阅读说明：本技术 一种基于量化管控的调度潮汐值班系统及方法 (Scheduling tide duty system and method based on quantitative management and control ) 是由 廖云 潘连荣 蔡宛达 胡宇阳 杨加意 徐忠文 梁树欢 冯华铭 于 2021-06-28 设计创作，主要内容包括：本发明公开了一种基于量化管控的调度潮汐值班系统及方法,其方法包括：读取指定时间范围内的检修申请单；对读取的检修申请单内容进行解析；根据操作强度评分原则对解析后的检修申请单进行操作强度计算；根据计算得到的总操作强度值进行操作风险评估；根据操作风险强度计算出潮汐值班表。本发明实施例实现协同调度值班,提升潮汐值班调度服务的质量。(The invention discloses a tide scheduling duty system and a tide scheduling duty method based on quantitative management and control, wherein the method comprises the following steps: reading a maintenance request form within a specified time range; analyzing the read content of the maintenance application form; calculating the operation intensity of the analyzed maintenance request sheet according to an operation intensity scoring principle; performing operation risk assessment according to the calculated total operation intensity value; and calculating a tide duty table according to the operation risk intensity. The embodiment of the invention realizes the coordinated dispatching on duty and improves the quality of tide dispatching service on duty.)

1. A method for dispatching tides on duty based on quantitative management and control, characterized in that the method comprises the following steps:

reading a maintenance request form within a specified time range;

analyzing the read content of the maintenance application form;

calculating the operation intensity of the analyzed maintenance request sheet according to an operation intensity scoring principle;

performing operation risk assessment according to the calculated total operation intensity value;

and calculating a tide duty table according to the operation risk intensity.

2. The scheduled tidal watch method based on quantitative management and control of claim 1, wherein the reading of the service application form within a specified time range comprises:

and reading the number of the maintenance request form, the state of the maintenance request form, the application unit, the work content and the middle regulation and the batch in the maintenance request form system.

3. The scheduled tidal watch method based on quantitative management and control of claim 2, wherein the reading of the Zhongtun replies in the service application form within the specified time range further comprises: the method comprises the following steps of approving the power failure operation starting time, the work approving ending time, the power restoration operation ending time, mode comments, sections and risks.

4. The scheduled tidal watch method based on quantitative management and control of claim 3, wherein the parsing of the read contents of the service application form comprises: screening out an overhaul application form with the approved power failure operation starting time and the approved power restoration operation ending time within a specified time range, wherein the identification mode opinions in the screened overhaul application form comprise an overhaul application form of 'converting to cold standby', 'converting to overhaul' or 'new equipment starting scheme management', an overhaul application form with power grid risks and an overhaul application form related to complex mode adjustment.

5. The dispatching tide duty method based on quantitative management and control as claimed in claim 4, wherein the calculating operation intensity of the analyzed service application form according to the operation intensity scoring principle comprises:

acquiring the number N1 of maintenance request sheets containing 'converting to cold standby' or 'converting to maintenance', wherein the operation intensity score of each maintenance request sheet is 2, and the operation intensity score of 'converting to cold standby' or 'converting to maintenance' is as follows: delta S₁＝2N₁；

Acquiring a maintenance request form N2 containing new equipment starting scheme management, wherein the operation intensity score of each maintenance request form is 3 points, and the operation intensity score aiming at the new equipment starting scheme management is as follows: delta S₂＝3N₂；

Acquiring the number of maintenance request forms with different risk levels in the maintenance request form with the power grid risk, wherein the operation intensity score values aiming at the power grid risk levels are as follows: delta S₃＝3N₃+4N₄+5N₅+10N₆+15N₇Wherein: the number of overhaul request sheets with V-level, IV-level, III-level, II-level and I-level risks of a power grid is N3, N4, N5, N6 and N7 respectively, wherein the operation intensity score of the overhaul request sheet with the V-level risk is 3, the operation intensity score of the overhaul request sheet with the IV-level risk is 4, the operation intensity score of the overhaul request sheet with the III-level risk is 5, the operation intensity score of the overhaul request sheet with the II-level risk is 10 and the operation intensity score of the overhaul request sheet with the I-level risk is 15;

acquiring and analyzing the content of the maintenance request form to obtain the maintenance request form number of which the work content comprises 'operation mode adjustment' as N8, wherein the operation intensity score of each maintenance request form is 4, and the operation intensity score aiming at 'operation mode adjustment' is as follows: delta S₄＝4N₈；

Acquiring and analyzing the content of the maintenance request form to obtain the line number L in the mode opinion, wherein the number of the maintenance request forms is N9 when the line number L meets the condition that L is more than or equal to 10 and less than 20, and the number of the maintenance request forms is N10 when the line number L meets the condition that L is more than or equal to 20; if the operation intensity calculation has the operation intensity score of ' new equipment starting scheme management ', the operation intensity score of the power grid risk level and ' operationAnd when the operation intensity score of the mode adjustment is calculated in any condition, the calculation process of the operation intensity score of the mode opinion line number is not triggered, and if the operation intensity score does not satisfy the calculation in any condition, the score is calculated according to the following method: if L is more than or equal to 10 and less than 20, the operation intensity score of the overhaul request sheet is additionally counted for 2 scores; if L is more than or equal to 20, the operation intensity score of the maintenance request sheet is additionally counted for 3 points, and the operation intensity score value aiming at the mode opinion line number is as follows: delta S₅＝2N₉+3N₁₀；

Calculating a total operation intensity value S: s ═ S₀+ΔS₁+ΔS₂+ΔS₃+ΔS₄+ΔS₅Basic score of operating Strength S₀＝0。

6. The method for dispatching tides according to claim 5, characterized in that said assessment of operational risks as a function of the calculated total operational intensity values comprises:

dividing the operation risk into different operation risk levels based on the calculation result of the total operation intensity, wherein the operation risk levels are specifically divided into: the risk is five grades, namely extremely low risk, medium risk, high risk and extremely high risk.

7. The method of scheduling tidal duty based on quantitative management of claim 6, wherein the calculating a tidal duty table according to operational risk levels comprises: and matching a plurality of corresponding tide duty tables according to the operation risk intensity.

8. A dispatch tidal duty system based on quantitative regulation, characterized in that the system is adapted to perform the method of any of claims 1 to 7.

Technical Field

The invention relates to the technical field of electric power, in particular to a tide scheduling duty system and method based on quantitative management and control.

Background

The tidal energy is one of the huge kinetic energy, and is a resonance phenomenon caused by the attraction of moon and sun and the factors of water areas such as bay, estuary and the like, and the two are superposed together to cause the fluctuation of sea tides, and the tidal range of more than ten meters may occur in some places. The tidal power generation is similar to the principle of common hydroelectric power generation, seawater is stored in a reservoir in the tide rise mode through the reservoir and is stored in the potential energy mode, then the seawater is discharged in the tide fall mode, and the water turbine is pushed to rotate by utilizing the fall between the high tide level and the low tide level to drive a generator to generate power.

Tidal power generation is carried out on duty along with the tidal change cycle, a tidal duty table with different time nodes needs to be arranged in combination with the characteristics of tides, and in the past, the tidal power generation is arranged on duty in combination with experience values, so that the function of realizing coordinated dispatching on duty cannot be influenced by specifically combining other related factors, and the quality of dispatching service cannot be improved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a tide scheduling on-duty system and a tide scheduling on-duty method based on quantitative management and control, so that coordinated scheduling on-duty is realized, and the quality of tide scheduling on-duty service is improved.

In order to solve the technical problem, an embodiment of the present invention further provides a method for scheduling tide duty based on quantitative management and control, where the method includes:

reading a maintenance request form within a specified time range;

analyzing the read content of the maintenance application form;

calculating the operation intensity of the analyzed maintenance request sheet according to an operation intensity scoring principle;

performing operation risk assessment according to the calculated total operation intensity value;

and calculating a tide duty table according to the operation risk intensity.

The reading of the maintenance request form in the specified time range comprises the following steps:

and reading the number of the maintenance request form, the state of the maintenance request form, the application unit, the work content and the middle regulation and the batch in the maintenance request form system.

The reading of the middle-regulation batch reply in the maintenance request list within the specified time range further comprises: the method comprises the following steps of approving the power failure operation starting time, the work approving ending time, the power restoration operation ending time, mode comments, sections and risks.

The step of analyzing the read content of the overhaul application form comprises the following steps: screening out an overhaul application form with the approved power failure operation starting time and the approved power restoration operation ending time within a specified time range, wherein the identification mode opinions in the screened overhaul application form comprise an overhaul application form of 'converting to cold standby', 'converting to overhaul' or 'new equipment starting scheme management', an overhaul application form with power grid risks and an overhaul application form related to complex mode adjustment.

The operation intensity calculation of the analyzed maintenance application form according to the operation intensity scoring principle comprises the following steps:

acquiring the number N1 of maintenance request sheets containing 'converting to cold standby' or 'converting to maintenance', wherein the operation intensity score of each maintenance request sheet is 2, and the operation intensity score of 'converting to cold standby' or 'converting to maintenance' is as follows: delta S₁＝2N₁；

Acquiring a maintenance request form N2 containing new equipment starting scheme management, wherein the operation intensity score of each maintenance request form is 3 points, and the operation intensity score aiming at the new equipment starting scheme management is as follows: delta S₂＝3N₂；

Acquiring the number of maintenance request forms with different risk levels in the maintenance request form with the power grid risk, wherein the operation intensity score values aiming at the power grid risk levels are as follows: delta S₃＝3N₃+4N₄+5N₅+10N₆+15N₇Wherein: the number of overhaul request sheets with V-level, IV-level, III-level, II-level and I-level risks of a power grid is N3, N4, N5, N6 and N7 respectively, wherein the operation intensity score of the overhaul request sheet with the V-level risk is 3, the operation intensity score of the overhaul request sheet with the IV-level risk is 4, the operation intensity score of the overhaul request sheet with the III-level risk is 5, the operation intensity score of the overhaul request sheet with the II-level risk is 10 and the operation intensity score of the overhaul request sheet with the I-level risk is 15;

acquiring and analyzing the content of the maintenance request form to obtain the maintenance request form number of which the work content comprises 'operation mode adjustment' as N8, wherein the operation intensity score of each maintenance request form is 4, and the operation intensity score aiming at 'operation mode adjustment' is as follows: delta S₄＝4N₈；

Acquiring and analyzing the content of the maintenance request form to obtain the line number L in the mode opinion, wherein the number of the maintenance request forms is N9 when the line number L meets the condition that L is more than or equal to 10 and less than 20, and the number of the maintenance request forms is N10 when the line number L meets the condition that L is more than or equal to 20; if any one of the operation intensity score value of 'new equipment starting scheme management', the operation intensity score value of power grid risk level and the operation intensity score value of 'operation mode adjustment' exists in the operation intensity calculation, the calculation process of the operation intensity score value of the mode opinion line number is not triggered, and if any one of the conditions is not met, the score value is calculated according to the following method: if L is more than or equal to 10 and less than 20, the operation intensity score of the overhaul request sheet is additionally counted for 2 scores; if L is more than or equal to 20, the operation intensity score of the maintenance request sheet is additionally counted for 3 points, and the operation intensity score value aiming at the mode opinion line number is as follows: delta S₅＝2N₉+3N₁₀；

Calculating a total operation intensity value S: s ═ S₀+ΔS₁+ΔS₂+ΔS₃+ΔS₄+ΔS₅Basic score of operating Strength S₀＝0。

The operation risk assessment according to the calculated total operation intensity value comprises the following steps:

dividing the operation risk into different operation risk levels based on the calculation result of the total operation intensity, wherein the operation risk levels are specifically divided into: the risk is five grades, namely extremely low risk, medium risk, high risk and extremely high risk.

The calculating of the tide shift table according to the operation risk intensity comprises the following steps: and matching a plurality of corresponding tide duty tables according to the operation risk intensity.

Correspondingly, the embodiment of the invention also provides a dispatching tide duty system based on quantitative management and control, and the system is used for executing the method in any one of the above modes.

In the embodiment of the invention, the dispatching tide duty system and method based on quantitative management and control can identify the level of the power grid risk in advance, evaluate the intensity of maintenance operation, and reasonably arrange dispatching duty personnel, so that the real-time risk of the power grid can be flexibly dealt with, the working pressure of the dispatching duty personnel can be relieved, the coordination and command effect of the dispatching duty personnel can be fully exerted, the dispatching duty management operation level can be improved, and the quality of dispatching service can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flow chart of a method for dispatching tide duty based on quantitative control in the embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 shows a flowchart of a method for scheduling tide duty based on quantitative management in an embodiment of the present invention, which specifically includes the following steps:

s101, reading a maintenance request form within a specified time range;

the maintenance request sheet in the specified time range comprises: and reading a maintenance request form number, a maintenance request form state, an application unit, work content, a middle-regulation batch and the like in the maintenance request form system.

The reading of the middle-regulation batch reply in the maintenance request list within the specified time range further comprises the following steps: the method comprises the following steps of approving the power failure operation starting time, the work approving ending time, the power restoration operation ending time, mode comments, sections and risks.

The relevant details in the application forms can be stored in a relational database, and the relevant details can be read from the relational database into maintenance application forms in a set time range, and the maintenance application forms and the specified time range are stored in the relational database in a relational chain.

S102, analyzing the read content of the overhaul application form;

the analyzing the read content of the overhaul application form comprises the following steps: screening out an overhaul application form with the approved power failure operation starting time and the approved power restoration operation ending time within a specified time range, wherein the identification mode opinions in the screened overhaul application form comprise an overhaul application form of 'converting to cold standby', 'converting to overhaul' or 'new equipment starting scheme management', an overhaul application form with power grid risks and an overhaul application form related to complex mode adjustment.

The overhaul application form with the power grid risk comprises the following steps: the risk is divided into five levels of maintenance application forms of V level, IV level, III level, II level and I level.

The maintenance application form for identifying the complex mode adjustment mainly comprises the following functions: identifying whether the work content contains 'operation mode adjustment' to judge whether the complex mode adjustment is involved; and the line number of the copy-batch content in the opinion of the detection mode is used for judging whether the complex mode adjustment is involved.

S103, calculating the operation intensity of the analyzed maintenance request sheet according to an operation intensity scoring principle;

here, the calculating the operation intensity of the analyzed overhaul application form according to the operation intensity scoring principle includes:

(1) according to the number N1 of the inspection request sheets including "change to cold standby" or "change to inspection" in the opinion of the identification manner obtained by analyzing the content of the read inspection request sheets in S102, if the operation intensity score of each inspection request sheet is 2, the operation intensity score for "change to cold standby" or "change to inspection" is: delta S₁＝2N₁。

(2) According to the maintenance request form N2 including "new equipment start scheme management" in the identification manner opinion obtained by analyzing the read contents of the maintenance request form in S102, if the operation intensity score of each maintenance request form is 3 points, the operation intensity score for "new equipment start scheme management" is: delta S₂＝3N₂。

(3) Analyzing the read overhaul request form content in S102 to obtain overhaul request forms with power grid risks of V level, IV level, III level, II level and I level, wherein the overhaul request form quantities are respectively N3, N4, N5, N6 and N7, the overhaul request form operation intensity score of the V level risk is 3 points, the overhaul request form operation intensity score of the IV level risk is 4 points, the overhaul request form operation intensity score of the III level risk is 5 points, the overhaul request form operation intensity score of the II level risk is 10 points, the overhaul request form operation intensity score of the I level risk is 15 points, and the operation intensity score aiming at the power grid risk level is as follows: delta S₃＝3N₃+4N₄+5N₅+10N₆+15N₇。

(4) Analyzing the read overhaul request form content in the step S102 to obtain the overhaul request form number with work content including 'operation mode adjustment' of N8, wherein the operation intensity score of each overhaul request form is 4 points, and the operation intensity score aiming at 'operation mode adjustment' is as follows: delta S₄＝4N₈。

(5) Analyzing the read maintenance request form content in S102 to obtain the number of maintenance request forms with the line number L of 10-20 and the line number L of 20N9 and N10, and if the inspection form satisfies any one of the above conditions (2), (3) and (4), the inspection request form is not separately scored. If the maintenance list does not meet any condition of the (2), (3) or (4), calculating the score according to the following method: if L is more than or equal to 10 and less than 20, the operation intensity score of the overhaul request sheet is additionally counted for 2 scores; if L is more than or equal to 20, the operation intensity score of the maintenance request sheet is additionally counted for 3 points, and the operation intensity score value aiming at the mode opinion line number is as follows: delta S₅＝2N₉+3N₁₀。

Wherein the operation intensity base is divided into S₀＝0。

Calculating a total operation intensity value S: s ═ S₀+ΔS₁+ΔS₂+ΔS₃+ΔS₄+ΔS₅。

S104, performing operation risk assessment according to the calculated total operation intensity value;

the operation risk assessment according to the calculated total operation intensity value comprises the following steps: dividing the operation risk into different operation risk levels based on the calculation result of the total operation intensity, wherein the operation risk levels can be specifically divided into: the risk is five grades, namely extremely low risk, medium risk, high risk and extremely high risk.

The extremely low risk includes: the operation strength S satisfies that S is 0;

the low risk includes: the operation intensity S satisfies 0< S < 10;

the risk of stroke includes: the operation intensity S satisfies 10< S ≦ 20;

the high risk includes: the manipulation strength S satisfies 20< S < 30;

the extremely high risks include: the operation strength S satisfies that S is more than or equal to 30.

And S105, calculating a tide duty table according to the operation risk intensity.

The tide duty can be reasonably arranged according to the operation risk intensity, namely a corresponding tide duty table is matched according to the operation risk intensity: if the operation risk is extremely low, 2 auxiliary value dispatchers or positive value dispatchers are reduced on the basis of the original on-duty personnel; if the operation risk is low, 1 auxiliary value or positive value dispatcher is reduced on the basis of the original on-duty personnel; if the operation risk is a middle risk, the original on-duty personnel is kept unchanged; if the operation risk is high risk, 1 auxiliary value or positive value dispatcher is added on the basis of the original operator on duty, and if the operation risk is extremely high risk, 2 auxiliary value or positive value dispatchers are added on the basis of the original operator on duty.

The original person on duty totally 5 people include:

(1) 1 long dispatcher, 1 positive dispatcher and 3 auxiliary dispatchers;

(2) the dispatching length is 1, the positive value dispatcher is 2, and the secondary value dispatcher is 2.

The scheduling tide duty system and method based on quantitative management and control can identify the level of the power grid risk in advance, evaluate the intensity of maintenance operation, reasonably arrange scheduling duty personnel, flexibly deal with the real-time risk of the power grid, relieve the working pressure of the scheduling personnel, fully play the role of coordination and command of the scheduling personnel, improve the duty management operation level of scheduling and improve the quality of scheduling service.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

In addition, the above embodiments of the present invention are described in detail, and the principle and the implementation manner of the present invention should be described herein by using specific examples, and the above description of the embodiments is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.