CN106970582A - A kind of industrial automatic control energy efficiency analysis method for air and platform - Google Patents

Abstract

The application provides a kind of industrial automatic control energy efficiency analysis method for air and platform, destination object and beginning and ending time by the input according to user, by transferring energy consumption data of the destination object in beginning and ending time section in energy consumption data, ranking is carried out to all kinds of energy resource consumptions of each contrast object in beginning and ending time section in destination object, obtain the consumption ranking of each contrast object same middle energy in beginning and ending time section, and export ranking result, user can judge the problem of each enterprise whether there is energy waste according to the ranking result, rectification, which is required, to be proposed to the enterprise ranked behind, guidance instruction is provided so as to be improved for enterprise.

Description

A kind of industrial automatic control energy efficiency analysis method for air and platform

Technical field

The present invention relates to data analysis and processing technology field, and in particular to a kind of energy consumption being used in heating system is entered The industrial automatic control energy efficiency analysis method for air and platform of row analysis.

Background technology

Heating power enterprise is the enterprise/public institution for providing service for the public/enterprise based on energy resource consumption.And the letter of heating power enterprise Breathization construction primarily focuses on production support, and the energy resource consumption of enterprise uses extensive management substantially, and lacks what is become more meticulous Energy consumption analysis means.As the continuous improvement of national energy-saving emission reduction requirement to the resource consumption of each heating enterprise, it is necessary to carry out United analysis, in the prior art, each heating enterprise heating power data are separate, are also just difficult to know a certain enterprise relative to it Energy loss is many or few for his enterprise, causes enterprise to lack the power and discrimination standard being improved to heating system.

The content of the invention

In view of this, the embodiment of the present invention provides a kind of industrial automatic control energy efficiency analysis method for air and platform, to realize Improved for enterprise and guidance instruction is provided.

To achieve the above object, the embodiment of the present invention provides following technical scheme：

A kind of industrial automatic control energy efficiency analysis method for air, including：

The energy consumption data of each heat supply company, thermal source and heat exchange station is obtained, the energy consumption data at least includes The history consumption data of coal amount, tolerance, water, electricity and heat in each heat supply company, thermal source and the heat exchange station course of work；

Destination object and the beginning and ending time of user's input are obtained, the destination object refers to the heat supply company, thermal source Or heat exchange station, the corresponding heat supply company of the destination object, thermal source or heat exchange station are designated as to contrast object, the beginning and ending time bag Include initial time and deadline；

Transfer energy consumption data of each contrast object in beginning and ending time section；

According to the energy consumption data in beginning and ending time section, respectively to contrasting object each described in the start-stop Between coal amount, tolerance, water, electricity and heat consumption amount in section carry out contrast and ranking one by one；

Export each ranking result.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, each contrast object is transferred in the start-stop Between after energy consumption data in section, in addition to：

Generate and export coal amount of each contrast object in beginning and ending time section, tolerance, water, electricity and heat Energy-output ratio changes view or list.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, each contrast object is transferred in the start-stop Between after energy consumption data in section, in addition to：

Coal amount respectively in unit area of each the described contrast object of calculating in beginning and ending time section, tolerance, water Amount, electricity and heat consumption amount, and respectively to contrasting object each described in the unit area in beginning and ending time section Coal amount, tolerance, water, electricity and heat consumption amount carry out contrast and ranking one by one；

According to the energy consumption data, unit of each the described contrast object in beginning and ending time section is generated respectively Coal amount, tolerance, water, electricity and the change view of heat consumption amount or list in area.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, each contrast object is transferred in the start-stop Between after energy consumption data in section, in addition to：

According to the energy consumption data and coal amount, tolerance, water, electricity, the unit price of heat corresponding to beginning and ending time section, meter The energy cost for obtaining that each contrast object is spent in the beginning and ending time section is calculated, and carries out ranking.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, each contrast object is transferred in the start-stop Between after energy consumption data in section, in addition to：

Heating load of each the described contrast object in beginning and ending time section is calculated respectively, and each described pairs is compared As the heating load in beginning and ending time section carries out ranking；

Heating load change of each the described contrast object in the unit area in beginning and ending time section is calculated respectively to regard Figure or list.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, obtain destination object and the start-stop of user's input After time, in addition to：

Each complaint number of times of contrast object in beginning and ending time section is obtained, based on heat supply zone user quantity And complain number of times to calculate the rate of complaints for obtaining the contrast object in beginning and ending time section, to contrasting object each described in institute The rate of complaints stated in beginning and ending time section carries out ranking.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, obtain destination object and the start-stop of user's input After time, in addition to：

Each air pollution emission thing statistics of contrast object in beginning and ending time section is obtained, to each Air pollution emission thing statistics of the contrast object in beginning and ending time section carries out ranking.

It is preferred that, in above-mentioned industrial automatic control energy efficiency analysis method for air, in addition to：

The outdoor temperature in heat supply region is obtained, is tabled look-up according to the outdoor temperature and obtains target heat required in user room Amount；

The target heat and target flow of heat adjusting device, the heat adjustment are obtained according to the target heat Calculation Equipment is heat supply initial station or thermal source；

The heat and flow of the heat adjusting device are adjusted according to the target heat and target flow.

A kind of industrial automatic control Energy Efficiency Analysis platform, including：

Data storage cell, the energy consumption data for obtaining each heat supply company, thermal source and heat exchange station, the energy Consumption data at least includes coal amount, tolerance, water, electricity and the heat in each heat supply company, thermal source and the heat exchange station course of work The history consumption data of amount；

Semantic object extraction unit, destination object and beginning and ending time for obtaining user's input, the destination object refers to Be the heat supply company, thermal source or heat exchange station, the corresponding heat supply company of the destination object, thermal source or heat exchange station are designated as pair Compare as the beginning and ending time includes initial time and deadline；

Energy consumption data transfers unit, for transferring each contrast object in the data storage cell described The only energy consumption data in the period；

The energy uses analytic unit, for according to the energy consumption data in beginning and ending time section, respectively to each institute Coal amount, tolerance, water, electricity and heat consumption amount of the contrast object in beginning and ending time section is stated to be contrasted one by one side by side Name；Export each ranking result.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, the energy is additionally operable to using analytic unit：

Generate and export coal amount of each contrast object in beginning and ending time section, tolerance, water, electricity and heat Energy-output ratio changes view or list.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, in addition to：

Energy Efficiency Analysis unit, for calculating unit area of each the described contrast object in beginning and ending time section respectively Interior coal amount, tolerance, water, electricity and heat consumption amount, and respectively to contrasting object each described in beginning and ending time section Coal amount, tolerance, water, electricity and heat consumption amount in interior unit area carry out contrast and ranking one by one；According to the energy Source consumption data, generate respectively coal amount of each the described contrast object in the unit area in beginning and ending time section, tolerance, The change view of water, electricity and heat consumption amount or list.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, in addition to：

Cost analysis unit, for according to the beginning and ending time section corresponding to energy consumption data and coal amount, tolerance, water, The unit price of electricity, heat, calculates the energy cost for obtaining that each contrast object is spent in the beginning and ending time section, and arranged Name.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, in addition to：

Heating quality analytic unit, for calculating heat supply of each the described contrast object in beginning and ending time section respectively Amount, and carry out ranking to contrasting heating load of the object in beginning and ending time section each described；Each is right described in calculating respectively Compare as the heating load change view in the unit area in beginning and ending time section or list.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, in addition to：

Quantity of operation analytic unit, obtains each complaint number of times of contrast object in beginning and ending time section, base The rate of complaints for obtaining the contrast object in beginning and ending time section is calculated in heat supply zone user quantity and complaint number of times, to each The rate of complaints of the individual contrast object in beginning and ending time section carries out ranking.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, in addition to：

Environmental impact analysis unit, for obtaining each atmosphere pollution of contrast object in beginning and ending time section Emission statistics, enters to contrasting air pollution emission thing statistics of the object in beginning and ending time section each described Row ranking.

It is preferred that, in above-mentioned industrial automatic control Energy Efficiency Analysis platform, in addition to：

Energy consumption predicting unit, the outdoor temperature for obtaining heat supply region, tables look-up according to the outdoor temperature and obtains user Indoor required target heat；The target heat and target flow of heat adjusting device are obtained according to the target heat Calculation, The heat adjusting device is heat supply initial station or thermal source；According to the target heat and target flow to the heat adjusting device Heat and flow be adjusted.

Based on above-mentioned technical proposal, such scheme provided in an embodiment of the present invention passes through the target of the input according to user Object and beginning and ending time, by transferring energy resource consumption number of the destination object in beginning and ending time section in energy consumption data According to carrying out ranking to all kinds of energy resource consumptions of each contrast object in beginning and ending time section in destination object, obtain each The consumption ranking of individual contrast object same middle energy in beginning and ending time section, and ranking result is exported, user can foundation The ranking result judges the problem of each enterprise whether there is energy waste, proposes that rectification is required to the enterprise ranked behind, from And improved for enterprise and guidance instruction is provided.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this The embodiment of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis The accompanying drawing of offer obtains other accompanying drawings.

Fig. 1 is a kind of schematic flow sheet of industrial automatic control energy efficiency analysis method for air disclosed in the embodiment of the present application；

Fig. 2 is a kind of structural representation of industrial automatic control Energy Efficiency Analysis platform disclosed in the embodiment of the present application；

Fig. 3 is a kind of interior heat exchange station caloric consumption data schematic diagram of beginning and ending time section disclosed in the embodiment of the present application；

Fig. 4 is a kind of interior heat exchange station caloric consumption data schematic diagram of beginning and ending time section disclosed in another embodiment of the application；

Fig. 5 is that a kind of ranking result of the every energy resource consumption of heat exchange station in beginning and ending time section disclosed in the embodiment of the present application is shown It is intended to；

Fig. 6 is a kind of interior heat exchange station caloric consumption data schematic diagram of beginning and ending time section disclosed in another embodiment of the application；

Fig. 7 is the every energy consumption data of a kind of interior a certain heat exchange station of beginning and ending time section disclosed in another embodiment of the application Schematic diagram；

Fig. 8 is the selection interface schematic diagram for the software that the application application has method disclosed in the embodiment of the present application and platform.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

The heat supply data to each company and enterprise are analyzed for convenience, are reached with will pass through the analysis to heat supply data To the purpose of reduction energy resource consumption, this application discloses a kind of industrial automatic control energy efficiency analysis method for air and platform, referring to figure 1, this method can include：

Step S101：Obtain the energy consumption data of each heat supply company, thermal source and heat exchange station；

The energy consumption data is at least including the coal amount in each heat supply company, thermal source and the heat exchange station course of work, gas Amount, water, the history consumption data of electricity and heat；

Wherein, coal consumption amount can be obtained by the way of user is manually entered, the air and heat, electricity, water consumption can To be measured by measurement of correlation instrument, and measuring instrumentss can carry out data remote.Using the system of this method to same measuring instrument Table is connected, and the data of instrument measurement are collected by measurement period and can obtain the energy input of destination object for a period of time；

Wherein, heat consumption can use formula Q=C × M × Δ t × 10^-6Calculating is obtained, and Q is heat in the formula, Unit is GJ, and C is specific heat capacity, and unit is kJ/ (kg DEG C), value：C=4.1868；M is quality, and unit is kg；Δ t is confession Return temperature difference, Δ t=(t_cs-t_js), unit for DEG C；t_csFor supply water temperature, unit for DEG C；t_jsFor return water temperature, unit for DEG C；

Power consumption can use formulaCalculating is obtained, and W is power consumption in heat exchange station beginning and ending time section, unit For kWh；W_jFor the power consumption of heat exchange station jth time statistics in beginning and ending time section, unit is kWh；When N is heat exchange station start-stop Between metering power consumption number of times in section, unit is secondary；

Power consumption can use formulaCalculating is obtained, V_WaterFor water consumption, list in heat exchange station beginning and ending time section Position is m³；V_jFor the water consumption of jth time statistics in heat exchange station beginning and ending time section, unit is m³；Counted in N heat exchange station beginning and ending times section Water consumption number of times is measured, unit is secondary；

Step S102：Obtain destination object and the beginning and ending time of user's input；

The destination object refers to the heat supply company, thermal source or heat exchange station, by the corresponding heat supply of the destination object Company, thermal source or heat exchange station are designated as contrasting object, and the beginning and ending time includes initial time and deadline；For example, when needs It is described right using the heat supply company as destination object when analyzing energy resource consumption situation of each heat supply company in period A Compare as including heat supply company B1, B2, foundation regard period A enlightenment time and deadline as the beginning and ending time；

Step S103：Transfer energy consumption data of each contrast object in beginning and ending time section；

Step S104：According to the energy consumption data in beginning and ending time section, exist respectively to contrasting object each described Coal amount, tolerance, water, electricity and heat consumption amount in the beginning and ending time section carry out contrast and ranking one by one；

In this step, when calculate obtain each contrast object the beginning and ending time section in coal amount, tolerance, water, electricity After heat consumption amount, ranking, tolerance consumption are carried out to coal amount consumption of each contrast object in beginning and ending time section and arranged Name, water content consumption carry out ranking, electric quantity consumption and carry out ranking and heat consumption progress ranking；

Step S105：Export each ranking result.

In technical scheme disclosed in the above embodiments of the present application, by the destination object of the input according to user and during start-stop Between, by transferring energy consumption data of the destination object in beginning and ending time section in energy consumption data, to target pair All kinds of energy resource consumptions of each contrast object in beginning and ending time section as in carry out ranking, obtain each contrast object and exist The consumption ranking of the same middle energy in the beginning and ending time section, and ranking result is exported, user can sentence according to the ranking result The problem of each enterprise break with the presence or absence of energy waste, proposes that rectification is required to the enterprise ranked behind, so as to be enterprise's improvement Guidance instruction is provided.

In technical scheme disclosed in another embodiment of the application, user more intuitively checks each enterprise for convenience In all kinds of energy consumption datas in beginning and ending time section, technical scheme disclosed in the above embodiments of the present application, transferring To after energy consumption data of each contrast object in beginning and ending time section, all kinds of numbers in energy consumption data are directed to Corresponding consumption view or list are set up respectively according to (coal amount, tolerance, water, electricity and heat), wherein, the consumption view can Think block diagram or curve map etc. for the energy resource consumption in each stage that characterizes contrast object in beginning and ending time section, with Show the energy-output ratio in each stage in beginning and ending time section, certainly, user is to each destination object for convenience The consumption variation tendency of the same energy in beginning and ending time section contrasted, each can be contrasted to the same class of object The consumption view of the energy of type is incorporated into same view, and the example can be found in the golden home heat exchange station of heat consumption shown in Fig. 3 With the heat consumption statistical chart in 110 2 area heat exchange station 3.18-3.20 (beginning and ending time section), 110 2 area 3.21- shown in Fig. 4 Heat consumption statistical chart in 3.23 (beginning and ending time sections), shown in Fig. 5, each heat exchange in March-April (beginning and ending time section) The ranking result schematic diagram of heat consumption, power consumption and the water consumption consumption stood, the alura heating power heat exchange station 3.17- shown in Fig. 6 The caloric consumption data variation diagram of (in beginning and ending time section) in 3.25, the 3.17- of the alura heating power heat exchange station shown in Fig. 7 (in beginning and ending time section) heat consumption, power consumption and water consumption consumption change schematic diagram in 3.25.

In method disclosed in another embodiment of the application, except the consumption to all kinds of energy in beginning and ending time section is total Amount is counted, outside ranking, the area of heat-supply service that the application can also be according to each contrast object, and it is right that calculating obtains each Compare as the energy input spent in unit area, so as to directly obtain the problem of enterprise is with the presence or absence of energy waste, tool Body, a kind of energy efficiency analysis method for air is also disclosed in the above method, therefore the above method can also include：

Coal amount respectively in unit area of each the described contrast object of calculating in beginning and ending time section, tolerance, water Amount, electricity and heat consumption amount (all kinds of total energy consumption/area of heat-supply services), and respectively to contrasting object each described in the start-stop Coal amount, tolerance, water, electricity and heat consumption amount in unit area in period carry out contrast and ranking one by one, i.e. point It Ji Suan not obtain contrasting coal amount, tolerance, water, electricity and heat of the object in beginning and ending time section and disappear total burn-off, then according to Calculate and obtain according to the corresponding area of heat-supply service of the contrast object, can respectively calculate and obtain the heat supply region of per unit area and consumed Coal amount, tolerance, water, electricity and heat.By each contrast object per unit area heat supply region consumed coal amount, Tolerance, water, electricity and heat carry out ranking, you can judge the enterprise of energy waste most serious, and its that energy waste It is the most serious, so that enterprise can targetedly be improved.Beginning and ending time section is intuitively checked of course for convenient The energy change that each interior period is consumed, the application can also respectively be generated described according to energy consumption data each described Coal amount of each contrast object in the unit area in beginning and ending time section, tolerance, water, electricity and heat consumption amount Change view or list, certainly, contrast for convenience, each contrast object can be disappeared in the interior same energy of beginning and ending time section The change view of consumption or list are integrated into a view or list.

In another embodiment disclosed in the present application, object can also be contrasted in start-stop to each by Cost Analysis Method Energy input cost in period count and ranking, specifically：Each contrast object is being transferred in institute in the above method The energy consumption data in beginning and ending time section is stated, can also be included afterwards：

According to the energy consumption data and coal amount, tolerance, water, electricity, the unit price of heat corresponding to beginning and ending time section, meter The energy cost for obtaining that each contrast object is spent in the beginning and ending time section is calculated, and to each contrast object in the start-stop The totle drilling cost of input or the cost of each single item energy carry out ranking in period.Certainly, with similar above, each can also be generated The change of the totle drilling cost of each stage input during object is contrasted in beginning and ending time section or the cost of each single item energy input Change view or list.

Wherein, formula C can be passed through with heat cost_Heat=Q_Heat×P_Heat×10^-4Calculating is obtained, C_HeatIt is single to use heat cost Position is ten thousand yuan；Q_HeatFor the heat consumption in beginning and ending time section, unit is GJ；P_HeatFor heat unit price, unit is member/GJ.

Power consumption cost can pass through formula C_Electricity=Σ (W_{Ordinary telegram}×P_{Ordinary telegram}+W_{Peak electricity}×P_{Peak electricity}+W_{Paddy electricity}×P_{Paddy electricity})×10^-4Calculate Arrive, C_ElectricityFor power consumption cost, unit is ten thousand yuan；W_{Ordinary telegram}For flat section power consumption in beginning and ending time section, unit is kWh；For P_{Ordinary telegram}It is flat Section electricity price, unit is member/kWh；W_{Peak electricity}For crest segment power consumption in beginning and ending time section, unit is kWh；P_{Peak electricity}For crest segment electricity price, Unit is member/kWh；W_{Paddy electricity}Paddy section power consumption in beginning and ending time section, unit is kWh；P_{Paddy electricity}For the beginning and ending time section paddy section electricity price, Unit is member/kWh.

Electricity consumption water cost can pass through formula C_Water=V_Water×P_Water×10^-4Calculating is obtained, C_WaterFor water consumption cost, unit is ten thousand Member；V_WaterFor water consumption in beginning and ending time section, unit is m³；P_WaterFor water price, unit is member/m³。

In technical scheme disclosed in another embodiment of the application, for the accident variation tendency of monitoring device, if certain Occur the number of times of accident in enterprise excessively and show a rising trend year by year, then assert that the enterprise needs extensive maintenance, think confession The user of thermal region provides more preferable heating quality, therefore, in the above method disclosed in the above embodiments of the present application, to operation matter Amount is analyzed, and the specific above method can also include counting accident number of each contrast object in beginning and ending time section, Accident rate of each contrast object in beginning and ending time section can be further obtained according to area of heat-supply service, of course for supervising enterprise Industry is improved, and can also carry out ranking to accident rate of each contrast object in beginning and ending time section；

Wherein, a net side accident is usually a net valve accident, a net booster, a net gross leak, third party's liability accident, Often there is once above-mentioned accident in the beginning and ending time section, accident number adds one, and the thing for obtaining destination object is calculated by formula Therefore rateCalculate and obtain contrasting accident rate of the object in beginning and ending time section, wherein, K_{One net}For a net Side accident rate, A is the area of heat-supply service of contrast object.The accident pattern of two net sides is usually：Two net valve accidents, two net boosters, Two net gross leaks, third party's liability accident, heat exchange station side accident pattern is usually：Heat exchanger accident, circulating pump accident, small pump Accident, circulating pump frequency converter accident, electric control valve accident, the accident rate meter for flooding heat exchange station, two net side and heat exchange station side Calculation mode is identical with the accident rate calculation of a net side.

In order to further monitor heating quality, the application can also be analyzed heating quality, the specific above method The indoor temperature of each user in heat supply region can also be monitored, the quantity of statistics indoor temperature user not up to standard, And indoor temperature user's total amount not up to standard carries out ranking in beginning and ending time section to contrast object.

For environmental protection quality, in addition to being monitored to energy resource consumption, the discharge capacity of pollutant can also be entered Row monitoring, i.e. in method disclosed in the embodiment of the present application, can also count dirt of each contrast object in beginning and ending time section Thing discharge capacity is contaminated, to judge whether the pollutant discharge amount of each enterprise is exceeded, i.e., each described contrast object is calculated respectively and exists Pollutant discharge amount in the beginning and ending time section, and to contrasting each class of object in beginning and ending time section each described The pollutant discharge amount of type carries out ranking, and tabulates or chart；

Wherein, the calculation formula of CO2 discharge capacitys is：G_co2=B × K₁×10^-4The G_co2For coal-burning boiler production process two Carbon emission amount is aoxidized, unit is ten thousand t；B is the tandard coal amount that coal-burning boiler production process is consumed, and unit is t；K₁For consumption 1t marks The energy of quasi- coal, the amount of carbon dioxide of discharge is 2.6t, K₁=2.6.

The calculation formula of SO2 discharge capacitys is：G_so2=0.2 × B × S_ar×P×(1-η_so2)×10^-4, G_so2For coal-burning boiler Production process SO2 emissions, unit is ten thousand t；B is the tandard coal amount that coal-burning boiler production process is consumed, and unit is t；S_ar For coal As-received sulphur content content, P is the conversion ratio of sulphur in fire coal；η_so2For the desulfurization degree of desulfurization measure.

The calculation formula of DS NOx Est amount is：G_NOX=1.63 × B × (0.015 × P+0.000938) × 10^-4(fire coal), G_NOX=1.63 × B × (N_ar×P+0.000938)×10^-4(fuel oil), wherein, G_NOXFor coal-burning boiler production process nitrogen oxides Discharge capacity, unit is ten thousand t；B is the tandard coal amount that coal-burning boiler production process is consumed, and unit is t；N_arContain for nitrogen in fuel oil Amount；P is the NOx conversion of nitrogen in fuel；

The calculation formula of smoke discharge amount is：In formula： G_CFor coal-burning boiler production process dust discharge amount, unit is ten thousand t；B is the tandard coal amount that coal-burning boiler production process is consumed, single Position is t；A_arFor coal As-received content of ashes；a_fhThe weight quota of as-fired coal total amount ash quantity is accounted for for the ash quantity in flue dust, wherein, Grate furnace takes 0.1, and spreader stoker boiler takes 0.25, and fluidized bed furnace takes 0.55；C_fhTo fix the percentage of carbon content in flue dust, grate furnace takes 30, spreader stoker boiler takes 45, and fluidized bed furnace takes 60；η_CFor the efficiency of dust collection of deduster.

In technical scheme disclosed in another embodiment of the application, each contrast object is transferred in beginning and ending time section Energy consumption data after, can also include：

Heating load of each the described contrast object in beginning and ending time section is calculated respectively, and each described pairs is compared As the heating load in beginning and ending time section carries out ranking；Each described contrast object is calculated respectively in beginning and ending time section Heating load change view or list in interior unit area.

In technical scheme disclosed in another embodiment of the application, in order to further improve service quality, each is being transferred Contrast after energy consumption data of the object in beginning and ending time section, can also include：

Each complaint number of times of contrast object in beginning and ending time section is obtained, based on heat supply zone user quantity And complain number of times to calculate the rate of complaints for obtaining the contrast object in beginning and ending time section, to contrasting object each described in institute The rate of complaints stated in beginning and ending time section carries out ranking.

In addition, the above method can also be calculated by the current outdoor temperature in heat supply region needed for obtaining the contrast object The heat provided to heat supply region, specifically, the above method can also include：

The outdoor temperature in heat supply region is obtained, is tabled look-up according to the outdoor temperature and obtains target heat required in user room Amount；The target heat and target flow for obtaining heat adjusting device are tabled look-up or calculated according to the target heat, and the heat is adjusted Finishing equipment is heat supply initial station or thermal source；

The heat and flow of the heat adjusting device are adjusted according to the target heat and target flow.

Technology is put in scheme disclosed in the embodiment of the present application, except the various data to each contrast object are counted And outside ranking, can also detect whether each corresponding various data of contrast object is exceeded, i.e., disclosed in above-described embodiment In technical scheme, calculating is obtained after every data, and each item data is distinguished into corresponding predetermined threshold value is contrasted, and judges meter Whether obtained data are more than predetermined threshold value, if it is, output alarm signal.Wherein, the size of every predetermined threshold value can be with Voluntarily adjusted according to user's request.

Referring to Fig. 8, this method can be common in software systems, and user can be by the interface shown in Fig. 8 according to itself Demand selection will carry out the contrast object and beginning and ending time section of ranking contrast, after object is contrasted and beginning and ending time section is determined, choosing The type to be contrasted is selected, for example it can be energy consumption analysis, Energy Efficiency Analysis, cost analysis, quantity of operation analysis, heat supply matter Amount analysis and Analysis on Quality of Service etc..

It is corresponding with the above method, disclosed herein as well is a kind of industrial automatic control Energy Efficiency Analysis platform, platform Technical characteristic can be used for reference mutually with method, and referring to Fig. 2, the platform can include：

Data storage cell 100, the energy resource consumption number for obtaining and storing each heat supply company, thermal source and heat exchange station According to the energy consumption data is at least including the coal amount in each heat supply company, thermal source and the heat exchange station course of work, tolerance, water The history consumption data of amount, electricity and heat；

Semantic object extraction unit 200, destination object and beginning and ending time for obtaining user's input, the destination object The heat supply company, thermal source or heat exchange station are referred to, the corresponding heat supply company of the destination object, thermal source or heat exchange station are designated as Object is contrasted, the beginning and ending time includes initial time and deadline；

Energy consumption data transfers unit 300, for transferring each contrast object in the data storage cell in institute State the energy consumption data in beginning and ending time section；

The energy uses analytic unit 400, for according to the energy consumption data in beginning and ending time section, respectively to each Coal amount, tolerance, water, electricity and heat consumption amount of the contrast object in beginning and ending time section are contrasted simultaneously one by one Ranking；Export each ranking result.

Corresponding with the above method, the energy is additionally operable to using analytic unit 400：Generate and export each contrast object Coal amount, tolerance, water, electricity and the energy-output ratio change view of heat or list in beginning and ending time section.

Corresponding with the above method, above-mentioned platform can also include：

Energy Efficiency Analysis unit 500, it is used to calculate list of each the described contrast object in beginning and ending time section respectively Coal amount, tolerance, water, electricity and heat consumption amount in plane product, and respectively to contrasting object each described in the start-stop Coal amount, tolerance, water, electricity and heat consumption amount in unit area in period carry out contrast and ranking one by one；Respectively Calculate coal amount, tolerance, water, electricity and heat of each the described contrast object in the unit area in beginning and ending time section The change view of consumption or list.

Corresponding with the above method, above-mentioned platform can also include：

Accident rate computing unit, for counting accident number of each contrast object in beginning and ending time section, according to heat supply Area can further obtain accident rate of each contrast object in beginning and ending time section, be changed of course for enterprise is supervised Enter, ranking is carried out to accident rate of each contrast object in beginning and ending time section；

Corresponding with the above method, above-mentioned platform can also include：

Cost analysis unit 600, for according to the energy consumption data and coal amount, tolerance, water, electricity, heat Unit price, calculates the energy cost for obtaining that each contrast object is spent in the beginning and ending time section, and carry out ranking.

Corresponding with the above method, above-mentioned platform can also include：

Heating quality analytic unit 700, for calculating each described contrast object respectively in beginning and ending time section Heating load, and carry out ranking to contrasting heating load of the object in beginning and ending time section each described；Calculate described each respectively Heating load change view or list of the individual contrast object in the unit area in beginning and ending time section.

Corresponding with the above method, above-mentioned platform can also include：

Quantity of operation analytic unit 800, obtains each complaint number of times of contrast object in beginning and ending time section, Ranking is carried out to contrasting complaint number of times of the object in beginning and ending time section each described.

Corresponding with the above method, above-mentioned platform can also include：

Environmental impact analysis unit 900, for obtaining each air of contrast object in beginning and ending time section Pollutant effulent statistics, to contrasting air pollution emission thing statistical number of the object in beginning and ending time section each described According to progress ranking.

Corresponding with the above method, above-mentioned platform can also include：

Energy consumption predicting unit 110, the outdoor temperature for obtaining heat supply region is calculated according to the outdoor temperature and used Required target heat in the room of family；The target heat and target stream of heat adjusting device are obtained according to the target heat Calculation Amount, the heat adjusting device is heat supply initial station or thermal source；The heat is adjusted according to the target heat and target flow The heat and flow of equipment are adjusted.

For convenience of description, description is described respectively with being divided into various modules during upper mounting plate with function.Certainly, this is being implemented The function of each module can be realized in same or multiple softwares and/or hardware during application.

Each embodiment in this specification is described by the way of progressive, identical similar portion between each embodiment Divide mutually referring to what each embodiment was stressed is the difference with other embodiment.Especially for platform or For platform embodiment, because it is substantially similar to embodiment of the method, so describing fairly simple, related part is referring to method The part explanation of embodiment.Platform and platform embodiment described above is only schematical, wherein the conduct The unit that separating component illustrates can be or may not be it is physically separate, the part shown as unit can be or Person may not be physical location, you can with positioned at a place, or can also be distributed on multiple NEs.Can root Some or all of module therein is factually selected to realize the purpose of this embodiment scheme the need for border.Ordinary skill Personnel are without creative efforts, you can to understand and implement.

Professional further appreciates that, with reference to the unit of each example of the embodiments described herein description And algorithm steps, can be realized with electronic hardware, computer software or the combination of the two, in order to clearly demonstrate hardware and The interchangeability of software, generally describes the composition and step of each example according to function in the above description.These Function is performed with hardware or software mode actually, depending on the application-specific and design constraint of technical scheme.Specialty Technical staff can realize described function to each specific application using distinct methods, but this realization should not Think beyond the scope of this invention.

Directly it can be held with reference to the step of the method or algorithm that the embodiments described herein is described with hardware, processor Capable software module, or the two combination are implemented.Software module can be placed in random access memory (RAM), internal memory, read-only deposit Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology In any other form of storage medium well known in field.

It should also be noted that, herein, such as first and second or the like relational terms are used merely to one Entity or operation make a distinction with another entity or operation, and not necessarily require or imply between these entities or operation There is any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant are intended to contain Lid nonexcludability is included, so that process, method, article or equipment including a series of key elements not only will including those Element, but also other key elements including being not expressly set out, or also include being this process, method, article or equipment Intrinsic key element.In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that Also there is other identical element in process, method, article or equipment including the key element.

The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or using the present invention. A variety of modifications to these embodiments will be apparent for those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, it is of the invention The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one The most wide scope caused.

Claims (16)

1. a kind of industrial automatic control energy efficiency analysis method for air, it is characterised in that including：

The energy consumption data of each heat supply company, thermal source and heat exchange station is obtained, the energy consumption data at least includes each The history consumption data of coal amount, tolerance, water, electricity and heat in heat supply company, thermal source and the heat exchange station course of work；

Destination object and the beginning and ending time of user's input are obtained, the destination object refers to the heat supply company, thermal source or changed Heat stations, the corresponding heat supply company of the destination object, thermal source or heat exchange station are designated as to contrast object, the beginning and ending time includes Time beginning and deadline；

Transfer energy consumption data of each contrast object in beginning and ending time section；

According to the energy consumption data in beginning and ending time section, respectively to contrasting object each described in beginning and ending time section Interior coal amount, tolerance, water, electricity and heat consumption amount carries out contrast and ranking one by one；

Export each ranking result.

2. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that transfer each to comparing After the energy consumption data in beginning and ending time section, in addition to：

Generate and export coal amount of each contrast object in beginning and ending time section, tolerance, water, the energy of electricity and heat Consumption changes view or list.

3. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that transfer each to comparing After the energy consumption data in beginning and ending time section, in addition to：

Coal amount respectively in unit area of each the described contrast object of calculating in beginning and ending time section, tolerance, water, electricity Amount and heat consumption amount, and respectively to each described contrast object the beginning and ending time section in unit area in coal amount, Tolerance, water, electricity and heat consumption amount carry out contrast and ranking one by one；

According to the energy consumption data, unit area of each the described contrast object in beginning and ending time section is generated respectively Interior coal amount, tolerance, water, electricity and the change view of heat consumption amount or list.

4. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that transfer each to comparing After the energy consumption data in beginning and ending time section, in addition to：

According to the energy consumption data and coal amount, tolerance, water, electricity, the unit price of heat corresponding to beginning and ending time section, calculate The energy cost that each contrast object is spent in beginning and ending time section, and carry out ranking.

5. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that transfer each to comparing After the energy consumption data in beginning and ending time section, in addition to：

Heating load of each the described contrast object in beginning and ending time section is calculated respectively, and is existed to contrasting object each described Heating load in the beginning and ending time section carries out ranking；

Calculate respectively heating load change view of each the described contrast object in the unit area in beginning and ending time section or List.

6. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that obtain user's input Destination object and after the beginning and ending time, in addition to：

Obtain each complaint number of times of contrast object in beginning and ending time section, based on heat supply zone user quantity and Number of times is complained to calculate the rate of complaints for obtaining the contrast object in beginning and ending time section, to contrasting object each described at described Only the rate of complaints in the period carries out ranking.

7. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that obtain user's input Destination object and after the beginning and ending time, in addition to：

Each air pollution emission thing statistics of contrast object in beginning and ending time section is obtained, to described in each Contrast air pollution emission thing statistics of the object in beginning and ending time section and carry out ranking.

8. industrial automatic control energy efficiency analysis method for air according to claim 1, it is characterised in that also include：

The outdoor temperature in heat supply region is obtained, is tabled look-up according to the outdoor temperature and obtains target heat required in user room；

The target heat and target flow of heat adjusting device, the heat adjusting device are obtained according to the target heat Calculation For heat supply initial station or thermal source；

The heat and flow of the heat adjusting device are adjusted according to the target heat and target flow.

9. a kind of industrial automatic control Energy Efficiency Analysis platform, it is characterised in that including：

Data storage cell, the energy consumption data for obtaining each heat supply company, thermal source and heat exchange station, the energy resource consumption Data are at least including the coal amount in each heat supply company, thermal source and the heat exchange station course of work, tolerance, water, electricity and heat History consumption data；

Semantic object extraction unit, destination object and beginning and ending time for obtaining user's input, the destination object is referred to The heat supply company, thermal source or heat exchange station, the corresponding heat supply company of the destination object, thermal source or heat exchange station are designated as to comparing As the beginning and ending time includes initial time and deadline；

Energy consumption data transfers unit, for transferring each contrast object in the data storage cell in the start-stop Between energy consumption data in section；

The energy uses analytic unit, for according to the energy consumption data in beginning and ending time section, respectively to right each described Compare as coal amount, tolerance, water, electricity and the heat consumption amount in beginning and ending time section carry out contrast and ranking one by one； Export each ranking result.

10. industrial automatic control Energy Efficiency Analysis platform according to claim 9, it is characterised in that the energy uses analysis Unit is additionally operable to：

Generate and export coal amount of each contrast object in beginning and ending time section, tolerance, water, the energy of electricity and heat Consumption changes view or list.

11. industrial automatic control energy efficiency analysis method for air according to claim 9, it is characterised in that also include：

Energy Efficiency Analysis unit, for calculating each described contrast object respectively in the unit area in beginning and ending time section Coal amount, tolerance, water, electricity and heat consumption amount, and respectively to contrasting object each described in beginning and ending time section Coal amount, tolerance, water, electricity and heat consumption amount in unit area carry out contrast and ranking one by one；Disappear according to the energy Data are consumed, coal amount respectively in unit area of each the described contrast object of generation in beginning and ending time section, tolerance, water Amount, electricity and the change view of heat consumption amount or list.

12. industrial automatic control Energy Efficiency Analysis platform according to claim 9, it is characterised in that also include：

Cost analysis unit, for according to the beginning and ending time section corresponding to energy consumption data and coal amount, tolerance, water, electricity, The unit price of heat, calculates the energy cost for obtaining that each contrast object is spent in the beginning and ending time section, and carry out ranking.

13. industrial automatic control Energy Efficiency Analysis platform according to claim 9, it is characterised in that also include：

Heating quality analytic unit, for calculating heating load of each the described contrast object in beginning and ending time section respectively, And carry out ranking to contrasting heating load of the object in beginning and ending time section each described；Each is to comparing described in calculating respectively As the heating load change view in the unit area in beginning and ending time section or list.

14. industrial automatic control Energy Efficiency Analysis platform according to claim 9, it is characterised in that also include：

Quantity of operation analytic unit, obtains each complaint number of times of contrast object in beginning and ending time section, based on confession Thermal region number of users and complaint number of times calculate the rate of complaints for obtaining the contrast object in beginning and ending time section, to each institute State the rate of complaints of contrast object in beginning and ending time section and carry out ranking.

15. industrial automatic control Energy Efficiency Analysis platform according to claim 9, it is characterised in that also include：

Environmental impact analysis unit, for obtaining each air pollution emission of contrast object in beginning and ending time section Thing statistics, is arranged contrasting air pollution emission thing statistics of the object in beginning and ending time section each described Name.

16. industrial automatic control Energy Efficiency Analysis platform according to claim 9, it is characterised in that also include：

Energy consumption predicting unit, the outdoor temperature for obtaining heat supply region, tables look-up according to the outdoor temperature and obtains in user room Required target heat；The target heat and target flow of heat adjusting device are obtained according to the target heat Calculation, it is described Heat adjusting device is heat supply initial station or thermal source；According to the heat of the target heat and target flow to the heat adjusting device Amount and flow are adjusted.