JP2012027536A - Energy saving evaluation support device and energy saving evaluation support method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide necessary information when a user performs a decision making to introduce energy saving measures.SOLUTION: This energy saving evaluation support device includes: building information input means 11 receiving an input of information related to a building; building facilities information input means 12 receiving an input of information related to facilities of the building; energy saving measures information storage means 13 storing information related to energy saving measures implemented in the past; energy saving measures search means 14 searching energy saving measures which can be introduced into the building out of energy saving measures information based on the building information and facilities information; energy saving evaluation calculation means 15 calculating energy saving introduction effects and an energy saving introduction cost in each of the searched energy saving measures based on the building information, the facilities information and information of the respective searched energy saving measures; and energy saving evaluation display means 16 displaying the energy saving introduction effects and the energy saving introduction cost of each of the calculated energy saving measures.

Description

  The present invention relates to an energy saving evaluation support apparatus and an energy saving evaluation support method that provide a user with information necessary for making a decision to introduce an energy saving measure.

Service provision by an ESCO (Energy Service Company) business is recommended as a measure when a user introduces an energy saving measure for a building that is a target for energy saving. This ESCO business is a business that contributes to the benefit of users and the preservation of the global environment by providing comprehensive services related to energy conservation to users. The business operator receives a part of the energy saving introduction effect (merit) obtained by the user by providing the service as a reward. The service provided by the ESCO business is composed of a combination of the following services.
(1) Energy saving proposal based on energy diagnosis (2) Energy saving design and construction to realize energy saving proposal (3) Maintenance and operation management of installed equipment (4) Services related to energy supply (5) Arrangement of business funds (6) Energy saving Guarantee of introduction effect (7) Measurement and thorough verification of energy saving introduction effect (8) Improvement proposal based on measurement and verification

  By providing this ESCO business service, the user can cover the cost related to energy saving renovation by the reduction of the utility water cost, and the user can take the contract form (performance contract) including the guarantee of energy saving introduction effect. Maximize profits.

  In this ESCO business, there is disclosed an energy saving evaluation system that can estimate the effect of introducing energy saving even when it is difficult to obtain facility information of a building to be saved when performing energy diagnosis (for example, Patent Document 1). In this energy conservation evaluation system, even if it is difficult to obtain facility information, the energy consumption of the facility can be calculated based on the pre-stored information on the standard energy consumption ratio for each industry and the actual case study information of energy conservation measures. Estimating the energy saving effect by estimating.

JP 2007-108810 A

In the energy saving evaluation system disclosed in Patent Document 1, it is possible to estimate the energy saving introduction effect without investigating the facility information of the building that is the object of energy saving, and the business can provide the service. However, the energy saving introduction effect calculated by this energy saving evaluation system shows the result of the service provided by the operator to the last, and it cannot be used as a judgment material when the user makes a decision to introduce the energy saving measure. There is no problem.
That is, when a user makes a comprehensive decision from the viewpoint of QCD (quality, cost, delivery date) when making a decision to introduce an energy saving measure, the energy saving introduction provided by the energy saving evaluation system disclosed in Patent Document 1 The effect is related to Q (quality) and no other information is provided. Therefore, the user cannot make a decision for introducing an energy saving measure only by the effect of introducing the energy saving.

  The present invention has been made to solve the above-described problems. An energy-saving evaluation support apparatus and an energy-saving evaluation support method that can provide information necessary for making a decision to introduce an energy-saving measure to a user. It is intended to provide.

  The energy saving evaluation support apparatus according to the present invention includes a building information input means that receives input of information related to a building that is an object of energy saving, a building facility information input means that receives input of information related to a building facility, and energy saving performed in the past. Based on the energy saving measure information storage means for storing information on measures and the building information input via the building information input means and the facility information input via the building equipment information input means, the information is stored in the energy saving measure information storage means. Search based on energy conservation measure search means for searching for energy conservation measures that can be introduced into buildings, and information on each energy conservation measure retrieved by building information, facility information, and energy conservation measure search means. Energy saving measures for each energy conservation measure -Equipped with energy saving evaluation calculation means for calculating the introduction effect and energy saving introduction cost, and energy saving evaluation display means for displaying the energy saving introduction effect and energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculation means. .

  In addition, the energy saving evaluation support method according to the present invention includes a building information input step that receives input of information related to a building that is an object of energy saving, a building facility information input step that receives input of information related to building facilities, and a building information input step. Energy conservation measures that can be introduced into buildings from the energy conservation measure information that has been implemented in the past, stored in the energy conservation measure information storage means, based on the building information entered in step 1 and the facility information entered in the building facility information entry step Based on the information on each energy conservation measure searched in the energy conservation measure search step that searches for measures and the building information, facility information, and energy conservation measure search step, the energy saving introduction effect and energy saving introduction cost in each energy saving measure searched And energy saving evaluation calculation step of leaving, and has a energy saving evaluation display step of displaying the energy saving Benefits and energy saving installation cost of energy-saving measures calculated in energy conservation evaluation calculating step.

  According to this invention, the building information input means for receiving the input of information regarding the building that is the object of energy saving, the building facility information input means for receiving the input of information regarding the facility of the building, and the information regarding the energy saving measures implemented in the past. Energy-saving measure information storage means for storing, energy-saving measures stored in the energy-saving measure information storage means based on the building information input via the building information input means and the facility information input via the building equipment information input means Each energy-saving search based on energy-saving measure search means for searching for energy-saving measures that can be introduced into buildings from the measure information, and information on each energy-saving measure searched by building information, facility information, and energy-saving measure search means Energy saving introduction effect and energy saving through measures Energy saving evaluation calculation means for calculating the energy introduction cost and energy saving evaluation display means for displaying the energy saving introduction effect and energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculation means for the user. It is possible to provide information necessary for the decision making of energy conservation measures.

It is a block diagram which shows the structure of the energy saving evaluation assistance apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows the database memorize | stored in the energy saving measure information storage means in Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the energy saving evaluation assistance apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows the energy saving introduction effect and energy saving introduction cost in each energy saving measure in Embodiment 1 of this invention. It is a figure which shows the dependence coefficient of the energy-saving introduction effect regarding each energy-saving measure supplied to the energy-saving evaluation recalculation means in Embodiment 1 of this invention. It is a figure (after recalculation) which shows the energy saving introduction effect and energy saving introduction cost in each energy saving measure in Embodiment 1 of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of an energy saving evaluation support apparatus 1 according to Embodiment 1 of the present invention.
As shown in FIG. 1, the energy saving evaluation support apparatus 1 includes a building information input means 11, a building equipment information input means 12, an energy saving measure information storage means 13, an energy saving measure search means 14, an energy saving evaluation calculation means 15, and an energy saving evaluation display means. 16, an energy saving measure selecting means 17 and an energy saving evaluation recalculating means 18.

  The building information input unit 11 receives and stores input of information related to a building to be energy-saving by the user. This building information includes information such as the use of the building (business establishment, government building, hotel, hospital, etc.), location, total floor area, actual energy use value / standard value, and energy saving target value. The building information input via the building information input means 11 is supplied to the energy saving measure searching means 14 and the energy saving evaluation calculating means 15.

  The building facility information input unit 12 receives and stores input of information related to the current facility of the building to be energy-saving by the user. Here, building facilities include heat source / heat transfer equipment (boiler, refrigerator, auxiliary equipment, pump / fan, steam system), air conditioning / hot water equipment (air conditioning equipment, ventilation equipment, control system, hot water equipment), electricity -Lighting equipment (substation equipment, load leveling equipment, cogeneration system, lighting equipment, OA equipment, elevator, inverter equipment), etc. The facility information input via the building facility information input means 12 is supplied to the energy saving measure searching means 14 and the energy saving evaluation calculating means 15.

The energy saving measure information storage means 13 stores information related to energy saving measures implemented in the past in a database.
As shown in FIG. 2, the energy saving measure information storage means 13 stores the energy saving measure information including the classification of the energy saving measures implemented in the past, the energy saving introduction effect and the energy saving introduction cost as a database for each use of the building. ing. Here, the classification indicates whether each energy saving measure can be implemented in the current operation or whether investment is required. The energy saving introduction effect indicates the type of energy (city gas, electricity, heavy oil A, etc.), energy saving efficiency (%) and reduction amount (yen / year) in each energy saving measure. In addition, the energy saving introduction cost indicates the equipment cost (yen), the construction cost (yen), and the total amount (yen) required to execute each energy saving measure.
In addition to the above, the information related to the energy saving measures stored in the energy saving measure information storage means 13 indicates the dependency relationship between the energy saving effect and the energy saving cost regarding each energy saving measure when a plurality of energy saving measures are simultaneously introduced. Dependency coefficients are also included.
This database is updated each time new information is supplied.
The database stored in the energy saving measure information storage means 13 is extracted by the energy saving measure search means 14 and the energy saving evaluation recalculation means 18.

  The energy saving measure search means 14 is stored in the energy saving measure information storage means 13 based on the building information input via the building information input means 11 and the facility information input via the building facility information input means 12. The database (energy measure information) is searched for energy saving measures that can be introduced into this building. Information on each energy saving measure searched by the energy saving measure searching means 14 is supplied to the energy saving evaluation calculating means 15.

  The energy saving evaluation calculation means 15 is the building information input via the building information input means 11, the facility information input via the building equipment information input means 12, and information related to each energy saving measure searched by the energy saving measure search means 14. Based on the above, the energy saving introduction effect in each searched energy saving measure is calculated. Further, the energy saving evaluation calculation means 15 also calculates the energy saving introduction cost in each energy saving measure searched by the energy saving measure search means 14. Information indicating the energy saving introduction effect and the energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculating means 15 is supplied to the energy saving evaluation display means 16.

  The energy saving evaluation display means 16 displays the energy saving introduction effect and the energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculation means 15 on the monitor. The energy saving evaluation display means 16 displays the energy saving introduction effect and the energy saving introduction cost in each energy saving measure recalculated by the energy saving evaluation recalculation means 18.

  The energy saving measure selecting means 17 is for accepting selection of an energy saving measure that is a candidate for implementation by the user from among the energy saving measures searched by the energy saving measure searching means 14. Information relating to each energy saving measure selected via the energy saving measure selecting means 17 is supplied to the energy saving evaluation recalculating means 18.

The energy saving evaluation recalculation means 18 recalculates the energy saving introduction effect and the energy saving introduction cost in each selected energy saving measure in consideration of the dependency of each energy saving measure selected via the energy saving measure selection means 17. It is. Here, the energy saving evaluation recalculation means 18 is based on the energy saving introduction effect and the energy saving introduction cost dependency coefficient for each energy saving measure that can be introduced into the building supplied from the energy saving information storage means 13. Is recalculated.
The energy saving introduction cost of the energy saving introduction effect in each energy saving measure recalculated by the energy saving evaluation recalculating means 18 is supplied to the energy saving evaluation display means 16.

Next, the operation of the energy saving evaluation support apparatus 1 configured as described above will be described.
FIG. 3 is a flowchart showing the operation of the energy saving evaluation support apparatus 1 according to Embodiment 1 of the present invention.
In the operation of the energy saving evaluation support apparatus 1, as shown in FIG. 3, first, the building information input unit 11 accepts and stores input of information related to the energy saving target by the user (step ST <b> 31, building information). Input step). The building information input via the building information input means 11 is supplied to the energy saving measure searching means 14 and the energy saving evaluation calculating means 15.

  Next, the building facility information input means 12 accepts and stores input of information related to the current facility of the building to be energy-saving by the user (step ST32, building facility information input step). The facility information input via the building facility information input means 12 is supplied to the energy saving measure searching means 14 and the energy saving evaluation calculating means 15.

  Next, the energy saving measure search means 14 is stored in the energy saving measure information storage means 13 based on the building information input via the building information input means 11 and the facility information input via the building facility information input means 12. The energy saving measures that can be introduced into this building are searched from the stored database (step ST33, energy saving measure searching step). Information on each energy saving measure searched by the energy saving measure searching means 14 is supplied to the energy saving evaluation calculating means 15.

  Next, the energy saving evaluation calculation means 15 includes the building information input via the building information input means 11, the facility information input via the building equipment information input means 12, and each energy saving measure searched by the energy saving measure search means 14. Based on the information, the energy saving introduction effect and the energy saving introduction cost in each searched energy saving measure are calculated (step ST34, energy saving evaluation calculating step). Information indicating the energy saving introduction effect and the energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculating means 15 is supplied to the energy saving evaluation display means 16.

  Next, the energy saving evaluation display means 16 displays the energy saving introduction effect and the energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculation means 15 on the monitor (step ST35, energy saving evaluation display step).

  FIG. 4 is a diagram showing the energy saving introduction effect and the energy saving introduction cost in each energy saving measure according to Embodiment 1 of the present invention. The upper diagram is a table, and the lower diagram is a graph. In the example illustrated in FIG. 4, a case where energy saving 1 to energy saving 10 is searched as an energy saving measure that can be introduced into a building that is an energy saving target is shown.

The table in FIG. 4 shows the number of target systems, energy saving effect 1 (yen / year), energy saving effect 2 (t-CO ₂ / year) when each energy saving measure (energy saving 1 to energy saving 10) is independently introduced. ), Energy saving introduction cost (yen) and ROI (year) are listed. The ROI (year of investment recovery) is calculated by (energy saving introduction cost / energy saving introduction effect). Red frame In the graph of FIG. 4, the vertical axis indicates the energy saving introduction effect 1 and the horizontal axis indicates the ROI.

  Thus, by calculating the energy saving introduction effect (Q (quality)) and energy saving introduction cost (C (cost)) in each energy saving measure and providing it to the user, the user makes a decision on introducing the energy saving measure. be able to. Of the QCD (quality, cost, delivery date), which is a decision material for making decisions on introducing energy conservation measures, D (delivery date) can be omitted because it is substantially reflected in construction costs (C). Thus, the operation of the energy saving evaluation support apparatus 1 can be simplified.

  In addition, when introducing energy saving measures, it is difficult to actually test and evaluate many energy saving technologies on a trial and error basis. On the other hand, the energy saving evaluation support apparatus 1 according to Embodiment 1 searches for energy saving measures that can be introduced into a building, and calculates the energy saving introduction effect and energy saving introduction cost in each energy saving measure, thereby simplifying the user. In particular, it is possible to obtain an estimate by introducing energy conservation measures in advance. In addition, it is easy to obtain an agreement between the user and the business operator.

  In addition, as shown in Fig. 4, the energy saving introduction effect and energy saving introduction cost of each energy saving measure are displayed on the monitor together with a table and graph, so that the user can grasp the effect of introducing each energy saving measure intuitively. Can be made.

Next, the energy saving measure selection means 17 accepts selection of an energy saving measure that is an implementation candidate by the user from among the energy saving measures searched by the energy saving measure search means 14 (step ST36, energy saving measure selection step). Information relating to each energy saving measure selected via the energy saving measure selecting means 17 is supplied to the energy saving evaluation recalculating means 18.
At this time, the energy saving introduction effect and the dependency coefficient of the energy saving introduction cost regarding each energy saving measure that can be introduced into the building are supplied from the energy saving measure information storage means 13 to the energy saving evaluation recalculation means 18.

  Next, the energy saving evaluation recalculation means 18 uses each energy saving measure selected via the energy saving measure selection means 17 based on the energy saving introduction effect and the dependency coefficient of the energy saving introduction cost regarding each energy saving measure from the energy saving information storage means 13. The energy saving introduction effect and the energy saving introduction cost are recalculated (step ST37, energy saving evaluation recalculation step).

FIG. 5 is a diagram showing the dependency coefficient of the energy saving introduction effect relating to each energy saving measure supplied to the energy saving evaluation recalculating means 18 in Embodiment 1 of the present invention.
In FIG. 5, the dependency coefficient of the energy saving introduction effect regarding the energy saving measures (energy saving 1 to energy saving 10) that can be introduced into the building is shown, and the dependency coefficient related to energy saving 1, 3, 4 is extracted from these dependency coefficients. . Note that the dependency coefficient of the energy saving introduction cost is similarly configured.

Here, the dependency relationship between the energy saving introduction effect and the energy saving introduction cost when a plurality of energy saving measures are simultaneously introduced will be described.
As a specific example, it is assumed that, for example, the effects of introducing energy saving when introducing the cooling water flow rate control and the renewal of the high-efficiency refrigerator are 1 million yen / year and 5 million yen / year, respectively. On the other hand, if these are introduced at the same time, the efficiency of the refrigerator can be increased by controlling the cooling water flow rate control, so the energy-saving introduction effect due to renewal of the high-efficiency refrigerator assuming that is less than 1 million yen / year . In addition, the total value of energy saving introduction effect due to introduction of cooling water variable flow control and replacement of high efficiency refrigerator is 6 million yen / year or less.

In other words, energy conservation measures often depend on each other, and when multiple energy conservation measures are introduced at the same time, the total energy conservation effect is not the sum of the individual energy conservation measures. Below total. In addition, regarding the energy saving introduction cost, if there is a common part between the energy saving measures to be introduced, it can often be realized at a cost lower than the total cost.
The energy saving introduction cost of the energy saving introduction effect in each energy saving measure recalculated by the energy saving evaluation recalculating means 18 is supplied to the energy saving evaluation display means 16.

  Next, the energy saving evaluation display means 16 displays the energy saving introduction effect and the energy saving introduction cost in each energy saving measure recalculated by the energy saving evaluation recalculation means 18 (step ST38, energy saving evaluation redisplay step).

  FIG. 6 is a diagram (after recalculation) showing the energy saving introduction effect and the energy saving introduction cost in each energy saving measure in Embodiment 1 of the present invention, the upper diagram is shown in a table, and the lower diagram is shown in a graph It is a thing.

As shown in the table of FIG. 6, when the user selects the energy saving 1, the energy saving 3, and the energy saving 4 with a short ROI (year) to some extent and a large energy saving introduction effect (yen / year). Energy saving introduction effect, energy saving introduction cost and energy saving introduction cost are recalculated for energy saving 1, 3 and 4, the table shows the energy saving introduction effect, energy saving introduction cost and ROI selection total, Changes in the effect of each selected energy saving measure are displayed.
In the example shown in FIG. 6, it is displayed on the graph that the energy saving introduction effect and the energy saving introduction cost of energy saving 1 and energy saving 4 have changed.

  As described above, the energy saving measure is characterized in that its effect and cost change depending on the combination to be introduced as compared with the case where it is introduced individually. Therefore, for each energy saving measure selected by the user, the energy saving introduction effect and energy saving introduction cost are recalculated in consideration of the dependency of each energy saving measure, and the change is presented to the user, so that the user can easily However, it is possible to obtain an estimate by introducing each energy conservation measure in advance, and it is easy to obtain an agreement with the operator.

  In addition, as shown in FIG. 6, by recalculating the energy saving introduction effect and the energy saving introduction cost for each selected energy saving measure, it is possible to intuitively display the change in the graph on the graph. The change of the effect by each energy saving measure can be grasped.

  As described above, according to the first embodiment, the user is searched for each energy saving measure that can be introduced into the building to be saved, and the energy saving introduction effect and the energy saving introduction cost in each energy saving measure are presented. By visualizing the effects of energy saving introduction and the energy saving introduction cost, the user can make a decision to introduce energy saving measures, and support the implementation of energy saving measures that are optimal for the user and the operator. it can.

  In addition, for the combination of multiple energy saving measures, considering the dependency of each energy saving measure, by recalculating and presenting the energy saving introduction effect and energy saving introduction cost, the optimal combination of energy saving measures is It is possible to make a decision through trial and error. Thereby, implementation of the energy saving measure optimal for the user and the operator can be supported.

DESCRIPTION OF SYMBOLS 1 Energy saving evaluation support apparatus 11 Building information input means 12 Building facility information input means 13 Energy saving measure information storage means 14 Energy saving measure search means 15 Energy saving evaluation calculation means 16 Energy saving evaluation display means 17 Energy saving measure selection means 18 Energy saving measure selection means 18 Energy saving evaluation recalculation means

Claims (4)

Building information input means for accepting input of information on a building that is subject to energy saving;
Building facility information input means for receiving input of information related to the facility of the building;
Energy saving measure information storage means for storing information on energy saving measures implemented in the past;
Based on the building information input via the building information input means and the facility information input via the building equipment information input means, from among the energy saving measure information stored in the energy saving measure information storage means, An energy saving measure searching means for searching for an energy saving measure that can be introduced into the building;
An energy saving evaluation calculating means for calculating an energy saving introduction effect and an energy saving introduction cost in each searched energy saving measure based on the building information, the facility information and the information on each energy saving measure searched by the energy saving measure searching means; ,
An energy saving evaluation support device comprising: an energy saving evaluation display means for displaying an energy saving introduction effect and an energy saving introduction cost in each energy saving measure calculated by the energy saving evaluation calculating means. An energy saving measure selection means for accepting selection of an energy saving measure that is an implementation candidate from each energy saving measure searched by the energy saving measure search means;
An energy saving evaluation recalculating unit that recalculates the energy saving introduction effect and the energy saving introduction cost in each of the selected energy saving measures in consideration of the dependency relationship of each energy saving measure selected via the energy saving measure selecting means; Prepared,
2. The energy saving evaluation support apparatus according to claim 1, wherein the energy saving evaluation display means displays an energy saving introduction effect and an energy saving introduction cost in the energy saving measure recalculated by the energy saving evaluation recalculation means. A building information input step for receiving input of information related to a building to be energy-saving;
A building facility information input step for receiving input of information related to the facility of the building;
Based on the building information input in the building information input step and the facility information input in the building facility information input step, from the energy saving measure information implemented in the past stored in the energy saving measure information storage means, An energy saving measure search step for searching for an energy saving measure that can be introduced into the building;
Based on the building information, the facility information, and information on each energy saving measure searched in the energy saving measure searching step, an energy saving evaluation calculating step for calculating an energy saving introduction effect and an energy saving introduction cost in each searched energy saving measure;
An energy saving evaluation support method comprising: an energy saving evaluation display step for displaying an energy saving introduction effect and an energy saving introduction cost in the energy saving measure calculated in the energy saving evaluation calculating step. An energy saving measure selection step for accepting selection of an energy saving measure that is a candidate for implementation from among the energy saving measures searched in the energy saving measure search step;
Considering the dependency of each energy saving measure selected in the energy saving measure selection step, the energy saving evaluation recalculation step for recalculating the energy saving introduction effect and energy saving introduction cost in each selected energy saving measure;
4. The energy saving evaluation support method according to claim 3, further comprising: an energy saving evaluation redisplay step for displaying an energy saving introduction effect and energy saving introduction cost in the energy saving measure recalculated in the energy saving evaluation recalculation step.

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