CN108537434A - A kind of distribution method of carbon emission limit in production process - Google Patents

Abstract

The invention discloses a kind of distribution method of carbon emission limit in production process, it is several technical process including production process is pressed flowsheet simulation, technical process is further broken into several processes, establish production process Matter flows, based on production process Matter flows, establish the model of the physical output of in-process and the physical output relationship of enterprise's entirety, establish the relational model of carbon emission amount and material stream flow in process, based on the statistical data in production process, obtain the carbon emission amount of each production process, the carbon emission amount of each production process is tightened into multiplication with carbon emission limit respectively, obtain the carbon emission amount limit of each production process.Carbon emission limit is assigned in production process by the method for the present invention, the total carbon emissions limit of enterprise is managed convenient for company manager, consider that the defective work of process output and waste product can return in other processes in model foundation and be re-used as raw material utilization, calculating is more in line with actual conditions.

Description

A kind of distribution method of carbon emission limit in production process

Technical field

The invention belongs to production management technical fields, and in particular to a kind of distribution side of carbon emission limit in production process Method.

Background technology

In order to cope with global energy crisis, target for energy-saving and emission-reduction is realized, it is the task of top priority to reduce manufacturing enterprise's carbon emission, so And enterprise often only has total carbon emission limit, in production management, it is difficult to the carbon emission of entire production process is supervised, The carbon emission of entire production process is required often to be difficult to implement, it is also difficult to carry out rewards and punishments measure to the management of carbon emission, therefore A kind of distribution method of carbon emission limit in production process is needed, the carbon emission limit of each production process is specified, for more It is careful to effectively prescribe emission reduction schedule and management emission reduction effect.

Invention content

According to the above-mentioned deficiencies of the prior art, the technical problem to be solved by the present invention is to propose that a kind of carbon emission limit exists Distribution method in production process specifies the carbon emission limit of each production process, solves to be difficult to the carbon to entire production process Discharge is supervised, and requires to be difficult to implement to the carbon emission of entire production process, it is difficult to be carried out rewards and punishments to the management of carbon emission and be arranged The problem of applying.

In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention is：

A kind of distribution method of carbon emission limit in production process, includes the following steps：

A. technical process is further broken into several processes；

B. production process Matter flows are established：M_i-1+α_i+β_m,i+β_i,i=M_i+γ_i+β_i,k+β_i,i

Wherein, i is the road number of process, M_i-1For the raw material flow of a upper procedure for the i-th procedure, α_iFor the i-th procedure Mass flow-rate, γ is added from the external world_iThe mass flow-rate of environment, β are drained into for the i-th procedure_m,iIt is produced for downstream m procedures Defective work and waste product, return to mass flow-rate of i-th procedure as raw material, β_i,iFor not conforming to for the i-th procedure production Lattice product and waste product return to mass flow-rate of this procedure as raw material, β_i,kFor the defective work of the i-th procedure production and useless Product return to mass flow-rate of the kth procedure as raw material；

C. based on production process Matter flows, the physical output of the physical output and enterprise's entirety of in-process is established The model of relationship：

Wherein, ρ_iFor the final product ratio of the i-th procedure, P_iFor the physical output in the i-th procedure, P_nWhole for enterprise Physical output, C_iFor the i-th procedure production qualified products contain quantity of material,It is downstream process to ρ_iInfluence,The recycle mass flow of upstream process is returned to ρ for downstream process_iInfluence,It is added for the external world Substance is to ρ_iInfluence；

D. the relational model of carbon emission amount and material stream flow in process is established

Wherein, V_CFor carbon emission amount,For the ratio shared by carbon-containing energy in consumption fuel, b_fuelFor the flat of carbon-containing energy Coal measures number is marked,To consume the mass ratio of carbon in fuel, hydrogen energy source, b_elecFor the mark coal measures number of consumption electric power conversion, v_C’For Consume electric power from power plant production unit electric power carbon emission amount, e_iFor the energy consumption level of production process.

E. it based on the statistical data in production process, obtains the average data of production process, brings the carbon in step e into The relational model of discharge capacity and material stream flow in process, obtains the carbon emission amount of each production process.

F. the carbon emission amount of each production process is added up, the total carbon emissions amount of enterprise production process is obtained, with enterprise Carbon emission limit is compared, and is obtained carbon emission limit and is tightened coefficient, and the carbon emission amount of each production process is arranged with carbon respectively It puts limit and tightens multiplication, obtain the carbon emission amount limit of each production process.

Present invention has the advantages that:

1, carbon emission limit is assigned in production process, the total carbon emissions limit of enterprise is carried out convenient for company manager Management.

2, consider that the defective work of process output and waste product can return in other processes in model foundation to be re-used as Raw material utilize, and calculating is more in line with actual conditions.

3, the electric power that consideration will produce consumption in model foundation is quantified as carbon emission, and it is more accurate reasonable to calculate.Discharge Enter environment

Description of the drawings

The content expressed by this specification attached drawing and the label in figure are briefly described below：

Fig. 1 is the process Matter flows schematic diagram of the specific implementation mode of the present invention.

Specific implementation mode

Below by the description to embodiment, the shape of for example involved each component of specific implementation mode of the invention, structure It makes, the mutual alignment between each section and connection relation, the effect of each section and operation principle, manufacturing process and the side of operating with Method etc., is described in further detail, completeer to help those skilled in the art to have the inventive concept of the present invention, technical solution Whole, accurate and deep understanding.

Present embodiment provides a kind of distribution method of rubber production enterprise carbon emission limit in production process, including with Lower step：

A. rubber production process is divided into and plasticates, is kneaded, rolling, extruding, being molded, vulcanizes 6 basic working procedures；

B. as shown in Figure 1, establishing production process Matter flows：M_i-1+α_i+β_m,i+β_i,i=M_i+γ_i+β_i,k+β_i,i

Wherein, i is the road number of process, M_i-1For the raw material flow of a upper procedure for the i-th procedure, α_iFor the i-th procedure Mass flow-rate, γ is added from the external world_iThe mass flow-rate of environment, β are drained into for the i-th procedure_m,iIt is produced for downstream m procedures Defective work and waste product, return to mass flow-rate of i-th procedure as raw material, β_i,iFor not conforming to for the i-th procedure production Lattice product and waste product return to mass flow-rate of this procedure as raw material, β_i,kFor the defective work of the i-th procedure production and useless Product return to mass flow-rate of the kth procedure as raw material；

C. based on production process Matter flows, the physical output of the physical output and enterprise's entirety of in-process is established The model of relationship：

Wherein, ρ_iFor the final product ratio of the i-th procedure, P_iFor the physical output in the i-th procedure, P_nWhole for enterprise Physical output, C_iFor the i-th procedure production qualified products contain quantity of material,It is downstream process to ρ_iInfluence,The recycle mass flow of upstream process is returned to ρ for downstream process_iInfluence,It is added for the external world Substance is to ρ_iInfluence；

D. the relational model of carbon emission amount and material stream flow in process is established

Wherein, V_CFor carbon emission amount,For the ratio shared by carbon-containing energy in consumption fuel, b_fuelFor the flat of carbon-containing energy Coal measures number is marked,To consume the mass ratio of carbon in fuel, hydrogen energy source, b_elecFor the mark coal measures number of consumption electric power conversion, v_C' be Consume electric power from power plant production unit electric power carbon emission amount, e_iFor the energy consumption level of production process.

E. it based on the statistical data in production process, obtains the average data of production process, brings the carbon in step e into The relational model of discharge capacity and material stream flow in process, obtains the carbon emission amount of each production process.

F. the carbon emission amount of each production process is added up, the total carbon emissions amount of enterprise production process is obtained, with enterprise Carbon emission limit is compared, and is obtained carbon emission limit and is tightened coefficient, and the carbon emission amount of each production process is arranged with carbon respectively It puts limit and tightens multiplication, obtain the carbon emission amount limit of each production process.

The present invention is exemplarily described above, it is clear that present invention specific implementation is not subject to the restrictions described above, As long as using the improvement of the various unsubstantialities of inventive concept and technical scheme of the present invention progress, or not improved this is sent out Bright design and technical solution directly applies to other occasions, within protection scope of the present invention.The protection of the present invention Range should be determined by the scope of protection defined in the claims.

Claims (1)

1. a kind of distribution method of carbon emission limit in production process, which is characterized in that include the following steps：

A. it is several technical process by flowsheet simulation by production process；

B. technical process is further broken into several processes；

C. production process Matter flows are established：M_i-1+α_i+β_m,i+β_i,i=M_i+γ_i+β_i,k+β_i,i

Wherein, i is the road number of process, M_i-1For the raw material flow of a upper procedure for the i-th procedure, α_iIt is the i-th procedure from outer Mass flow-rate, γ is added in boundary_iThe mass flow-rate of environment, β are drained into for the i-th procedure_m,iNot for the production of downstream m procedures Certified products and waste product return to mass flow-rate of i-th procedure as raw material, β_i,iFor the defective work of the i-th procedure production Mass flow-rate of this procedure as raw material, β are returned with waste product_i,kFor the defective work and waste product of the production of the i-th procedure, return Return mass flow-rate of the kth procedure as raw material；

D. based on production process Matter flows, the physical output relationship of the physical output and enterprise's entirety of in-process is established Model：

Wherein, ρ_iFor the final product ratio of the i-th procedure, P_iFor the physical output in the i-th procedure, P_nFor the material object of enterprise's entirety Yield, C_iFor the i-th procedure production qualified products contain quantity of material,It is downstream process to ρ_iInfluence,The recycle mass flow of upstream process is returned to ρ for downstream process_iInfluence,It is added for the external world Substance is to ρ_iInfluence；

E. the relational model of carbon emission amount and material stream flow in process is established

Wherein, V_CFor carbon emission amount,For the ratio shared by carbon-containing energy in consumption fuel, b_fuelFor the average mark of carbon-containing energy Coal measures number,To consume the mass ratio of carbon in fuel, hydrogen energy source, b_elecFor the mark coal measures number of consumption electric power conversion, ν_C’For consumption Electric power from power plant production unit electric power carbon emission amount, e_iFor the energy consumption level of production process.

F. it based on the statistical data in production process, obtains the average data of production process, brings the carbon emission in step e into The relational model of amount and material stream flow in process, obtains the carbon emission amount of each production process.

G. the carbon emission amount of each production process is added up, obtains the total carbon emissions amount of enterprise production process, arranged with the carbon of enterprise It puts limit to be compared, obtains carbon emission limit and tighten coefficient, the carbon emission amount of each production process is limited with carbon emission respectively Volume tightens multiplication, obtains the carbon emission amount limit of each production process.