CN111311045A - New energy planning analysis management system - Google Patents

Abstract

The invention discloses a new energy planning, analyzing and managing system, which comprises a power consumption collecting unit, a data planning unit, a data integrating unit, a source monitoring unit, a cost acquiring unit, a controller, a display unit, a data estimating unit, a storage unit, intelligent equipment and a management unit, wherein the power consumption collecting unit is used for collecting power consumption; according to the invention, through the power consumption acquisition unit and the data planning unit, the power consumption of the last months can be analyzed and compared, and the conditions of the last months meeting the corresponding requirements are summarized and fused to obtain the maintenance mean Pw and the crescent usage information Yz; meanwhile, by means of the source monitoring unit and the cost obtaining unit, the respective cost and the current month occupation ratio of the traditional power generation mode and the new energy power generation mode can be obtained; and then, the controller is used for correspondingly analyzing the obtained data, so that whether the ratio of the traditional power generation mode and the new energy power generation in the current month is proper or not can be obtained.

Description

New energy planning analysis management system

Technical Field

The invention belongs to the field of analysis management, relates to a new energy planning technology, and particularly relates to a new energy planning analysis management system.

Background

A patent with publication number CN102903016A discloses a distributed power generation planning method, which belongs to the technical field of power energy saving, and is mainly used as a method for coordinating the relationship between power distribution network planning and distributed power supply configuration. Firstly, introducing a node sensitivity coefficient matrix and a unit load increment cost matrix, and establishing a power distribution network node/branch marginal capacity cost model and a calculation method thereof; secondly, the influence of grid connection of the distributed power supply on the marginal capacity cost of the nodes/branches of the power distribution network is quantified; and finally, based on a quantitative model of the influence of the grid connection of the distributed power supplies on the marginal capacity cost of the power distribution network nodes/branches, performing benefit solving and evaluation on two distributed power supply property right modes of the user self-supply and the power grid company.

Although the distributed power generation planning method is disclosed, comprehensive analysis is not carried out by comprehensively considering the new energy power generation and the traditional thermal power generation, because the traditional thermal power generation has lower cost, the environmental pollution is greater, and the combustible medium of the thermal power generation is basically non-renewable energy; however, the new energy does not need to be used for generating electricity by the non-renewable energy, and the electricity generation process is pollution-free, but the cost is high; therefore, the two power generation modes need to be used cooperatively, but none of the two power generation modes can be analyzed intelligently, and the respective proportions of the two power generation modes are different; in order to solve this technical drawback, a solution is now provided.

Disclosure of Invention

The invention aims to provide a new energy planning, analyzing and managing system.

The purpose of the invention can be realized by the following technical scheme:

a new energy planning analysis management system comprises a power consumption acquisition unit, a data planning unit, a data synthesis unit, a source monitoring unit, a cost acquisition unit, a controller, a display unit, a data estimation unit, a storage unit, intelligent equipment and a management unit;

the system comprises a power consumption acquisition unit, a data planning unit and a data processing unit, wherein the power consumption acquisition unit is used for acquiring the monthly power consumption total of a controlled area and marking the power consumption total as monthly usage information;

the data planning unit is used for transmitting the maintenance mean value Pw and the crescent moon usage information Yz to the counting and integrating unit;

the source monitoring unit is used for acquiring the source of the power consumption in the current month and dividing the power consumption into traditional power and new energy power; the traditional electric quantity is acquired by means of a traditional thermal power generation mode, and the new energy electric quantity is electric power generated by means of a mode other than thermal power generation, namely new energy power generation; the source monitoring unit is used for transmitting the electric quantity of the new energy and the traditional electric quantity to the electric quantity counting unit;

the cost obtaining unit is used for obtaining cost information II corresponding to the electric quantity of the new energy in the current month, the cost information II comprises the cost for maintaining the power generation of the new energy and the cost for building new energy equipment, and the cost obtaining unit is also used for obtaining the cost corresponding to the traditional electric quantity and marking the cost as the cost information I; the cost acquisition unit is used for transmitting the first cost information and the second cost information to the counting and integrating unit;

the counting and integrating unit is used for comprehensively analyzing the traditional electric quantity, the new energy electric quantity and the corresponding cost information to obtain the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx and the slip value Cz;

the counting and integrating unit is used for transmitting the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx, the slip value Cz, the maintenance mean value Pw and the crescent moon amount information Yz to the controller, the controller is used for carrying out power generation planning processing on the slip value Cz, the maintenance mean value Pw and the crescent moon amount information Yz, and the specific processing steps are as follows:

SS 10: obtaining a rotation difference value Cz;

SS 20: comparing the slip value Cz with an expected standard value X4, wherein X4 is a preset value;

when Cz > X4, an increasable signal is generated;

when X4 is less than or equal to Cz is less than or equal to X5, a maintaining signal is generated;

when Cz > X5, a decrement signal is generated.

Further, the specific analysis steps of the dosage analysis are as follows:

the method comprises the following steps: acquiring the month usage information of a preset X1 month and continuous X1+1 months from the current month; x1 is a first preset value;

step two: obtaining a monthly usage information set, which is marked as Yi, i 1.. X1+ 1; YX1+1 represents monthly usage information for the current month;

step three: acquiring the average value of the monthly usage information group Yi, and marking the average value as P;

step four: calculating the stable value W of the monthly consumption information group according to a formula,

step five: when W is larger than or equal to X2, X2 is a second preset value; at this time, the elimination analysis step of the step six is carried out, otherwise, the maintenance analysis step of the step seven is carried out;

step six: the eliminating and analyzing steps are as follows:

s1: firstly, selecting the month usage information corresponding to the earliest month, namely Y1, and rejecting the month usage information;

s2: redefining the original Y2 as Y1 to obtain a new monthly usage information group Yi, i is 1.. X1;

s3: step three to step five of repeated dosage analysis; until W < X2 is satisfied;

step seven: the maintenance analysis steps are as follows:

s1: acquiring a monthly usage information group meeting the conditions, acquiring a mean value of the monthly usage information group, and marking the mean value as a maintenance mean value Pw;

s2: and acquiring the month usage information of the current month, and marking the month usage information as the crescent usage information Yz.

Further, the comprehensive analysis comprises the following specific steps:

s100: acquiring traditional electric quantity and new energy electric quantity, and sequentially marking the traditional electric quantity and the new energy electric quantity as Cd and Nx; and Cd + Nx ═ Yz;

s200: acquiring cost information I and cost information II, and sequentially marking the cost information I and the cost information II as Bc and Bx;

s300: calculating a transfer value Zc (Cd/Bc) by using a formula; calculating a new conversion value Zx which is Nx/Bx by using a formula;

s400: calculating a slip value Cz-Zc-X3 Zx by using a formula;

in the formula, X3 is a difference increment and is preset by a manager.

Further, when the controller generates the increasable signal, the controller transmits the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information one Bc, the cost information two Bx, the maintenance mean value Pw and the new month consumption information Yz to the data pre-estimation unit, the data pre-estimation unit is used for carrying out new addition analysis on the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information one Bc, the cost information two Bx, the maintenance mean value Pw and the new month consumption information Yz when the increasable signal is received, and the specific steps of the new addition analysis are as follows:

the method comprises the following steps: calculating a gain ratio Zb1 { (X4+ X5)/2-Cz }/Cz according to a formula;

step two: calculating the monthly ratio by using a formula, wherein B1 is Nx/(Cd + Nx) + Zb 1;

step three: estimating the lower monthly electricity consumption Yy1 as Yz + | Yz-Pw | by using a formula;

step four: obtaining new energy electric quantity Ny1 required in the next month according to a formula Ny 1-Yy 1-Zb 1, estimating the cost, wherein the estimated cost is Yg 1-Ny 1/Cd-Bx;

the data estimation unit is used for returning the new energy electric quantity Ny1 and the estimated cost Yg1 to the controller, and the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the storage unit for storage; the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the intelligent device; the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the display unit for real-time display, and simultaneously displaying the word eye of 'increasing the ratio'.

Further, when the controller generates a refresh signal, the controller transmits the conventional electric quantity Cd, the new energy electric quantity Nx, the cost information one Bc, the cost information two Bx, the maintenance mean value Pw, and the new month usage information Yz to the data pre-estimating unit, the data pre-estimating unit is configured to perform a refresh analysis on the conventional electric quantity Cd, the new energy electric quantity Nx, the cost information one Bc, the cost information two Bx, the maintenance mean value Pw, and the new month usage information Yz when receiving the refresh signal, and the refresh analysis specifically includes the steps of:

the method comprises the following steps: calculating a subtraction ratio Zb2 ═ { Cz- (X4+ X5)/2}/Cz according to a formula;

step two: calculating the monthly ratio by using a formula, wherein B2 is Nx/(Cd + Nx) -Zb 2;

step three: estimating the lower monthly electricity consumption Yy2 as Yz + | Yz-Pw | by using a formula;

step four: obtaining new energy electric quantity Ny2 required in the next month according to a formula Ny 2-Yy 2-Zb 2, estimating the cost, wherein the estimated cost is Yg 2-Ny 2/Cd-Bx;

the data estimation unit is used for returning the new energy electric quantity Ny2 and the estimated cost Yg2 to the controller, and the controller is used for transmitting the new energy electric quantity Ny2 and the estimated cost Yg2 to the storage unit for storage; the controller is used for transmitting the new energy electric quantity Ny2 and the estimated cost Yg2 to the intelligent equipment and the display unit; the display unit automatically displays the new energy electric quantity Ny2 and the estimated cost Yg2 and simultaneously displays the word of 'reducing the ratio'.

Further, the controller transmits the slip value Cz to the display unit when generating the maintaining signal, and the display unit automatically displays that the current new energy power generation ratio is proper and the concrete value of the + slip value is maintained to be Cz when receiving the slip value Cz transmitted by the controller; the controller is configured to transmit the slip value Cz and the maintenance signal to the smart device.

Further, the intelligent device is a user writing type mobile device, specifically a mobile phone.

Further, the management unit is used for a manager to enter all preset values X1, X2, X3, X4 and X5.

The invention has the beneficial effects that:

according to the invention, through the power consumption acquisition unit and the data planning unit, the power consumption of the last months can be analyzed and compared, and the conditions of the last months meeting the corresponding requirements are summarized and fused to obtain the maintenance mean Pw and the crescent usage information Yz; meanwhile, by means of the source monitoring unit and the cost obtaining unit, the respective cost and the current month occupation ratio of the traditional power generation mode and the new energy power generation mode can be obtained; then, the controller is used for correspondingly analyzing the obtained data, whether the proportion of the traditional power generation mode and the new energy power generation in the current month is proper or not can be obtained, the increased proportion or the decreased proportion is automatically analyzed when the proportion is improper, and the increased proportion or the decreased proportion is transmitted to the intelligent equipment; and the manager can conveniently know the information in time.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a system block diagram of the new energy planning, analyzing and managing system of the present invention.

Detailed Description

As shown in fig. 1, a new energy planning, analyzing and managing system includes a power consumption collecting unit, a data planning unit, a data integrating unit, a source monitoring unit, a cost obtaining unit, a controller, a display unit, a data estimating unit, a storage unit, an intelligent device and a management unit;

the power consumption collection unit is used for collecting the monthly power consumption total amount of the controlled area and marking the power consumption total amount as monthly usage information, the power consumption collection unit is used for transmitting the monthly usage information to the data planning unit, the data planning unit receives the monthly usage information transmitted by the power consumption collection unit and analyzes the monthly usage information, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring the month usage information of a preset X1 month and continuous X1+1 months from the current month; x1 is a first preset value;

step two: obtaining a monthly usage information set, which is marked as Yi, i 1.. X1+ 1; YX1+1 represents monthly usage information for the current month;

step three: acquiring the average value of the monthly usage information group Yi, and marking the average value as P;

step four: calculating the stable value W of the monthly consumption information group according to a formula,

step five: when W is larger than or equal to X2, X2 is a second preset value; at this time, the elimination analysis step of the step six is carried out, otherwise, the maintenance analysis step of the step seven is carried out;

step six: the eliminating and analyzing steps are as follows:

s1: firstly, selecting the month usage information corresponding to the earliest month, namely Y1, and rejecting the month usage information;

s2: redefining the original Y2 as Y1 to obtain a new monthly usage information group Yi, i is 1.. X1;

s3: step three to step five of repeated dosage analysis; until W < X2 is satisfied;

step seven: the maintenance analysis steps are as follows:

s1: acquiring a monthly usage information group meeting the conditions, acquiring a mean value of the monthly usage information group, and marking the mean value as a maintenance mean value Pw;

s2: acquiring the month usage information of the current month, and marking the month usage information as crescent usage information Yz;

the data planning unit is used for transmitting the maintenance mean value Pw and the crescent moon usage information Yz to the counting and integrating unit;

the source monitoring unit is used for acquiring the source of the power consumption in the current month and dividing the power consumption into traditional power and new energy power; the traditional electric quantity is acquired by means of a traditional thermal power generation mode, and the new energy electric quantity is electric power generated by means of a mode other than thermal power generation, namely new energy power generation; the source monitoring unit is used for transmitting the electric quantity of the new energy and the traditional electric quantity to the counting and integrating unit;

the cost obtaining unit is used for obtaining cost information II corresponding to the electric quantity of the new energy in the current month, the cost information II comprises the cost for maintaining the power generation of the new energy and the cost for building new energy equipment, and the cost obtaining unit is also used for obtaining the cost corresponding to the traditional electric quantity and marking the cost as the cost information I; the cost acquisition unit is used for transmitting the cost information I and the cost information II to the counting and integrating unit;

the counting and integrating unit is used for comprehensively analyzing the traditional electric quantity, the new energy electric quantity and the corresponding cost information, and the comprehensive analysis comprises the following specific steps:

s100: acquiring traditional electric quantity and new energy electric quantity, and sequentially marking the traditional electric quantity and the new energy electric quantity as Cd and Nx; and Cd + Nx ═ Yz;

s200: acquiring cost information I and cost information II, and sequentially marking the cost information I and the cost information II as Bc and Bx;

s300: calculating a transfer value Zc (Cd/Bc) by using a formula; calculating a new conversion value Zx which is Nx/Bx by using a formula;

s400: calculating a slip value Cz-Zc-X3 Zx by using a formula;

in the formula, X3 is a difference increment and is preset by a manager, because the traditional power generation mode causes pollution to the environment, and the traditional thermal power generation mode generally adopts non-renewable energy for combustion, so that the cost is high compared with the cost of new energy power generation, but no extra pollution and no damage to the non-renewable energy are caused;

the comprehensive counting unit is used for transmitting the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx, the slip value Cz, the maintenance mean value Pw and the crescent moon consumption information Yz to the controller, the controller is used for carrying out power generation planning processing on the slip value Cz, the maintenance mean value Pw and the crescent moon consumption information Yz, and the specific processing steps are as follows:

SS 10: obtaining a rotation difference value Cz;

SS 20: comparing the slip value Cz with an expected standard value X4, wherein X4 is a preset value;

when Cz > X4, an increasable signal is generated;

when X4 is less than or equal to Cz is less than or equal to X5, a maintaining signal is generated;

when Cz > X5, then a decrement signal is generated;

when the controller generates the increasable signal, the controller transmits the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx, the maintenance mean value Pw and the crescent moon amount information Yz to the data estimation unit, the data estimation unit is used for carrying out newly-added analysis on the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx, the maintenance mean value Pw and the crescent moon amount information Yz when the increasable signal is received, and the newly-added analysis specifically comprises the following steps:

the method comprises the following steps: calculating a gain ratio Zb1 { (X4+ X5)/2-Cz }/Cz according to a formula;

step two: calculating the monthly ratio by using a formula, wherein B1 is Nx/(Cd + Nx) + Zb 1;

step three: estimating the lower monthly electricity consumption Yy1 as Yz + | Yz-Pw | by using a formula;

step four: obtaining new energy electric quantity Ny1 required in the next month according to a formula Ny 1-Yy 1-Zb 1, estimating the cost, wherein the estimated cost is Yg 1-Ny 1/Cd-Bx;

the data estimation unit is used for returning the new energy electric quantity Ny1 and the estimated cost Yg1 to the controller, and the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the storage unit for storage; the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the intelligent device; the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the display unit for real-time display, and simultaneously displaying the word of 'increasing the ratio';

when the controller generates a refresh signal, the controller transmits traditional electric quantity Cd, new energy electric quantity Nx, cost information I Bc, cost information II Bx, maintenance mean value Pw and crescent moon consumption information Yz to a data pre-estimation unit, the data pre-estimation unit is used for carrying out refresh analysis on the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx, the maintenance mean value Pw and the crescent moon consumption information Yz when receiving the refresh signal, and the refresh analysis comprises the specific steps of:

the method comprises the following steps: calculating a subtraction ratio Zb2 ═ { Cz- (X4+ X5)/2}/Cz according to a formula;

step two: calculating the monthly ratio by using a formula, wherein B2 is Nx/(Cd + Nx) -Zb 2;

step three: estimating the lower monthly electricity consumption Yy2 as Yz + | Yz-Pw | by using a formula;

step four: obtaining new energy electric quantity Ny2 required in the next month according to a formula Ny 2-Yy 2-Zb 2, estimating the cost, wherein the estimated cost is Yg 2-Ny 2/Cd-Bx;

the data estimation unit is used for returning the new energy electric quantity Ny2 and the estimated cost Yg2 to the controller, and the controller is used for transmitting the new energy electric quantity Ny2 and the estimated cost Yg2 to the storage unit for storage; the controller is used for transmitting the new energy electric quantity Ny2 and the estimated cost Yg2 to the intelligent equipment and the display unit; the display unit automatically displays the new energy electric quantity Ny2 and the estimated cost Yg2 and simultaneously displays the word of 'reducing the ratio';

the controller transmits the slip value Cz to the display unit when generating the maintaining signal, and the display unit automatically displays that the current new energy power generation occupation ratio is proper and the concrete value of the + slip value is recommended to be maintained as Cz when receiving the slip value Cz transmitted by the controller; the controller is used to transmit the slip value Cz and the maintenance signal to the smart device.

The intelligent device is a user writing type mobile device, and specifically can be a mobile device such as a mobile phone or a tablet.

The management unit is used for the manager to enter all preset values X1, X2, X3, X4 and X5.

A new energy planning analysis management system is characterized in that through a power consumption acquisition unit and a data planning unit, the power consumption of the latest months can be analyzed and compared, and the conditions of the latest months meeting the corresponding requirements are summarized and fused to obtain a maintenance mean Pw and new month usage information Yz; meanwhile, by means of the source monitoring unit and the cost obtaining unit, the respective cost and the current month occupation ratio of the traditional power generation mode and the new energy power generation mode can be obtained; then, the controller is used for correspondingly analyzing the obtained data, whether the proportion of the traditional power generation mode and the new energy power generation in the current month is proper or not can be obtained, the increased proportion or the decreased proportion is automatically analyzed when the proportion is improper, and the increased proportion or the decreased proportion is transmitted to the intelligent equipment; and the manager can conveniently know the information in time.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (8)

1. A new energy planning analysis management system is characterized by comprising a power consumption acquisition unit, a data planning unit, a data synthesis unit, a source monitoring unit, a cost acquisition unit, a controller, a display unit, a data estimation unit, a storage unit, intelligent equipment and a management unit;

the system comprises a power consumption acquisition unit, a data planning unit and a data processing unit, wherein the power consumption acquisition unit is used for acquiring the monthly power consumption total of a controlled area and marking the power consumption total as monthly usage information;

the data planning unit is used for transmitting the maintenance mean value Pw and the crescent moon usage information Yz to the counting and integrating unit;

the source monitoring unit is used for acquiring the source of the power consumption in the current month and dividing the power consumption into traditional power and new energy power; the traditional electric quantity is acquired by means of a traditional thermal power generation mode, and the new energy electric quantity is electric power generated by means of a mode other than thermal power generation, namely new energy power generation; the source monitoring unit is used for transmitting the electric quantity of the new energy and the traditional electric quantity to the electric quantity counting unit;

the cost obtaining unit is used for obtaining cost information II corresponding to the electric quantity of the new energy in the current month, the cost information II comprises the cost for maintaining the power generation of the new energy and the cost for building new energy equipment, and the cost obtaining unit is also used for obtaining the cost corresponding to the traditional electric quantity and marking the cost as the cost information I; the cost acquisition unit is used for transmitting the first cost information and the second cost information to the counting and integrating unit;

the counting and integrating unit is used for comprehensively analyzing the traditional electric quantity, the new energy electric quantity and the corresponding cost information to obtain the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx and the slip value Cz;

the counting and integrating unit is used for transmitting the traditional electric quantity Cd, the new energy electric quantity Nx, the cost information I Bc, the cost information II Bx, the slip value Cz, the maintenance mean value Pw and the crescent moon amount information Yz to the controller, the controller is used for carrying out power generation planning processing on the slip value Cz, the maintenance mean value Pw and the crescent moon amount information Yz, and the specific processing steps are as follows:

SS 10: obtaining a rotation difference value Cz;

SS 20: comparing the slip value Cz with an expected standard value X4, wherein X4 is a preset value;

when Cz > X4, an increasable signal is generated;

when X4 is less than or equal to Cz is less than or equal to X5, a maintaining signal is generated;

when Cz > X5, a decrement signal is generated.

2. The new energy planning, analyzing and managing system according to claim 1, wherein the specific analyzing steps of the usage analysis are as follows:

the method comprises the following steps: acquiring the month usage information of a preset X1 month and continuous X1+1 months from the current month; x1 is a first preset value;

step two: obtaining a monthly usage information set, which is marked as Yi, i 1.. X1+ 1; YX1+1 represents monthly usage information for the current month;

step three: acquiring the average value of the monthly usage information group Yi, and marking the average value as P;

step four: calculating the stable value W of the monthly consumption information group according to a formula,

step five: when W is larger than or equal to X2, X2 is a second preset value; at this time, the elimination analysis step of the step six is carried out, otherwise, the maintenance analysis step of the step seven is carried out;

step six: the eliminating and analyzing steps are as follows:

s1: firstly, selecting the month usage information corresponding to the earliest month, namely Y1, and rejecting the month usage information;

s2: redefining the original Y2 as Y1 to obtain a new monthly usage information group Yi, i is 1.. X1;

s3: step three to step five of repeated dosage analysis; until W < X2 is satisfied;

step seven: the maintenance analysis steps are as follows:

s1: acquiring a monthly usage information group meeting the conditions, acquiring a mean value of the monthly usage information group, and marking the mean value as a maintenance mean value Pw;

s2: and acquiring the month usage information of the current month, and marking the month usage information as the crescent usage information Yz.

3. The new energy planning, analyzing and managing system according to claim 1, wherein the comprehensive analysis comprises the following specific steps:

s100: acquiring traditional electric quantity and new energy electric quantity, and sequentially marking the traditional electric quantity and the new energy electric quantity as Cd and Nx; and Cd + Nx ═ Yz;

s200: acquiring cost information I and cost information II, and sequentially marking the cost information I and the cost information II as Bc and Bx;

s300: calculating a transfer value Zc (Cd/Bc) by using a formula; calculating a new conversion value Zx which is Nx/Bx by using a formula;

s400: calculating a slip value Cz-Zc-X3 Zx by using a formula;

in the formula, X3 is a difference increment and is preset by a manager.

4. The system as claimed in claim 1, wherein the controller transmits the conventional power Cd, the new power Nx, the cost information one Bc, the cost information two Bx, the maintenance mean Pw, and the new month usage information Yz to the data estimation unit when the incremental signal is generated, the data estimation unit performs new analysis on the conventional power Cd, the new power Nx, the cost information one Bc, the cost information two Bx, the maintenance mean Pw, and the new month usage information Yz when the incremental signal is received, and the new analysis specifically includes:

the method comprises the following steps: calculating a gain ratio Zb1 { (X4+ X5)/2-Cz }/Cz according to a formula;

step two: calculating the monthly ratio by using a formula, wherein B1 is Nx/(Cd + Nx) + Zb 1;

step three: estimating the lower monthly electricity consumption Yy1 as Yz + | Yz-Pw | by using a formula;

step four: obtaining new energy electric quantity Ny1 required in the next month according to a formula Ny 1-Yy 1-Zb 1, estimating the cost, wherein the estimated cost is Yg 1-Ny 1/Cd-Bx;

the data estimation unit is used for returning the new energy electric quantity Ny1 and the estimated cost Yg1 to the controller, and the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the storage unit for storage; the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the intelligent device; the controller is used for transmitting the new energy electric quantity Ny1 and the estimated cost Yg1 to the display unit for real-time display, and simultaneously displaying the word eye of 'increasing the ratio'.

5. The new energy planning, analyzing and managing system according to claim 1, wherein the controller transmits the conventional power Cd, the new energy power Nx, the cost information one Bc, the cost information two Bx, the maintenance mean Pw, and the new month usage information Yz to the data estimation unit when generating the update signal, the data estimation unit performs the update analysis on the conventional power Cd, the new energy power Nx, the cost information one Bc, the cost information two Bx, the maintenance mean Pw, and the new month usage information Yz when receiving the update signal, and the update analysis specifically comprises the steps of:

the method comprises the following steps: calculating a subtraction ratio Zb2 ═ { Cz- (X4+ X5)/2}/Cz according to a formula;

step two: calculating the monthly ratio by using a formula, wherein B2 is Nx/(Cd + Nx) -Zb 2;

step three: estimating the lower monthly electricity consumption Yy2 as Yz + | Yz-Pw | by using a formula;

step four: obtaining new energy electric quantity Ny2 required in the next month according to a formula Ny 2-Yy 2-Zb 2, estimating the cost, wherein the estimated cost is Yg 2-Ny 2/Cd-Bx;

the data estimation unit is used for returning the new energy electric quantity Ny2 and the estimated cost Yg2 to the controller, and the controller is used for transmitting the new energy electric quantity Ny2 and the estimated cost Yg2 to the storage unit for storage; the controller is used for transmitting the new energy electric quantity Ny2 and the estimated cost Yg2 to the intelligent equipment and the display unit; the display unit automatically displays the new energy electric quantity Ny2 and the estimated cost Yg2 and simultaneously displays the word of 'reducing the ratio'.

6. The new energy planning, analyzing and managing system according to claim 1, wherein the controller transmits the slip value Cz to the display unit when the maintaining signal is generated, and the display unit automatically displays that "the current new energy power generation ratio is appropriate, and the specific value of + slip value is recommended to be maintained as Cz" when the display unit receives the slip value Cz transmitted by the controller; the controller is configured to transmit the slip value Cz and the maintenance signal to the smart device.

7. The new energy planning, analysis and management system according to claim 1, wherein the smart device is a user-programmed mobile device, in particular a mobile phone.

8. The new energy planning analysis management system according to claim 1, wherein the management unit is configured to allow a manager to enter all default values X1, X2, X3, X4 and X5.

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