CN105303368A - Screening method of energy saving and emission reduction projects - Google Patents
Screening method of energy saving and emission reduction projects Download PDFInfo
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- CN105303368A CN105303368A CN201510705717.0A CN201510705717A CN105303368A CN 105303368 A CN105303368 A CN 105303368A CN 201510705717 A CN201510705717 A CN 201510705717A CN 105303368 A CN105303368 A CN 105303368A
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Abstract
The present invention discloses a screening method of energy saving and emission reduction projects. The screening method comprises: obtaining energy saving and emission reduction projects available for enterprise implementation, and forming a list of the energy saving and emission reduction projects; calculating five indexes, such as an annual quantity of energy saving, an annual reduction, an investment cost, an investment recovery period and a net present value, of each energy saving and emission reduction project in the list of the energy saving and emission reduction projects; obtaining an index quantity of energy saving and an index quantity of emission reduction of an enterprise; and defining the five indexes of the energy saving and emission reduction project in the list of the energy saving and emission reduction projects as an objective function, defining the indexes of the annual quantity of energy saving and the annual quantity of emission reduction as a constraint condition, establishing a multi-objective programming model, and screening out energy saving and emission reduction projects satisfying the conditions. According to the screening method of energy saving and emission reduction projects, through the screening of five indexes, such as an investment cost, an investment recovery period, a net present value, an annual quantity of emission reduction and an annual quantity of energy saving, of a project list, a list of objectives is determined, and energy saving and emission reduction projects of enterprises are determined.
Description
Technical field
The present invention relates to energy-conserving and emission-cutting technology field, particularly relate to a kind of screening technique of energy-saving and emission-reduction project.
Background technology
Under the overall background of global warming, the signature of concluding of " the United Nations's climate change pact " and Kyoto Protocol is passed through in countries in the world, reaches the common recognition of energy-saving and emission-reduction, development low-carbon economy.China clearly proposes the CO2 emission of the year two thousand twenty per GDP than decline 40%-45% in 2005 in " 12 " planning, and discharge enterprise certainly will be subject to forcing management and control.Low carbon management is a kind of is core with carbon emission reduction, the administrative skill based on carbon accounting, and be enterprise's control discharge, realize the only way which must be passed of low carbon development, it can help enterprise to complete energy-saving and emission-reduction index smoothly, and realization is increased income and decreased expenditure, detract synergy.
Energy-saving and emission-reduction project screening is the core link of enterprise's low-carbon (LC) management review, can be numerous for the energy-saving and emission-reduction project of enterprise implement, determine that the carbon reduction projects combo of overall target optimum is carried out deployment and implemented by screening, reduce enterprise energy consumption and carbon emission with least cost, realize industry energy conservation low-carbon (LC) project investment maximizing the benefits.The energy-saving and emission-reduction project filtered out finally forms enterprise's low-carbon (LC) solution, for company manager provides decision support.
The low-carbon (LC) management review of current enterprise is still in the starting stage, can supply in numerous energy-saving and emission-reduction projects of enterprise implement, each reduction of discharging project has the technical indicators such as respective cost of investment, CER, how according to enterprise self management state scientific and reasonable choose energy-saving and emission-reduction project, formulating low-carbon (LC) solution, is the current difficult problem of carrying out low-carbon (LC) management review and facing of enterprise.
Summary of the invention
The application provides a kind of screening technique of energy-saving and emission-reduction project, solves can in numerous energy-saving and emission-reduction projects of enterprise implement, how according to enterprise self management state scientific and reasonable choose energy-saving and emission-reduction project, formulate the technical matters of low-carbon (LC) solution.
The application provides a kind of screening technique of energy-saving and emission-reduction project, and described screening technique comprises:
Acquisition for the energy-saving and emission-reduction project of enterprise implement, can form energy-saving and emission-reduction project list;
Adjust the annual amount of energy saving of each energy-saving and emission-reduction project in described energy-saving and emission-reduction project list, annual CER, investment cost, investment payback time, net present value (NPV) 5 indexs;
Obtain the energy-saving index amount of described enterprise and reduce discharging index amount;
With described 5 indexs of the energy-saving and emission-reduction project of described energy-saving and emission-reduction project list for objective function, with the annual amount of energy saving of described enterprise and annual CER index for constraint condition, set up Multiobjective programming models, filter out the energy-saving and emission-reduction project satisfied condition.
Preferably, described with described 5 indexs of the energy-saving and emission-reduction project of described energy-saving and emission-reduction project list for objective function, with the annual amount of energy saving of described enterprise and annual CER index for constraint condition, set up Multiobjective programming models, filter out the energy-saving and emission-reduction project satisfied condition, specifically comprise:
Enterprise determines the screening order of described 5 indexs according to self management state and actual needs, wherein, described investment cost, described investment payback time, described net present value (NPV) are override screening objective function is G, and described annual amount of energy saving and described annual CER are second priority screening objective function is J;
Under guarantee amount of energy saving and CER meet the prerequisite of performance assessment criteria, select to meet the first override screening objective function G
fristthe energy-saving and emission-reduction project of condition forms first object inventory (x
11, x
21... x
n1);
In described first object inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
fristprerequisite under, select to meet the second override screening objective function G
secondthe energy-saving and emission-reduction project of condition forms the second target inventory (x
12, x
22... x
n2);
In described second target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
secondprerequisite under, select to meet the 3rd override screening objective function G
thirdenergy-saving and emission-reduction project formed the 3rd target inventory (x
13, x
23... x
n3);
In described 3rd target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
second, G
thirdprerequisite under, select to meet first time preferential screening target J
fristenergy-saving and emission-reduction project formed the 4th target inventory (x
14, x
24... x
n4);
In described 4th target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
second, G
third, J
fristprerequisite under, select to meet second time preferential screening target J
secondenergy-saving and emission-reduction project formed the 5th target inventory (x
15, x
25... x
n5);
Confirm that the project in described 5th target inventory is the energy-saving and emission-reduction project finally chosen.
Preferably, described under guarantee amount of energy saving and CER meet the prerequisite of performance assessment criteria, select to meet the first override screening objective function G
fristthe energy-saving and emission-reduction project of condition forms first object inventory (x
11, x
21... x
n1), especially by following model realization:
Preferably, described in described first object inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
fristprerequisite under, select to meet the second override screening objective function G
secondthe energy-saving and emission-reduction project of condition forms the second target inventory (x
12, x
22... x
n2), especially by following model realization:
Preferably, described in described second target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
secondprerequisite under, select to meet the 3rd override screening objective function G
thirdenergy-saving and emission-reduction project formed the 3rd target inventory (x
13, x
23... x
n3), especially by following model realization:
Preferably, in described 3rd target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
second, G
thirdprerequisite under, select to meet first time preferential screening target J
fristenergy-saving and emission-reduction project formed the 4th target inventory (x
14, x
24... x
n4), especially by following model realization:
7, screening technique as claimed in claim 2, is characterized in that, in described 4th target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meeting objective function G simultaneously
frist, G
second, G
third, J
fristprerequisite under, select to meet second time preferential screening target J
secondenergy-saving and emission-reduction project formed the 5th target inventory (x
15, x
25... x
n5), especially by following model realization:
The application's beneficial effect is as follows:
The screening technique of this energy-saving and emission-reduction project is by carrying out the screening of investment cost, investment payback time, net present value (NPV), annual CER, annual amount of energy saving 5 indexs to project list, determine target inventory, determine the energy-saving and emission-reduction project of enterprise, solve and can supply in numerous energy-saving and emission-reduction projects of enterprise implement, how according to enterprise self management state scientific and reasonable choose energy-saving and emission-reduction project, formulate the technical matters of low-carbon (LC) solution.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described by the accompanying drawing used required in describing embodiment below, apparently, the accompanying drawing in the following describes is only some embodiments of the present invention.
Fig. 1 is the process flow diagram of the screening technique of a kind of energy-saving and emission-reduction project of the application's better embodiment.
Embodiment
The embodiment of the present application is by providing a kind of screening technique of energy-saving and emission-reduction project, solve and can supply in numerous energy-saving and emission-reduction projects of enterprise implement, how according to enterprise self management state scientific and reasonable choose energy-saving and emission-reduction project, formulate the technical matters of low-carbon (LC) solution.
Technical scheme in the embodiment of the present application is for solving the problems of the technologies described above, and general thought is as follows:
A screening technique for energy-saving and emission-reduction project, described screening technique comprises:
Acquisition for the energy-saving and emission-reduction project of enterprise implement, can form energy-saving and emission-reduction project list;
Adjust the annual amount of energy saving of each energy-saving and emission-reduction project in described energy-saving and emission-reduction project list, annual CER, investment cost, investment payback time, net present value (NPV) 5 indexs;
Obtain the energy-saving index amount of described enterprise and reduce discharging index amount;
With described 5 indexs of the energy-saving and emission-reduction project of described energy-saving and emission-reduction project list for objective function, with the annual amount of energy saving of described enterprise and annual CER index for constraint condition, set up Multiobjective programming models, filter out the energy-saving and emission-reduction project satisfied condition.
The screening technique of this energy-saving and emission-reduction project is by carrying out the screening of investment cost, investment payback time, net present value (NPV), annual CER, annual amount of energy saving 5 indexs to project list, determine target inventory, determine the energy-saving and emission-reduction project of enterprise, solve and can supply in numerous energy-saving and emission-reduction projects of enterprise implement, how according to enterprise self management state scientific and reasonable choose energy-saving and emission-reduction project, formulate the technical matters of low-carbon (LC) solution.
In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.
The application provides a kind of screening technique of energy-saving and emission-reduction project.As shown in Figure 1, said method comprising the steps of:
Step S110: obtain and for the energy-saving and emission-reduction project of enterprise implement, energy-saving and emission-reduction project list can be formed.
Step S120: adjust the annual amount of energy saving of each energy-saving and emission-reduction project in described energy-saving and emission-reduction project list, annual CER, investment cost, investment payback time, net present value (NPV) 5 indexs; As shown in table 1 below;
Table 1 energy-saving low-carbon item candidates table
Step S130: obtain the energy-saving index amount of described enterprise and reduce discharging index amount.
Step S140: with the investment cost of the energy-saving and emission-reduction project of described energy-saving and emission-reduction project list, investment payback time, net present value (NPV), annual CER, annual amount of energy saving for objective function, with the annual amount of energy saving of described enterprise and annual CER index for constraint condition, set up Multiobjective programming models, filter out the energy-saving and emission-reduction project satisfied condition.
Particularly, described step S140 specifically comprises following sub-step:
Step S141: the screening order confirming investment cost, investment payback time, net present value (NPV), annual CER, annual amount of energy saving 5 indexs;
Particularly, enterprise is according to the screening order of self management state and actual needs determination objective function, and concrete screening order can just like under type:
1) investment cost, investment payback time, net present value (NPV), annual CER, annual amount of energy saving;
2) investment cost, investment payback time, net present value (NPV), annual amount of energy saving, annual CER;
3) investment cost, net present value (NPV), investment payback time, annual CER, annual amount of energy saving;
4) investment cost, net present value (NPV), investment payback time, annual amount of energy saving, annual CER;
5) investment payback time, investment cost, net present value (NPV), annual CER, annual amount of energy saving;
6) investment payback time, investment cost, net present value (NPV), annual amount of energy saving, annual CER;
7) investment payback time, net present value (NPV), investment cost, annual CER, annual amount of energy saving;
8) investment payback time, net present value (NPV), investment cost, annual amount of energy saving, annual CER;
9) net present value (NPV), investment cost, investment payback time, annual CER, annual amount of energy saving;
10) net present value (NPV), investment cost, investment payback time, annual amount of energy saving, annual CER;
11) net present value (NPV), investment payback time, investment cost, annual CER, annual amount of energy saving;
12) net present value (NPV), investment payback time, investment cost, annual amount of energy saving, annual CER;
Wherein, investment cost, investment payback time, net present value (NPV) are override screening objective function is G, and annual amount of energy saving and annual CER are second priority screening objective function is J;
Step S142: under guarantee amount of energy saving and CER meet the prerequisite of performance assessment criteria, selects to meet override screening objective function G
fristthe energy-saving and emission-reduction project of condition forms target inventory (x
11, x
21... x
n1), model is as follows:
Step S143: be alternative inventory with the target inventory described in step S142, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meets objective function G simultaneously
fristprerequisite under, select to meet the second override screening objective function G
secondthe energy-saving and emission-reduction project of condition forms target inventory (x
12, x
22... x
n2), model is as follows:
Step S144: be alternative inventory with the target inventory described in step S143, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meets objective function G simultaneously
frist, G
secondprerequisite under, select to meet the 3rd override screening objective function G
thirdenergy-saving and emission-reduction project form target inventory (x
13, x
23... x
n3), model is as follows:
Step S145 is alternative inventory with the target inventory described in step S144, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meets objective function G simultaneously
frist, G
second, G
thirdprerequisite under, select to meet first time preferential screening target J
fristenergy-saving and emission-reduction project form target inventory (x
14, x
24... x
n4), model is as follows:
Step S146: be alternative inventory with the target inventory described in step S145, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meets objective function G simultaneously
frist, G
second, G
third, J
fristprerequisite under, select to meet second time preferential screening target J
secondenergy-saving and emission-reduction project form target inventory (x
15, x
25... x
n5), model is as follows:
Step S147: with the target inventory (x described in step S146
15, x
25... x
n5) be the energy-saving and emission-reduction project finally chosen, and form enterprise's low-carbon (LC) solution.
Below in conjunction with instantiation in detail the present invention is described in detail.
The screening priority of this example determination objective function is investment cost, investment payback time, net present value (NPV), annual CER, annual amount of energy saving.Concrete implementation step is as follows:
1) under guarantee amount of energy saving and CER meet the prerequisite of performance assessment criteria, the energy-saving and emission-reduction project of investment cost minimum (selecting the min in formula) is selected to form target inventory (x
11, x
21... x
n1), model is as follows:
2) with 1) described in target inventory be alternative inventory, under guaranteeing that amount of energy saving and CER meet the prerequisite of performance assessment criteria, investment cost minimum (selecting the min in formula), the energy-saving and emission-reduction project selecting the investment payback time the shortest forms target inventory (x
12, x
22... x
n2), model is as follows:
3) with 2) described in target inventory be alternative inventory, under guaranteeing that amount of energy saving and CER meet performance assessment criteria, investment cost is minimum, the investment payback time time limit is the shortest prerequisite, the energy-saving and emission-reduction project of net present value (NPV) maximum (selecting the max in formula) is selected to form target inventory (x
13, x
23... x
n3), model is as follows:
4) with 3) described in target inventory be alternative inventory, under guaranteeing that amount of energy saving and CER meet performance assessment criteria, investment cost is minimum, the investment payback time time limit is the shortest, net present value (NPV) is maximum prerequisite, the energy-saving and emission-reduction project of annual CER maximum (selecting the max in formula) is selected to form target inventory (x
14, x
24... x
n4), model is as follows:
5) with 4) described in target inventory be alternative inventory, under guaranteeing that amount of energy saving and CER meet performance assessment criteria, investment cost is minimum, the investment payback time time limit is the shortest, net present value (NPV) is maximum, annual CER is maximum prerequisite, the energy-saving and emission-reduction project of annual amount of energy saving maximum (selecting the max in formula) is selected to form target inventory (x
15, x
25... x
n5), model is as follows:
6) with 5) described in target inventory be the energy-saving and emission-reduction project finally chosen, and form enterprise's low-carbon (LC) solution.
The screening technique of this energy-saving and emission-reduction project is by carrying out the screening of investment cost, investment payback time, net present value (NPV), annual CER, annual amount of energy saving 5 indexs to project list, determine target inventory, determine the energy-saving and emission-reduction project of enterprise, solve and can supply in numerous energy-saving and emission-reduction projects of enterprise implement, how according to enterprise self management state scientific and reasonable choose energy-saving and emission-reduction project, formulate the technical matters of low-carbon (LC) solution.
Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.
Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.
Claims (7)
1. a screening technique for energy-saving and emission-reduction project, is characterized in that, described screening technique comprises:
Acquisition for the energy-saving and emission-reduction project of enterprise implement, can form energy-saving and emission-reduction project list;
Adjust the annual amount of energy saving of each energy-saving and emission-reduction project in described energy-saving and emission-reduction project list, annual CER, investment cost, investment payback time, net present value (NPV) 5 indexs;
Obtain the energy-saving index amount of described enterprise and reduce discharging index amount;
With described 5 indexs of the energy-saving and emission-reduction project of described energy-saving and emission-reduction project list for objective function, with the annual amount of energy saving of described enterprise and annual CER index for constraint condition, set up Multiobjective programming models, filter out the energy-saving and emission-reduction project satisfied condition.
2. screening technique as claimed in claim 1, it is characterized in that, described with described 5 indexs of the energy-saving and emission-reduction project of described energy-saving and emission-reduction project list for objective function, with the annual amount of energy saving of described enterprise and annual CER index for constraint condition, set up Multiobjective programming models, filter out the energy-saving and emission-reduction project satisfied condition, specifically comprise:
Enterprise determines the screening order of described 5 indexs according to self management state and actual needs, wherein, described investment cost, described investment payback time, described net present value (NPV) are override screening objective function is G, and described annual amount of energy saving and described annual CER are second priority screening objective function is J;
Under guarantee amount of energy saving and CER meet the prerequisite of performance assessment criteria, select to meet the first override screening objective function G
fristthe energy-saving and emission-reduction project of condition forms first object inventory (x
11, x
21... x
n1);
In described first object inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
fristprerequisite under, select to meet the second override screening objective function G
secondthe energy-saving and emission-reduction project of condition forms the second target inventory (x
12, x
22... x
n2);
In described second target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
secondprerequisite under, select to meet the 3rd override screening objective function G
thirdenergy-saving and emission-reduction project formed the 3rd target inventory (x
13, x
23... x
n3);
In described 3rd target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
second, G
thirdprerequisite under, select to meet first time preferential screening target I
fristenergy-saving and emission-reduction project formed the 4th target inventory (x
14, x
24... x
n4);
In described 4th target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meet objective function G simultaneously
frist, G
second, G
third, I
fristprerequisite under, select to meet second time preferential screening target I
secondenergy-saving and emission-reduction project formed the 5th target inventory (x
15, x
25... x
n5);
Confirm that the project in described 5th target inventory is the energy-saving and emission-reduction project finally chosen.
3. screening technique as claimed in claim 2, is characterized in that, described under guarantee amount of energy saving and CER meet the prerequisite of performance assessment criteria, selects to meet the first override screening objective function G
fristthe energy-saving and emission-reduction project of condition forms first object inventory (x
11, x
21... x
n1), especially by following model realization:
4. screening technique as claimed in claim 2, is characterized in that, described in described first object inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meets objective function G simultaneously
fristprerequisite under, select to meet the second override screening objective function G
secondthe energy-saving and emission-reduction project of condition forms the second target inventory (x
12, x
22... x
n2), especially by following model realization:
5. screening technique as claimed in claim 2, is characterized in that, described in described second target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meets objective function G simultaneously
frist, G
secondprerequisite under, select to meet the 3rd override screening objective function G
thirdenergy-saving and emission-reduction project formed the 3rd target inventory (x
13, x
23... x
n3), especially by following model realization:
6. screening technique as claimed in claim 2, is characterized in that, in described 3rd target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meeting objective function G simultaneously
frist, G
second, G
thirdprerequisite under, select to meet first time preferential screening target I
fristenergy-saving and emission-reduction project formed the 4th target inventory (x
14, x
24... x
n4), especially by following model realization:
7. screening technique as claimed in claim 2, is characterized in that, in described 4th target inventory, guaranteeing that amount of energy saving and CER meet performance assessment criteria, meeting objective function G simultaneously
frist, G
second, G
third, I
fristprerequisite under, select to meet second time preferential screening target I
secondenergy-saving and emission-reduction project formed the 5th target inventory (x
15, x
25... x
n5), especially by following model realization:
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106557880A (en) * | 2016-11-28 | 2017-04-05 | 新奥泛能网络科技股份有限公司 | A kind of production capacity mode appraisal procedure and system |
CN109636178A (en) * | 2018-12-10 | 2019-04-16 | 南方电网能源发展研究院有限责任公司 | Screening technique, device, computer equipment and the storage medium of Power Project |
-
2015
- 2015-10-27 CN CN201510705717.0A patent/CN105303368A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106557880A (en) * | 2016-11-28 | 2017-04-05 | 新奥泛能网络科技股份有限公司 | A kind of production capacity mode appraisal procedure and system |
WO2018095410A1 (en) * | 2016-11-28 | 2018-05-31 | 新奥泛能网络科技股份有限公司 | Capacity mode assessment method and system |
CN109636178A (en) * | 2018-12-10 | 2019-04-16 | 南方电网能源发展研究院有限责任公司 | Screening technique, device, computer equipment and the storage medium of Power Project |
CN109636178B (en) * | 2018-12-10 | 2021-08-31 | 南方电网能源发展研究院有限责任公司 | Electric power item screening method and device, computer equipment and storage medium |
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