CN113554238A

CN113554238A - Garden entering enterprise planning method for ecological industrial park

Info

Publication number: CN113554238A
Application number: CN202110910915.6A
Authority: CN
Inventors: 郑青; 李金梅; 王坤芳
Original assignee: Jiuzhou Ind Holdings Group Co ltd
Current assignee: Jiuzhou Ind Holdings Group Co ltd
Priority date: 2021-08-10
Filing date: 2021-08-10
Publication date: 2021-10-26

Abstract

The invention discloses a planning method for park-entering enterprises of an ecological industrial park, which comprises the following steps: the method has the advantages that the yield conditions of different inbound industries are adjusted, the optimal solution of the GDP and the comprehensive energy consumption of the park is solved by adopting a parameter substitution method, the yield planning of inbound enterprises can be realized, and the deployment of the local ecological park is carried out according to the optimal yield ratio.

Description

Garden entering enterprise planning method for ecological industrial park

Technical Field

The invention belongs to the technical field of energy, and particularly relates to a planning method for park-entering enterprises of an ecological industrial park.

Background

In recent years, China has been working on developing ecological industrial parks. The comprehensive energy consumption index and the economic index of the ecological industrial park are equally important to ecological development of the park. Although the energy consumption problem and economic indicators of enterprises entering the park are synchronously considered in the current park recruitment work, the energy consumption level and economic level of the whole park industry are not quantified from the overall view of the park. The method is only used for qualitatively determining the introduction industry, the industry productivity is mostly determined by the park-entering enterprises, and the park managers cannot comprehensively quantify the influence of the park-entering enterprises on the overall economy and energy consumption of the park from the perspective of overall planning of the park. According to the invention, the GDP and the corresponding energy consumption level of the park are predicted quantitatively through the industry and the capacity information of the park-entering enterprise, and the method has guiding significance for the scale of the park-entering enterprise and the ecological environment planning of the park.

For the current enterprise entering the garden, no clear admission standard is established. The influence relationship of the park enterprises on the energy consumption and GDP of the park is not quantized and prominent.

Disclosure of Invention

The invention aims to provide a planning method for entering enterprises of an ecological industrial park to solve the problems.

In order to realize the purpose, the following technical scheme is adopted:

a planning method for entering enterprises of an ecological industrial park comprises the following steps:

defining the preliminarily determined industry capacity of the enterprise entering the garden as C_A、C_B、C_C…C_NCorrespondingly, the energy consumption of the unit capacity of each industry is E_A、E_B、E_C…E_N(basic data can be generally obtained from the yearbook of the local government) to obtain the total energy consumption E of the park_{General assembly}(ii) a The GDP of the unit capacity of each industry is G_A、G_B、G_C…G_N(obtainable from local statistics) to obtain the estimated total GDP level G for the campus-entering enterprise_{General assembly}。

Determination of industry Capacity C_A、C_B、C_C…C_NThe boundary conditions of (1): according to the 'notice about the rule of the planning standard of small and medium enterprises in printing and issuing' made by Ministry of industry and informatization, State administration of statistics, State development and reform Commission and the finance department, the enterprises are divided into four types of large, medium, small and micro according to the income of business and the practitioners. The capacity of an enterprise is directly related to the business income and the working personnel, so that the boundary condition C of the capacity can be determined according to the type of the enterprise planned by the government_Amin、C_Amax、C_Bmin、C_Bmax、C_Cmin、C_Cmax、。。。C_Nmin、C_Nmax. And (4) taking values at the same interval in the boundary condition range as input parameters, and calculating an optimized industry capacity scheme.

Preferably, the industry in which the park-entering enterprise is located includes, but is not limited to: food manufacturing industry, automobile manufacturing industry, medicine manufacturing industry, waste resource comprehensive utilization industry, electric power and heat power production and supply industry and the like.

Preference is given toTotal energy consumption E_{General assembly}The objective function of (2) is defined as:

E_{general assembly}＝E_A*C_A+E_B*C_B+E_C*C_C+…E_N*C_N (1)

In the formula: capacity per industry C_A、C_B、C_C…C_N(ii) a The energy consumption of the unit productivity of each industry is E_A、E_B、 E_C…E_N。

Preferably, the industry productivity C takes 20 values at equal intervals in the selectable range, and the values are respectively substituted into the formula (1), so as to find out five sets of corresponding productivity parameters when the five E minimum values are taken.

And calculating corresponding E and G by using the same set of parameters, and comparing and selecting an optimal scheme.

Preferably, the total GDP level G_{General assembly}The objective function of (a) is:

G_{general assembly}＝G_A*C_A+G_B*C_B+G_C*C_C+…G_N*C_N (2)

In the formula: capacity per industry C_A、C_B、C_C…C_N(ii) a GDP of unit capacity of each industry is G_A、G_B、 G_C…G_N。

Preferably, the industry productivity C takes 20 values at equal intervals in the selectable range, and the values are respectively substituted into the formula (2), so as to find out five sets of productivity parameters corresponding to the maximum values of the five G values.

And substituting five sets of productivity parameters corresponding to the low energy consumption value in the formula (1) into the formula (2), and calculating the value corresponding to the G when the E is lower. Similarly, five sets of productivity parameters corresponding to the case that the GDP is high in the formula (2) are substituted into the formula (2), and the corresponding value of the E is calculated when the G is high.

Preferably, the calculation results of the ten sets of parameters correspond to ten sets of planning schemes of energy consumption and GDP, and the ecological industrial park can select an optimal scheme according to the specific conditions and ecological requirements of the park.

The invention has the following beneficial effects:

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart of a planning method according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The following detailed description is exemplary in nature and is intended to provide further details of the invention. Unless otherwise defined, all technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention.

The embodiment of the invention provides a planning method for park-entering enterprises of an ecological industrial park, which comprises the following steps: the method has the advantages that the yield conditions of different inbound industries are adjusted, the optimal solution of the GDP and the comprehensive energy consumption of the park is solved by adopting a parameter substitution method, the yield planning of inbound enterprises can be realized, and the deployment of the local ecological park is carried out according to the optimal yield ratio.

As shown in fig. 1, an embodiment of the present invention provides a method for planning an enterprise entering a zoological garden, including:

Preferably, the total energy consumption E_{General assembly}The objective function of (2) is defined as:

E_{general assembly}＝E_A*C_A+E_B*C_B+E_C*C_C+…E_N*C_N (1)

G_{general assembly}＝G_A*C_A+G_B*C_B+G_C*C_C+…G_N*C_N (2)

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims

1. A planning method for entering enterprises of an ecological industrial park is characterized by comprising the following steps:

defining the preliminarily determined industry capacity of the enterprise entering the garden as C_A、C_B、C_C…C_NCorrespondingly, the energy consumption of the unit capacity of each industry is E_A、E_B、E_C…E_N(basic data is typically available from the local government yearbook) to obtain the campusTotal energy consumption E_{General assembly}(ii) a The GDP of the unit capacity of each industry is G_A、G_B、G_C…G_N(obtainable from local statistics) to obtain the estimated total GDP level G for the campus-entering enterprise_{General assembly}。

Determining the boundary range of the productivity, selecting equidistant data as input conditions in the range, and respectively obtaining five values with minimum energy consumption and five values with maximum GDP;

selecting the productivity parameters corresponding to the five values with the minimum energy consumption, and calculating the corresponding GDP; and meanwhile, selecting the productivity parameters corresponding to the five maximum GDP values, and calculating the corresponding energy consumption.

According to the specific situation of the garden, an optimal scheme is selected from the ten schemes as appropriate.

2. Planning method according to claim 1, characterized in that the total energy consumption E_{General assembly}The objective function of (2) is defined as:

E_{general assembly}＝E_A*C_A+E_B*C_B+E_C*C_C+…E_N*C_N (1)

In the formula: capacity per industry C_A、C_B、C_C…C_N(ii) a The energy consumption of the unit productivity of each industry is E_A、E_B、E_C…E_N。

3. The capacity boundary region according to claim 1, wherein the enterprises are classified into four categories, large, medium, small and micro according to income and employees according to the "notice about the rule of the planning standard of small and medium enterprises in the printing and development", which is set by Ministry of industry and informatization, State administration of statistics, State development and reform Commission, and finance department. The capacity of an enterprise is directly related to the business income and the working personnel, so that the boundary condition C of the capacity can be determined according to the type of the enterprise planned by the government_Amin、C_Amax、C_Bmin、C_Bmax、C_Cmin、C_Cmax、。。。C_Nmin、C_Nmax. Phase separation within boundary conditionsAnd taking the values in the same region as input parameters, and calculating an optimized industry capacity scheme.

4. Planning method according to claim 1, characterized in that the total GDP level G_{General assembly}The objective function of (a) is:

G_{general assembly}＝G_A*C_A+G_B*C_B+G_C*C_C+…G_N*C_N (2)

In the formula: capacity per industry C_A、C_B、C_C…C_N(ii) a GDP of unit capacity of each industry is G_A、G_B、G_C…G_N。

5. The planning method according to claim 1, wherein the industry capacity C is obtained by taking 20 values at equal intervals in the selectable range, and respectively replacing the values in the formula (2) to find out five G_{General assembly}Five sets of productivity parameters corresponding to the maximum value.

Substituting five sets of productivity parameters corresponding to the low energy consumption value in the formula (1) into the formula (2) to calculate E_{General assembly}At lower value G_{General assembly}And taking corresponding values. Similarly, substituting five sets of capacity parameters corresponding to the higher GDP in the formula (2) into the formula (2) to calculate G_{General assembly}Higher time E_{General assembly}And taking corresponding values.

6. The planning method according to claim 1, wherein the calculation results of the ten sets of parameters correspond to ten sets of planning schemes for energy consumption and GDP, and the ecological industry park can select an optimal scheme according to the specific conditions and ecological requirements of the park.