the information acquisition module further comprises,

the method comprises the steps of acquiring historical electricity load data in each period;

and the first regulation and control module is used for analyzing the association relation based on the weather information and the historical electricity load data, and the first regulation and control module is used for regulating and controlling the running mode of the basic equipment based on the association relation sent by the information acquisition module.

Further, the analyzing the association relation based on the weather information and the historical electricity load data and regulating and controlling the operation mode of the basic equipment based on the association relation comprises the following steps of

Acquiring an internal environment temperature, an internal environment humidity, an external environment temperature and an external environment humidity, and calculating an internal-external temperature difference and an internal-external humidity difference;

acquiring electricity load data, and constructing a regulation and control relation between the internal and external temperature difference, the internal and external humidity difference and the operation mode of basic equipment;

and regulating and controlling the running mode of the basic equipment based on the regulation and control relation.

Further, the regulating and controlling the basic equipment operation mode based on the regulation and control relation comprises

And controlling the temperature or the rotating speed of the first cooling equipment and controlling the dehumidification power of the first dehumidification equipment.

Further, the information acquisition module further comprises,

the method comprises the steps of acquiring historical electricity consumption peak-valley data in each period;

and the second regulation and control module is used for analyzing the association relation based on weather information and historical electricity consumption peak-valley data, and sending a regulation and control auxiliary equipment operation mode based on the association relation.

Further, analyzing the association relation based on weather information and historical electricity consumption peak-valley data, and regulating and controlling the operation mode of auxiliary equipment based on the association relation, wherein the method comprises the following steps of

Acquiring an internal environment temperature, an internal environment humidity, an external environment temperature and an external environment humidity, and calculating an internal-external temperature difference and an internal-external humidity difference;

based on the current power consumption peak valley, constructing a regulation and control relation between the internal and external temperature difference, the internal and external humidity difference, electric load data and an auxiliary equipment operation mode;

based on the regulation and control relation, regulating and controlling the operation mode of the auxiliary equipment.

Further, the information acquisition module further comprises,

the system comprises a first regulation and control module, a second regulation and control module and a control module, wherein the first regulation and control module is used for judging whether the seasonal electricity consumption peak-valley exists or not, and if so, the first regulation and control module regulates and controls the basic equipment and/or the second regulation and control module regulates and controls the auxiliary equipment operation mode;

if the power consumption is the peak valley of the non-seasonal power consumption, judging whether the power consumption is the peak valley of the daily power consumption, and if so, regulating and controlling the operation mode of the auxiliary equipment by the second regulating and controlling module.

Further, judging whether the power consumption is peak-valley, if so, regulating and controlling the operation mode of auxiliary equipment, wherein the method comprises the following steps of

Acquiring distribution of transformers, power distribution cabinets and auxiliary equipment in a power transformation room, and enabling the transformers and the power distribution cabinets to be in charge of power supply area types; wherein the region type includes domestic electricity, agricultural electricity, large industrial electricity and general industrial and commercial electricity;

acquiring loads of transformers and power distribution cabinets related to different power supply area types;

and judging whether a transformer or a power distribution cabinet exceeding a peak preset load range exists, and if so, regulating the operating power of auxiliary equipment in the area where the transformer or the power distribution cabinet is located.

Further, the control auxiliary equipment operation mode comprises

And controlling the temperature or the rotating speed of the second cooling equipment and controlling the dehumidifying power of the second dehumidifying equipment.

The intelligent regulation and control system for the running environment of the transformer room comprises a regulation and control center, an information acquisition module, a first regulation and control module, a second regulation and control module, an environment monitoring module, basic equipment and auxiliary equipment, wherein the first regulation and control module is used for controlling the basic equipment, and the second regulation and control module is used for controlling the auxiliary equipment. The information acquisition unit is utilized to acquire weather information pre-stored in a historical time period of the regulation center, the current time node is matched to guide the regulation basic equipment to enable the power transformation room to operate in a relatively proper environment, the real-time data acquired by the environment monitoring module can be utilized to regulate and control auxiliary equipment to operate so as to micro-regulate and control the operation environment of the power transformation room, and therefore the power transformation room is operated in the most proper environment. Through the basic equipment and the auxiliary equipment that set up, can effectively avoid regulating and control single equipment and bring become electric room internal environment and fluctuate by a wide margin to adopt the auxiliary equipment that can start and stop as basic equipment's supplement, can realize the accurate regulation and control of electric room internal environment, and can effectively save energy, flexibility and suitability are stronger.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic diagram of a system for intelligently regulating and controlling the operating environment of a transformer room according to an embodiment of the invention.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present invention, a detailed description of embodiments of the present invention will be made with reference to the accompanying drawings.

As shown in FIG 1, the intelligent regulation and control system for the running environment of the power transformation room comprises a regulation and control center, basic equipment and auxiliary equipment arranged in the power transformation room, and further comprises

The information acquisition module is used for dividing the historical time period according to a preset period to acquire weather information and a basic equipment operation mode in each period; the basic equipment comprises first dehumidification equipment and first cooling equipment, and the weather information comprises temperature information and humidity information inside and outside the transformer room;

the first regulation and control module is used for calculating the period of the current time, generating control information and sending the control information to the regulation and control center so as to regulate and control the running mode of the basic equipment;

the environment monitoring module is used for sending environmental monitoring data in the transformer room to the regulation and control center, comparing the received data with historical environmental monitoring data in a corresponding period, judging whether the transformer room is abnormal or not, and calculating the duration of the abnormality after the abnormality;

the second regulation and control module is used for judging whether the threshold value is exceeded or not based on the abnormal duration time, and if yes, regulating and controlling the operation of auxiliary equipment; the auxiliary equipment comprises second dehumidification equipment and second cooling equipment.

The intelligent regulation and control system for the running environment of the transformer room comprises a regulation and control center, an information acquisition module, a first regulation and control module, a second regulation and control module, an environment monitoring module, basic equipment and auxiliary equipment, wherein the first regulation and control module is used for controlling the basic equipment, and the second regulation and control module is used for controlling the auxiliary equipment. The information acquisition unit is utilized to acquire weather information pre-stored in a historical time period of the regulation center, the current time node is matched to guide the regulation basic equipment to enable the power transformation room to operate in a relatively proper environment, the real-time data acquired by the environment monitoring module can be utilized to regulate and control auxiliary equipment to operate so as to micro-regulate and control the operation environment of the power transformation room, and therefore the power transformation room is operated in the most proper environment. Through the basic equipment and the auxiliary equipment that set up, can effectively avoid regulating and control single equipment and bring become electric room internal environment and fluctuate by a wide margin to adopt the auxiliary equipment that can start and stop as basic equipment's supplement, can realize the accurate regulation and control of electric room internal environment, and can effectively save energy, flexibility and suitability are stronger.

The information acquisition module is also used for acquiring historical electricity load data in each period;

and the first regulation and control module is used for analyzing the association relation based on the weather information and the historical electricity load data, and the first regulation and control module is used for regulating and controlling the running mode of the basic equipment based on the association relation sent by the information acquisition module.

In this embodiment, analyzing the association relationship specifically includes obtaining an internal environment temperature, an internal environment humidity, an external environment temperature, and an external environment humidity, and calculating an internal-external temperature difference and an internal-external humidity difference;

acquiring electricity load data, and constructing a regulation and control relation between the internal and external temperature difference, the internal and external humidity difference and the operation mode of basic equipment;

and regulating and controlling the running mode of the basic equipment based on the regulation and control relation. In this embodiment, controlling the operation mode of the base device to control the temperature or the rotation speed of the first cooling device and controlling the dehumidification power of the first dehumidification device based on the regulation relationship is included.

The association relation can be modeled by means of multidimensional data, such as the relation of the operating power of the basic equipment, which is established by taking the temperature difference between the inside and the outside as dimensional data and the humidity difference between the inside and the outside as dimensional data and the electricity load as dimensional data, and the operation condition of the basic equipment is observed by changing one piece of data so as to obtain the association relation.

The information acquisition module is also used for acquiring historical power consumption peak-valley data in each period;

and the second regulation and control module is used for analyzing the association relation based on weather information and historical electricity consumption peak-valley data, and sending a regulation and control auxiliary equipment operation mode based on the association relation.

And adding electricity consumption peak-valley data, namely electricity consumption peak-valley data and electricity consumption valley data, as one of the bases for regulating and controlling the transformer rooms. The peak-valley data of the electricity consumption in this embodiment is different from the peak-valley data of the seasonal electricity consumption, and the occurrence of the peak-valley data of the seasonal electricity consumption is mainly represented by the general improvement of the regularity of the electricity consumption, and if the peak occurs based on the air conditioning and heating requirements in summer and autumn and winter. The peak valley of the electricity consumption in this embodiment refers to the peak and valley under the conditions of daily life or business, for example, the peak appears in the residential area at 5-10 pm, while the peak appears in the business area such as the centralized area of office buildings at about 8-10 pm, after the electricity consumption peak appears, the load of the transformer and the power distribution cabinet in the power transformation room increases, and the heat production increases, so that the operation environment of the power transformation room needs to be regulated and controlled temporarily, so that the power transformation room has a suitable operation environment.

The step of analyzing the association relation specifically comprises the steps of obtaining the internal environment temperature, the internal environment humidity, the external environment temperature and the external environment humidity, and calculating the difference between the internal temperature and the external temperature and the difference between the internal humidity and the external humidity;

based on the current power consumption peak valley, constructing a regulation and control relation between the internal and external temperature difference, the internal and external humidity difference, electric load data and an auxiliary equipment operation mode;

based on the regulation and control relation, regulating and controlling the operation mode of the auxiliary equipment. In this embodiment, the control auxiliary device operation mode includes

And controlling the temperature or the rotating speed of the second cooling equipment and controlling the dehumidifying power of the second dehumidifying equipment.

The association relation analysis, which is the same as the above principle, is based on the dimension of the environmental factor, and observes the operation condition of the auxiliary equipment to obtain the association relation, which is not described herein again.

In addition, the information acquisition module further comprises,

the system comprises a first regulation and control module, a second regulation and control module and a control module, wherein the first regulation and control module is used for judging whether the seasonal electricity consumption peak-valley exists or not, and if so, the first regulation and control module regulates and controls the basic equipment and/or the second regulation and control module regulates and controls the auxiliary equipment operation mode;

if the power consumption is the peak valley of the non-seasonal power consumption, judging whether the power consumption is the peak valley of the daily power consumption, and if so, regulating and controlling the operation mode of the auxiliary equipment by the second regulating and controlling module. In this embodiment, whether the power consumption is daily power consumption peak-valley is determined, and if yes, the operation mode of the auxiliary equipment is regulated and controlled, including

Acquiring distribution of transformers, power distribution cabinets and auxiliary equipment in a power transformation room, and enabling the transformers and the power distribution cabinets to be in charge of power supply area types; wherein the region type includes domestic electricity, agricultural electricity, large industrial electricity and general industrial and commercial electricity;

acquiring loads of transformers and power distribution cabinets related to different power supply area types;

and judging whether a transformer or a power distribution cabinet exceeding a peak preset load range exists, and if so, regulating the operating power of auxiliary equipment in the area where the transformer or the power distribution cabinet is located.

The peak-valley of the electricity consumption refers to a peak value and a peak-valley of the seasonal electricity consumption, and most areas are four-level clear because of wide amplitude of operators in China, and heating is needed in summer and winter, so that the peak-valley of the seasonal electricity consumption has remarkable characteristics compared with other seasons. Therefore, the peak valley of seasonal electricity consumption is obtained, and the operation of the basic equipment is adjusted to adapt to seasonal requirements. Of course, the suboptimal selection may also be achieved by changing the operation of the auxiliary equipment so that a suitable operating environment is provided in the transformer room.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (9)

1. The intelligent regulation and control system for the running environment of the power transformation room comprises a regulation and control center, basic equipment and auxiliary equipment, wherein the basic equipment and the auxiliary equipment are arranged in the power transformation room, and is characterized by further comprising

The information acquisition module is used for dividing the historical time period according to a preset period to acquire weather information and a basic equipment operation mode in each period; the basic equipment comprises first dehumidification equipment and first cooling equipment, and the weather information comprises temperature information and humidity information inside and outside the transformer room;

the first regulation and control module is used for calculating the period of the current time, generating control information and sending the control information to the regulation and control center so as to regulate and control the running mode of the basic equipment;

the environment monitoring module is used for sending environmental monitoring data in the transformer room to the regulation and control center, comparing the received data with historical environmental monitoring data in a corresponding period, judging whether the transformer room is abnormal or not, and calculating the duration of the abnormality after the abnormality;

the second regulation and control module is used for judging whether the threshold value is exceeded or not based on the abnormal duration time, and if yes, regulating and controlling the operation of auxiliary equipment; the auxiliary equipment comprises second dehumidification equipment and second cooling equipment.

2. The intelligent regulation and control system of the operating environment of the transformer substation according to claim 1, wherein the information acquisition module further comprises,

the method comprises the steps of acquiring historical electricity load data in each period;

and the first regulation and control module is used for analyzing the association relation based on the weather information and the historical electricity load data, and the first regulation and control module is used for regulating and controlling the running mode of the basic equipment based on the association relation sent by the information acquisition module.

3. The intelligent regulation and control system for the operation environment of the power transformation room according to claim 2, wherein the analysis of the association relation based on the weather information and the historical power load data and the regulation and control of the operation mode of the basic equipment based on the association relation comprise the following steps of

Acquiring an internal environment temperature, an internal environment humidity, an external environment temperature and an external environment humidity, and calculating an internal-external temperature difference and an internal-external humidity difference;

acquiring electricity load data, and constructing a regulation and control relation between the internal and external temperature difference, the internal and external humidity difference and the operation mode of basic equipment;

and regulating and controlling the running mode of the basic equipment based on the regulation and control relation.

4. The intelligent regulation and control system for operating environment of power transformation room according to claim 3, wherein the regulation and control relation-based basic equipment operation mode comprises

And controlling the temperature or the rotating speed of the first cooling equipment and controlling the dehumidification power of the first dehumidification equipment.

5. The intelligent regulation and control system of the operating environment of the transformer substation according to claim 1, wherein the information acquisition module further comprises,

the method comprises the steps of acquiring historical electricity consumption peak-valley data in each period;

and the second regulation and control module is used for analyzing the association relation based on weather information and historical electricity consumption peak-valley data, and sending a regulation and control auxiliary equipment operation mode based on the association relation.

6. The intelligent regulation and control system of a transformer substation operation environment according to claim 5, wherein the analysis of the correlation relationship based on weather information and historical electricity consumption peak-to-valley data and the regulation and control of the auxiliary equipment operation mode based on the correlation relationship comprise

Acquiring an internal environment temperature, an internal environment humidity, an external environment temperature and an external environment humidity, and calculating an internal-external temperature difference and an internal-external humidity difference;

based on the current power consumption peak valley, constructing a regulation and control relation between the internal and external temperature difference, the internal and external humidity difference, electric load data and an auxiliary equipment operation mode;

based on the regulation and control relation, regulating and controlling the operation mode of the auxiliary equipment.

7. The intelligent regulation and control system of a transformer room operating environment according to claim 6, wherein the information acquisition module further comprises,

the system comprises a first regulation and control module, a second regulation and control module and a control module, wherein the first regulation and control module is used for judging whether the seasonal electricity consumption peak-valley exists or not, and if so, the first regulation and control module regulates and controls the basic equipment and/or the second regulation and control module regulates and controls the auxiliary equipment operation mode;

if the power consumption is the peak valley of the non-seasonal power consumption, judging whether the power consumption is the peak valley of the daily power consumption, and if so, regulating and controlling the operation mode of the auxiliary equipment by the second regulating and controlling module.

8. The intelligent regulation and control system for operating environment of power transformation room according to claim 5, wherein the intelligent regulation and control system is characterized by judging whether the power transformation room is a peak valley of daily power consumption, and if so, regulating and controlling the operation mode of auxiliary equipment, comprising

Acquiring distribution of transformers, power distribution cabinets and auxiliary equipment in a power transformation room, and enabling the transformers and the power distribution cabinets to be in charge of power supply area types; wherein the region type includes domestic electricity, agricultural electricity, large industrial electricity and general industrial and commercial electricity;

acquiring loads of transformers and power distribution cabinets related to different power supply area types;

and judging whether a transformer or a power distribution cabinet exceeding a peak preset load range exists, and if so, regulating the operating power of auxiliary equipment in the area where the transformer or the power distribution cabinet is located.

9. The intelligent regulation system of a power transformation room operating environment according to claim 8, wherein the regulation auxiliary equipment operating mode comprises

And controlling the temperature or the rotating speed of the second cooling equipment and controlling the dehumidifying power of the second dehumidifying equipment.