CN116562597A - Energy internet scheduling and controlling method - Google Patents

Abstract

The invention discloses an energy internet dispatching and controlling method, which is characterized in that energy consumption time and speed data, reserve energy storage data, energy supply type distribution data, energy transmission loss rate data and energy dispatching efficiency data of commercial, industrial and residential energy supply in a planning area are collected, when the commercial, industrial and residential energy supply is connected with an intelligent energy comprehensive management platform and a dispatching instruction is not sent to the intelligent energy comprehensive management platform of the commercial, industrial and residential energy supply collection place, the energy dispatching range of the commercial, industrial and residential energy supply energy storage pool on a receiving transmission line is monitored in real time, and the maximum allowable dispatching quantity of the range of the energy supply transmission line data currently measured by the commercial, industrial and residential energy supply collection place intelligent energy comprehensive management platform is determined according to the real-time energy use data, the energy storage pool dispatching interval and the energy dispatching range; the invention can effectively improve the efficiency of energy scheduling.

Description

Energy internet scheduling and controlling method

Technical Field

The invention relates to the field of energy scheduling, in particular to an energy internet scheduling and control method.

Background

The energy scheduling is used for ensuring that the energy of the company can be reasonably distributed, so that the energy of the company can be reasonably utilized to each post, the energy of the company can be stably output, the high energy consumption department and the low energy consumption department can stably carry out production work, the production efficiency inside the company can be improved by reasonably distributing the energy, and the production time is saved.

The problems caused are as follows: the traditional energy allocation work is often controlled by workers to control the flow rate and output quantity of energy to each department, and the traditional energy allocation work can not effectively and reasonably allocate the energy, so that the occurrence of energy surplus or energy shortage can be caused.

Traditional energy allocation is often controlled through a plurality of valves or a plurality of controllers, and integrated control can not be realized.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention provides an energy Internet scheduling and control method.

The invention adopts the technical scheme that on one hand, the invention provides an energy internet scheduling and controlling method, which comprises the following steps:

collecting energy consumption time and speed data of commercial, industrial and residential energy supply, reserve energy data and energy supply type distribution data, energy transmission loss rate data and energy scheduling efficiency data of a planning area;

when the intelligent energy comprehensive management platform is connected with the energy supply of the business, industry and residents in the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform for collecting the energy supply of the business, industry and residents, the energy scheduling range of the energy supply energy storage pool of the business, industry and residents on the receiving transmission line is monitored in real time;

and determining the maximum allowable dispatching quantity of the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for the energy supply collection places of businesses, industry and residents according to the real-time energy use data, the energy storage pool dispatching interval and the energy dispatching range.

The energy internet scheduling and controlling method of the device is characterized in that energy consumption time and speed data, reserve energy storage data and energy supply type distribution data, energy transmission loss rate data and energy scheduling efficiency data of commercial, industrial and residential energy supply in a planning area are collected, when intelligent energy comprehensive management platforms are connected to the commercial, industrial and residential energy supply in the planning area and scheduling instructions are not sent to the intelligent energy comprehensive management platforms of the commercial, industrial and residential energy supply acquisition places, the energy scheduling range of the commercial, industrial and residential energy supply energy storage tanks on the power transmission lines is monitored in real time, and the maximum allowable scheduling quantity of the range of the energy supply transmission line data currently measured by the commercial, industrial and residential energy supply acquisition places is determined according to the real-time energy use data, the energy storage tank scheduling interval and the energy scheduling range; and determining the maximum scheduling amount allowed by the range of the currently measured energy supply transmission line data by combining the inherent characteristics of commercial, industrial and residential energy supply of the planning area and the energy scheduling range, and updating the maximum scheduling amount allowed by the range in real time to timely reflect the current error interference condition of the device, so that the measurement result can be more accurate by eliminating the error interference after the measured energy supply transmission line is acquired.

In one embodiment, the step of determining the maximum allowable scheduling amount of the range of the power supply transmission line data currently measured by the intelligent energy comprehensive management platform for commercial, industrial and residential power supply collection according to the real-time energy use data, the energy storage pool scheduling interval and the energy scheduling range specifically includes:

when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range;

when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range;

when the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

In one embodiment, after the step of determining the maximum allowable scaling amount of the range of the power transmission line data currently measured by the intelligent comprehensive energy management platform for commercial, industrial and residential power supply collection according to the real-time energy usage data, the energy storage pool scheduling interval and the energy scheduling range, the method further comprises:

and determining the scheduling efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and residential energy supply acquisition places according to the maximum scheduling amount allowed by the range and the receiving energy storage pool scheduling interval currently received by the commercial, industrial and residential energy supply energy storage pools.

In one embodiment, the step of determining the scheduling efficiency of the energy supply power line data currently measured by the intelligent energy comprehensive management platform for the commercial, industrial and residential energy supply collection according to the maximum scheduling amount allowed by the range and the received energy storage pool scheduling interval currently received by the commercial, industrial and residential energy storage pool specifically comprises the following steps:

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pools is lower than the maximum dispatching amount allowed by the range, the initial value of the dispatching efficiency is monitored abnormally;

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pool exceeds the maximum dispatching amount allowed by the range, the dispatching efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and resident energy supply collection places is obtained by subtracting the maximum dispatching amount allowed by the range from the dispatching interval of the receiving energy storage pool.

In one embodiment, when the intelligent energy comprehensive management platform is connected to the commercial, industrial and residential energy supply of the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform of the commercial, industrial and residential energy supply collection area, the step of monitoring the energy scheduling range of the commercial, industrial and residential energy supply energy storage pool on the receiving transmission line in real time is specifically as follows:

and when the intelligent energy comprehensive management platform is connected with the energy supply of the business, industry and residents in the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform for collecting the energy supply of the business, industry and residents, collecting a plurality of energy use data received by the energy storage pool of the business, industry and residents in real time, and obtaining the energy scheduling range on the receiving transmission line of the energy storage pool of the business, industry and residents by adopting a gray prediction algorithm according to the plurality of energy use data.

In one embodiment, the standard data redundancy culling in the specific environment varies depending on the environment in which the planned area is commercial, industrial, residential.

On the other hand, the invention provides an energy internet scheduling and controlling method of the device, which comprises the following steps:

the business, industry and resident energy supply data acquisition unit is used for acquiring energy consumption time and speed data, reserve data and energy supply type distribution data of standby energy, energy transmission loss rate data and energy scheduling efficiency data of business, industry and resident energy supply in a planning area;

the real-time scheduling efficiency evaluation unit is used for connecting the business, industry and resident energy supply to the intelligent energy comprehensive management platform in the planning area, and monitoring the energy scheduling range of the business, industry and resident energy supply energy storage pool on the receiving transmission line in real time when a scheduling instruction is not sent to the intelligent energy comprehensive management platform of the business, industry and resident energy supply acquisition place;

and the maximum scheduling amount determining unit is used for determining the maximum scheduling amount allowed by the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for the energy supply collection places of business, industry and residents according to the real-time energy use data, the energy storage pool scheduling interval and the energy scheduling range.

In one embodiment, the maximum scheduling amount determining unit is specifically configured to:

when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range;

when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range;

when the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

In one embodiment, the method further comprises:

and the current energy supply power line acquisition unit is used for determining the scheduling efficiency of the energy supply power line data currently measured by the intelligent energy comprehensive management platform for the energy supply energy collection places of the business, industry and residents according to the maximum scheduling amount allowed by the range and the receiving energy storage pool scheduling interval currently received by the energy storage pools for the business, industry and residents.

In one embodiment, the currently powered power line harvesting unit is specifically configured to:

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pools is lower than the maximum dispatching amount allowed by the range, the initial value of the dispatching efficiency is monitored abnormally;

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pool exceeds the maximum dispatching amount allowed by the range, the dispatching efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and resident energy supply collection places is obtained by subtracting the maximum dispatching amount allowed by the range from the dispatching interval of the receiving energy storage pool.

The beneficial effects are that:

the invention provides an energy internet dispatching and controlling method, which can rapidly process commercial, industrial and resident energy supply data and send out the data, ensures that the commercial, industrial and resident energy supply data can be processed timely and accurately, and filters errors in the processing process, so that the judgment of the commercial, industrial and resident energy supply data is more accurate, thereby forming a set of monitoring dispatching efficiency evaluation method. The method provided by the invention can be combined with the control of the power transmission line to realize the effective scheduling of energy, overcomes the defect that the traditional energy allocation work is often controlled by workers on each valve, and improves the working efficiency.

Drawings

FIG. 1 is a flow chart of the method of the present invention;

FIG. 2 is a functional diagram of a method of the present invention using modules.

Detailed Description

It should be noted that, without conflict, the embodiments and features of the embodiments in the present application may be combined with each other, and the present application will be further described in detail with reference to the drawings and the specific embodiments.

Referring to fig. 1, fig. 1 is a flowchart of an energy internet scheduling and control method of the device in an embodiment.

Step S100: and collecting energy consumption time and speed data of commercial, industrial and residential energy supply, reserve energy data and energy supply type distribution data of standby energy, energy transmission loss rate data and energy scheduling efficiency data of a planning area.

When the business, industry and resident energy supply of the planning area is not connected to the intelligent energy comprehensive management platform, the static error energy storage pool scheduling interval of the business, industry and resident energy storage pool circuit is measured, namely energy consumption time and speed data and reserve data of standby energy can be acquired in a single-board radio frequency channel test in the production process. The intelligent comprehensive management platform for the business, industry and resident energy supply collection places is characterized in that after the intelligent comprehensive management platform for the business, industry and resident energy supply collection places collects energy transmission line data, the intelligent comprehensive management platform for the business, industry and resident energy supply places sends the energy transmission line data to business, industry and resident energy supply energy storage pools of a planning area through a wireless communication unit, the business, industry and resident energy supply energy storage pools convey the energy transmission line data to processors of the business, industry and resident energy supply places for receiving and processing the energy transmission line data, and the energy consumption time and speed data of the business, industry and resident energy supply energy storage pools and the reserve data of standby energy reflect inherent errors of receiving paths of the business, industry and resident energy supply energy storage pools, and the inherent errors can directly influence scheduling efficiency of the energy transmission line data finally collected by the business, industry and resident energy supply places in the planning area.

After receiving the energy supply power line data sent by the intelligent energy comprehensive management platform of the wireless business, industry and resident energy supply collection places, the business, industry and resident energy supply energy storage pools send the energy supply power line data to the processor of the business, industry and resident energy supply in the planning area, and the sent energy supply power line data cannot exceed the energy supply type distribution data, the energy transmission loss rate data and the energy scheduling efficiency data of the energy supply power line energy storage pools, namely the scheduling interval of the most detailed energy supply power line energy storage pools.

Step S200: and when the intelligent energy comprehensive management platform is connected with the energy supply of the business, industry and residents in the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform for collecting the energy supply of the business, industry and residents, the energy scheduling range of the energy supply energy storage pool of the business, industry and residents on the receiving transmission line is monitored in real time.

The intelligent energy comprehensive management platform can realize equipment data acquisition and coordination control of an energy micro-grid and an optical storage station, provides guarantee for safe, stable and efficient operation of the system, and effectively improves economic benefit. By means of Energy AI technology, mass Energy operation data are collected and deeply analyzed, continuous simulation training of a smart grid model, a solar Energy and wind Energy model, a BSS operation model, a demand side data model and the like is achieved, and accurate demand side response, power generation amount prediction and BSS operation prediction are achieved to aim at pushing and achieving 'carbon peak and carbon neutralization'.

The energy supply of planning area business, industry, resident still includes wisdom energy integrated management platform, and the transmitter of planning area business, industry, resident's energy supply and business, industry, resident's energy supply energy storage pond pass through wisdom energy integrated management platform and receive data, and after the access wisdom energy integrated management platform, current environmental error can be received by business, industry, resident's energy supply energy storage pond through this wisdom energy integrated management platform, and the environmental interference condition that current environmental error and the integral correspondence of intrinsic error of business, industry, resident's energy supply energy storage pond can be reflected to the error energy storage pond dispatch interval on the passageway of detecting business, industry, resident's energy supply energy storage pond this moment.

And collecting a plurality of energy use data received by the commercial, industrial and resident energy storage pools at the moment in real time, storing the energy use data in a stack in a first-in first-out storage mode, and alternately predicting the energy use data by adopting a sliding window average algorithm or a Gaussian weighted gray prediction algorithm according to the closest plurality of energy use data to obtain the energy scheduling range of the commercial, industrial and resident energy storage pools.

Step S300: and determining the maximum allowable dispatching quantity of the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for the energy supply collection places of businesses, industry and residents according to the real-time energy use data, the energy storage pool dispatching interval and the energy dispatching range.

When the device works, the energy scheduling range after the business, industry and resident energy supply of the planning area is accessed to the intelligent energy comprehensive management platform can directly influence the energy supply power transmission line energy storage pool scheduling interval sampled by the wireless intelligent energy comprehensive management platform for the final acquisition of the business, industry and resident energy supply of the planning area, and the energy supply scheduling range needs to be removed so as to ensure the accuracy of the detection of the energy supply power transmission line data and improve the detection precision.

The energy scheduling range comprises inherent real-time errors of commercial, industrial and resident energy-supply energy storage pools, so that the energy scheduling range corresponding to the energy scheduling range after the commercial, industrial and resident energy supply of a planning area is accessed to the intelligent energy comprehensive management platform is larger than the energy consumption time and speed data of the commercial, industrial and resident energy-supply energy storage pools and the reserve data of standby energy under the general condition.

The method comprises the steps of setting the maximum scheduling amount allowed by the range of the currently measured energy supply power line data, wherein the maximum scheduling amount allowed by the range can reflect error interference conditions of the device under the current working environment to a great extent, and determining the scheduling efficiency of the energy supply power line data by taking the maximum scheduling amount allowed by the range as a reference after planning energy supply power line data acquired by regional business, industrial and resident energy supply acquisition to wireless business, industrial and resident energy supply acquisition intelligent energy comprehensive management platforms.

In one embodiment, the maximum allowable scheduling amount for the range of currently measured power transmission line data is determined by:

and when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range.

And when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range.

When the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

In one embodiment, the standard data redundancy culling in this particular environment varies depending on the environment in which the planned area is commercial, industrial, residential.

The energy internet scheduling and controlling method comprises the steps of collecting energy consumption time and speed data of business, industrial and residential energy supply, reserve energy storage data, energy supply type distribution data, energy transmission loss rate data and energy scheduling efficiency data of a planning area, connecting an intelligent energy comprehensive management platform to business, industrial and residential energy supply in the planning area, collecting a plurality of energy use data received by an intelligent energy storage pond of the business, industrial and residential energy supply in real time when a scheduling instruction is not sent to the intelligent energy comprehensive management platform of the business, industrial and residential energy supply, obtaining an energy scheduling range according to the plurality of energy use data, and determining the maximum allowable scheduling quantity of the range of the energy transmission line data currently measured by the intelligent energy comprehensive management platform of the business, industrial and residential energy supply according to the real-time energy use data, an energy storage pond scheduling interval and the energy scheduling range; and determining the maximum scheduling amount allowed by the range of the currently measured energy supply power line data by combining the inherent characteristics of commercial, industrial and residential energy supply of the planning area and the energy scheduling range on the receiving path of the commercial, industrial and residential energy supply energy storage pool, wherein the maximum scheduling amount allowed by the range is updated in real time to reflect the current error interference condition of the device, and determining the scheduling interval of the currently measured energy supply power line energy storage pool by taking the maximum scheduling amount allowed by the range as a reference, so that the energy supply power line measured by the device is little interfered by the environment, and the measurement result is accurate.

In this embodiment, an energy internet scheduling and controlling method of the device includes:

and collecting energy consumption time and speed data of commercial, industrial and residential energy supply, reserve energy data and energy supply type distribution data of standby energy, energy transmission loss rate data and energy scheduling efficiency data of a planning area.

And when the intelligent energy comprehensive management platform is connected with the energy supply of the business, industry and residents in the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform for collecting the energy supply of the business, industry and residents, collecting a plurality of energy use data received by the energy storage pool of the business, industry and residents in real time, and obtaining the energy scheduling range on the receiving passage of the energy storage pool of the business, industry and residents by adopting a gray prediction algorithm according to the plurality of energy use data.

And judging the energy scheduling range, the real-time energy use data and the size of an energy storage pool scheduling interval.

And when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range.

And when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range.

When the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

The rationality of the energy scheduling range is judged by the energy consumption time and speed data of the commercial, industrial and resident energy supply energy storage tanks, the reserve data of the standby energy, the energy supply type distribution data, the energy transmission loss rate data and the energy scheduling efficiency data. And when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range reflecting the current interference condition of the device.

Comparing the current received dispatching interval of the commercial, industrial and resident energy supply energy storage pools with the maximum dispatching amount allowed by the range, and when the dispatching interval of the received energy storage pools exceeds the maximum dispatching amount allowed by the range, subtracting the maximum dispatching amount allowed by the range from the dispatching interval of the received energy storage pools by the dispatching efficiency of the current measured energy supply power line data of the commercial, industrial and resident energy supply and acquisition intelligent integrated energy management platform: and when the scheduling interval of the receiving energy storage pool is lower than the maximum scheduling amount allowed by the range, monitoring the scheduling efficiency initial value to be abnormal.

After the receiving energy storage pool dispatching interval currently received by the commercial, industrial and resident energy storage pools is collected, the receiving energy storage pool dispatching interval is compared with the maximum dispatching quantity allowed by the range reflecting the current error interference condition, when the receiving energy storage pool dispatching interval exceeds the maximum dispatching quantity allowed by the range, the result of subtracting the maximum dispatching quantity allowed by the range from the receiving energy storage pool dispatching interval is used as the dispatching efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for commercial, industrial and resident energy collection.

When the energy storage pool scheduling interval is lower than the maximum scheduling amount allowed by the range, namely the energy use data corresponding to the current error interference condition reflected by the maximum scheduling amount allowed by the range is not reached, the energy supply power line data obtained by the measurement is abnormal, and the abnormality is evaluated.

According to the energy internet scheduling and control method of the device, the intrinsic characteristics of commercial, industrial and residential energy supply of a planning area and the maximum scheduling amount allowed by the range of currently measured energy supply transmission line data are combined, the maximum scheduling amount allowed by the range is updated in real time to reflect the current error interference condition of the device, the current measured energy supply transmission line energy storage pool scheduling interval is determined based on the maximum scheduling amount allowed by the range, the energy supply transmission line energy storage pool scheduling interval actually acquired by commercial, industrial and residential energy supply of the planning area is the maximum scheduling amount allowed by the range subtracted from the receiving energy storage pool scheduling interval currently received by the commercial, industrial and residential energy supply energy storage pool, so that the energy supply transmission line measured by the device is small in environmental interference, and the measurement result is accurate.

Referring to fig. 2, a unit composition diagram of an implementation of an energy internet scheduling and control method according to an embodiment is shown.

In this embodiment, an energy internet scheduling and controlling method of the device includes:

the business, industry and resident energy supply data acquisition unit is used for acquiring energy consumption time and speed data, reserve data and energy supply type distribution data of standby energy, energy transmission loss rate data and energy scheduling efficiency data of business, industry and resident energy supply in a planning area.

And the real-time scheduling efficiency evaluation unit is used for connecting the business, industry and resident energy supply to the intelligent energy comprehensive management platform in the planning area, and monitoring the energy scheduling range of the business, industry and resident energy supply energy storage pool on the receiving transmission line in real time when a scheduling instruction is not sent to the intelligent energy comprehensive management platform of the business, industry and resident energy supply acquisition place. The method specifically comprises the steps of collecting a plurality of energy use data received by commercial, industrial and residential energy storage pools in real time, and obtaining the energy scheduling range of the commercial, industrial and residential energy storage pools on a receiving power line by adopting a gray prediction algorithm according to the plurality of energy use data.

And the maximum scheduling amount determining unit is used for determining the maximum scheduling amount allowed by the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for the energy supply collection places of business, industry and residents according to the real-time energy use data, the energy storage pool scheduling interval and the energy scheduling range.

In one embodiment, the maximum scheduling amount determining unit is specifically configured to:

when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range;

when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range;

when the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

In one embodiment, the energy internet scheduling and controlling method further includes:

and the current energy supply power line acquisition unit is used for determining the scheduling efficiency of the energy supply power line data currently measured by the intelligent energy comprehensive management platform for the energy supply energy collection places of the business, industry and residents according to the maximum scheduling amount allowed by the range and the receiving energy storage pool scheduling interval currently received by the energy storage pools for the business, industry and residents.

In one embodiment, the currently powered power line harvesting unit is specifically configured to:

and when the currently received scheduling interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pool is lower than the maximum scheduling amount allowed by the range, monitoring the scheduling efficiency initial value to be abnormal.

When the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pool exceeds the maximum dispatching amount allowed by the range, the dispatching efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and resident energy supply collection places is obtained by subtracting the maximum dispatching amount allowed by the range from the dispatching interval of the receiving energy storage pool.

The energy Internet dispatching and controlling method combines the inherent characteristics of business, industry and resident energy supply in planning area, including energy consumption time and speed data, reserve energy data and energy supply type distribution data, energy transmission loss rate data and energy dispatching efficiency data, judges the rationality of the energy dispatching range on the receiving path of business, industry and resident energy supply energy storage pool, when the energy dispatching range is between the energy consumption time and speed data of business, industry and resident energy storage pool, reserve energy data and energy storage pool dispatching range, it is used as the maximum dispatching quantity allowed by the range of the current measured energy supply power line data, the maximum dispatching quantity allowed by the range is updated in real time to reflect the error interference condition of the current position of the device, the current measured energy supply power line energy storage pool dispatching range is determined based on the maximum dispatching quantity allowed by the range, the power line energy storage pool dispatching range actually collected by business, industry and resident energy supply is the current received energy storage pool dispatching range minus the maximum dispatching error allowed by the range, namely, the current power line energy storage pool dispatching error is removed, so that the measured energy supply power line is accurately measured in small environment.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art in a specific case.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various equivalent changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The energy Internet scheduling and controlling method is characterized by comprising the following steps:

collecting energy consumption time and speed data of commercial, industrial and residential energy supply, reserve energy data and energy supply type distribution data, energy transmission loss rate data and energy scheduling efficiency data of a planning area;

when the intelligent energy comprehensive management platform is connected with the energy supply of the business, industry and residents in the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform for collecting the energy supply of the business, industry and residents, the energy scheduling range of the energy supply energy storage pool of the business, industry and residents on the receiving transmission line is monitored in real time;

and determining the maximum allowable dispatching quantity of the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for the energy supply collection places of businesses, industry and residents according to the real-time energy use data, the energy storage pool dispatching interval and the energy dispatching range.

2. The energy internet dispatching and controlling method according to claim 1, wherein the step of determining the maximum dispatching amount allowed by the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for commercial, industrial and residential energy supply collection according to the real-time energy use data, the energy storage pool dispatching interval and the energy dispatching range is specifically as follows:

when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range;

when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range;

when the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

3. The energy internet dispatching and controlling method as recited in claim 1, wherein after the step of determining the maximum allowable dispatching amount of the range of the power supply transmission line data currently measured by the intelligent energy comprehensive management platform for commercial, industrial and residential power supply collection according to the real-time energy use data, the energy storage pool dispatching interval and the energy dispatching range, the method further comprises:

and determining the scheduling efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and residential energy supply acquisition places according to the maximum scheduling amount allowed by the range and the receiving energy storage pool scheduling interval currently received by the commercial, industrial and residential energy supply energy storage pools.

4. The energy internet dispatching and controlling method according to claim 3, wherein the step of determining the dispatching efficiency of the energy supply power line data currently measured by the intelligent energy comprehensive management platform for commercial, industrial and residential energy supply collection according to the maximum dispatching amount allowed by the range and the dispatching interval of the receiving energy storage pool currently received by the commercial, industrial and residential energy storage pool is specifically as follows:

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pools is lower than the maximum dispatching amount allowed by the range, the initial value of the dispatching efficiency is monitored abnormally;

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pool exceeds the maximum dispatching amount allowed by the range, the dispatching efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and resident energy supply collection places is obtained by subtracting the maximum dispatching amount allowed by the range from the dispatching interval of the receiving energy storage pool.

5. The energy internet dispatching and controlling method according to claim 1, wherein when the intelligent energy integrated management platform is connected to the commercial, industrial and residential energy supply of the planning area and a dispatching instruction is not sent to the intelligent energy integrated management platform of the commercial, industrial and residential energy supply collection place, the step of monitoring the energy dispatching range of the commercial, industrial and residential energy supply energy storage pool on the receiving transmission line in real time is specifically as follows:

and when the intelligent energy comprehensive management platform is connected with the energy supply of the business, industry and residents in the planning area and a scheduling instruction is not sent to the intelligent energy comprehensive management platform for collecting the energy supply of the business, industry and residents, collecting a plurality of energy use data received by the energy storage pool of the business, industry and residents in real time, and obtaining the energy scheduling range on the receiving transmission line of the energy storage pool of the business, industry and residents by adopting a gray prediction algorithm according to the plurality of energy use data.

6. An energy internet scheduling and controlling method according to any one of claims 1-5, the method being implemented by the action of different units, comprising:

the business, industry and resident energy supply data acquisition unit is used for acquiring energy consumption time and speed data, reserve data and energy supply type distribution data of standby energy, energy transmission loss rate data and energy scheduling efficiency data of business, industry and resident energy supply in a planning area;

the real-time scheduling efficiency evaluation unit is used for connecting the business, industry and resident energy supply to the intelligent energy comprehensive management platform in the planning area, and monitoring the energy scheduling range of the business, industry and resident energy supply energy storage pool on the receiving transmission line in real time when a scheduling instruction is not sent to the intelligent energy comprehensive management platform of the business, industry and resident energy supply acquisition place;

and the maximum scheduling amount determining unit is used for determining the maximum scheduling amount allowed by the range of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform for the energy supply collection places of business, industry and residents according to the real-time energy use data, the energy storage pool scheduling interval and the energy scheduling range.

7. The energy internet scheduling and controlling method according to claim 6, wherein the maximum scheduling amount determining unit is specifically configured to:

when the energy scheduling range is positioned between the real-time energy use data and the energy storage pool scheduling interval, taking the energy scheduling range as the maximum scheduling amount allowed by the range;

when the energy scheduling range is weaker than the real-time energy use data, taking the real-time energy use data as the maximum scheduling amount allowed by the range;

when the energy scheduling range exceeds the energy storage pool scheduling interval, subtracting the standard data redundancy under the specific environment from the energy storage pool scheduling interval, and taking the energy storage pool scheduling interval as the maximum scheduling amount allowed by the range.

8. The energy internet scheduling and control method according to claim 6, further comprising:

and the current energy supply power line acquisition unit is used for determining the scheduling efficiency of the energy supply power line data currently measured by the intelligent energy comprehensive management platform for the energy supply energy collection places of the business, industry and residents according to the maximum scheduling amount allowed by the range and the receiving energy storage pool scheduling interval currently received by the energy storage pools for the business, industry and residents.

9. The energy internet scheduling and controlling method according to claim 8, wherein the current energy supply power line acquisition unit is specifically configured to:

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pools is lower than the maximum dispatching amount allowed by the range, the initial value of the dispatching efficiency is monitored abnormally;

when the current received dispatching interval of the receiving energy storage pool of the commercial, industrial and resident energy storage pool exceeds the maximum dispatching amount allowed by the range, the dispatching efficiency of the energy supply transmission line data currently measured by the intelligent energy comprehensive management platform of the commercial, industrial and resident energy supply collection places is obtained by subtracting the maximum dispatching amount allowed by the range from the dispatching interval of the receiving energy storage pool.