JP2003006288A - Energy saving effect display screen distribution system and distribution method - Google Patents

Abstract

(57) [Summary] An object of the present invention is to provide a data information distribution business model of an energy saving screen from operation information of a motor of a plant. The present invention relates to an inverter for driving an electric motor in a plant, a control device inside the inverter, a monitoring device connected to the control device via a network, and an information provider connected to the monitoring device via a network such as the Internet. And an operation database connected to the information processing device. According to the present invention,
By obtaining customer driving information via the network,
By performing the energy saving calculation and distributing it as energy saving screen data, there is an effect that it is possible to establish a business that obtains compensation.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to information distribution when an electric motor is driven by an inverter in an industrial plant, a thermal power plant or the like.

[0002]

2. Description of the Related Art Conventionally, as a method of obtaining and expressing an energy saving amount, there is a method of comparing past operation data with present operation data and calculating them by a monitoring device.

The Ebara Bulletin No. 184, 58p-6
5p, 1999-7 describes a pump energy saving diagnostic system.

[0004]

The conventional technique for obtaining the energy saving amount described above is difficult to compare under the same conditions because it is compared with past data, and since it is independent inside the monitoring device, it is necessary to correct the database. The drawback is that it takes time. In addition, the energy-saving diagnosis system for pumps is described as an energy-saving diagnosis tool, and its application is not considered.

An object of the present invention is to provide a customer with an energy saving effect by operating an inverter of a customer facility driven by a pump.

[0006]

[Means for Solving the Problems] The above object is to provide the information processing device of the information provider with the operation information of the customer equipment and the design specification information of the customer equipment necessary for comparison between the case of driving the inverter and the case of driving with a commercial power source. This can be realized by inputting, calculating the difference in energy consumption due to the difference in operating state with the information processing device, and providing the calculated energy saving information to the customer terminal.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below.

FIG. 1 shows an information provider 1 as an example of the present invention, which has an information processing device 2 and a database operation DB 3 which stores operation information of customers. There are a plurality of customers, and here, customer A and customer B will be described as an example. Customer A is an industrial plant or a thermal power plant having a plurality of electric motors 4. The electric motor 4 is driven at a variable speed by an inverter 5. The inverter 5 has a control device 6, and a plurality of control devices 6 are connected to a network 9 so that operation information 7 of the inverter 5 can be loaded. The operation information 7 of the inverter 5 includes information on the operation / stop of the electric motor 4, current and voltage information when the electric motor 4 is operating, information on the number of revolutions of the electric motor 4, and the like.

The system of the customer A has a monitoring device 8 for comprehensively monitoring these operation information, and the monitoring device 8 is also connected to the network 9. Customer A's plant information 13 exists in the monitoring device 8. The plant information 13 includes: an inlet damper opening degree of the fan 11 driven by the electric motor 4; an outlet valve opening degree of the pump 12 driven by the electric motor 4;

Customer B has the same system configuration.

The monitoring devices 8 are connected to the Internet 10, respectively, and the information processing device 2 is also connected to the Internet 10. Therefore, the monitoring device 8 and the information processing device 2 can exchange information. The information provider 1 receives the operation information 7 and the plant information 13 from the monitoring device 8 for each customer and operates the operation DB 3
Carry out an operation simulation using to create an energy saving screen. This method will be described below. FIG. 2 shows a data processing flow when the fan is driven by the inverter. As the plant information 13 and the operation information 7 in the input information processing 14, consider a damper opening; x (%), a rotation speed; N (%), a current value; I (A), and a current / voltage waveform. The operating point in this case, where the operating point curve X on the characteristic curve of the fan is obtained by the inverter operating point calculation processing 15 based on these pieces of information, is α. FIG. 3 shows an example of the fan characteristic curve. The operating point α is the horizontal axis Q
(m ³ ), the vertical axis pressure P (Pa) is expressed by the intersection of the fan rotation speed and the resistance curve when graphed. In the case of the figure, it is the intersection of the resistance curve and the rotation speed N = 70%. The resistance curve is a database in the operation DB 3, and is determined in advance by the damper opening x (%). Therefore, the rotation speed N
When (%) is determined, the operating point curve X is uniquely determined.

Here, the operating point is a point on the resistance curve when operating at a certain flow rate by the flow rate control by adjusting the valve opening degree and adjusting the fan rotation speed.

On the other hand, the operation DB 3 has a resistance curve in which the parameter is the damper opening x (%). Therefore, the operating point curve Y at N = 100 (%) can be obtained from the operating point α and the rotation speed N (%), and the damper opening x (%) at this time (60% in the case of FIG. 3). ) Can be simulated. This is executed in the full speed operating point calculation processing 16 in FIG.

On the other hand, a power curve corresponding to the operating point curve X can be similarly obtained. The operation DB 3 has a database in which the vertical axis power is W (kW) and the horizontal axis is air volume Q (m ³ ). Energy consumption operating point calculation process 17 shown in FIG.
Thus, the operating point X'on the power curve 21 is obtained. It is uniquely obtained from the database of damper opening x = 100 (%). Furthermore, the operating point curve Y on the power curve 22
Y'corresponding to can be simulated. The electric power curve 22 is data when the damper opening x = 60%, and is similarly uniquely obtained.

The data such as the operating point curve, the resistance curve, the electric power curve, and the like are information on the design specifications of equipment such as fans and pumps and the inverter. These are stored in the operation DB 3 in advance.

In the above example, operating information is obtained for the operating point curve X state, that is, N = 70% and x = 100%, and the operating point curve Y state, that is, N = 100.
%, X = 60%, but the reverse is also possible.

After obtaining the operating points X'and Y'from the above,
The reduction amount of the electric power at the operating points X ′ and Y ′ is calculated by the energy saving amount calculation process 18. That is, ΔW = Wy−Wx.

Wy is the electric power at the operating point Y ' Wx is the power at operating point X ' Indicates.

A current curve or a current-voltage waveform, which is the operation information of the inverter, is transmitted from a customer's monitoring device, received by an information provider's information processing device, and power consumption is calculated using the information curve to obtain a power curve. The consumed energy operating point calculation process 17 to be used can be replaced.

Based on the above, the energy saving screen creation processing 19 creates an energy saving screen and energy saving data. An example of the energy saving screen is shown in FIG. In addition to the characteristic curve showing the energy saving amount (electric power) ΔW, the electric energy (kWh) which is the product of the electric power and the operating time, and
Crude oil equivalent (kl / h) and C that can be calculated from this
The amount of O ₂ reduction (kg-c / h) is displayed.

Regarding the electric power amount (kWh), information is received in real time from the plant equipment that is actually operating, and the effective electric power saving amount is calculated in consideration of the fluctuation of the operating point.

In this way, the monitoring device possessed by the customer who is the contractor connected by the Internet collects information on the operation of the inverter, transmits the operation information to the information management device possessed by the information provider, and the information provider The information processing device possessed by collects driving information from a plurality of customers, simulates the amount of energy saving from its operating point, and at the same time, distributes screen data to the customers and periodically obtains a consideration for information distribution from the plurality of customers. A contract becomes possible.

In FIG. 5, the energy saving amount calculation process 1
In order to calculate the crude oil conversion amount and the CO ₂ reduction amount from the power saving amount obtained in step 8, the conversion coefficient and the conversion formula are stored in advance in the operation DB 3. For these conversion factors and conversion formulas, generally known conversion amounts may be used, but a comprehensive conversion formula based on the operation of customer facilities involved in the inverter operation may be used. It can be said that this comprehensive conversion formula is a conversion formula specific to the equipment.

If the customer sends operation information or plant information that is relatively easy to measure, the information provider stores the design specification information and the unique conversion formula in the operation DB 3 in advance to perform the energy saving calculation process. Information can be provided more quickly and easily than information provided by history.

The calculated power saving amount may be provided to the customer by calculating the cost saving in consideration of the power charge at that time, or the crude oil conversion amount calculated from the power saving amount may be used as the crude oil charge at that time. The cost saving may be calculated in consideration of the cost. Since such electricity and crude oil prices are market information and fluctuate, the charges when the customer is using the equipment, the charges when the customer buys, etc. are not the charges when calculated from the power saving amount. May be taken into consideration in the calculation.

The process shown in FIG. 2 is periodically executed. FIG. 4 shows a flow of periodic processing. Input information is transmitted from the customer system to the information processing provider at a constant cycle T0, and as a result, screen data is distributed from the information provider. This process is executed serially for each customer, and in the example in the figure, the customer B is executed after the customer A. By delivering via the Internet, services can be provided without limiting the target audience.

FIG. 6 shows a business flow. Contract between the customer and the information provider to provide driving information and energy-saving screen data distribution. Contract types include: -Charge for each screen data-Charge for a fixed period. After the contract is signed, the customer transmits information based on the contract, and the information provider distributes the data. As a result, the customer pays the price according to the contract content. The price of information providers increases due to contracts with multiple customers.

Although the customer has the inverter as shown in FIG. 1, the energy saving effect can be provided even if the customer does not have the inverter.

The information processing apparatus 2 of the information provider provides the customer with the plant information about the equipment which is considering to install the inverter.
Send to. The information provider has a driving information DB that includes the design specifications of the inverters and the customer's equipment that the customer is considering introducing in advance.
Enter in 3. The information processing apparatus 2 creates the energy saving amount and the energy saving screen by inputting the plant information transmitted by the customer and the design specification information input in the operation DB 3,
Send to customer's monitoring device. This makes it possible to appeal the energy-saving effect to customers who are considering installing an inverter.

[0030]

As described above, according to the present invention, it is possible to establish a business for obtaining a price by obtaining energy saving calculation by obtaining driving information of a customer through a network and distributing it as energy saving screen data. There is an effect. It also proposes to effectively monitor the energy saving value in real time.

[Brief description of drawings]

FIG. 1 is a basic configuration diagram of the present invention.

FIG. 2 is a data processing flow chart.

FIG. 3 is a fan characteristic curve.

FIG. 4 is a flowchart of periodic processing.

FIG. 5 shows an example of an energy saving screen.

[Figure 6] Business flow.

[Explanation of symbols]

1 ... Information provider, 2 ... Information processing device, 3 ... Driving DB, 4
... electric motor, 5 ... inverter, 6 ... control device, 7 ... operation information, 8 ... monitoring device, 9 ... network, 10 ... internet, 11 ... fan, 12 ... pump, 13 ... plant information, 14 ... input information processing, 15 Inverter operating point calculation processing, 16 ... Full speed operating point calculation processing, 17 ... Energy consumption operating point calculation processing, 18 ... Energy saving amount calculation processing, 19 ... Energy saving screen creation processing.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Masanori Kaminaga             5-2-1 Omika-cho, Hitachi City, Ibaraki Prefecture             Information Control Systems Division, Hitachi, Ltd.             Within F-term (reference) 5H007 AA05 DA04 DB01

Claims (6)

[Claims] 1. A driven equipment driven by an electric motor, an inverter for operating the electric motor at a variable speed, plant information indicating an operating state of the driven equipment, and inverter operation information indicating an operating state of the inverter are received. A plant facility having a monitoring device, the monitoring device is connected via a communication network, and has an operation database in which design specification data of the driven facility and the inverter is stored in advance, and the plant information from the monitoring device. And receiving the inverter operation information, and based on the received plant information and inverter operation information and the design specification data, a power saving amount that is a difference in power consumption between the inverter operation and the commercial frequency operation of the electric motor. An energy-saving effect distribution that includes an information processing device that calculates and transmits the calculated power saving amount to the monitoring device. Belief system. 2. The energy-saving effect distribution system according to claim 1, wherein the operation database has a conversion amount for converting at least one of a crude oil amount and a CO ₂ amount corresponding to the power saving amount, Crude oil and CO based on the amount of electricity and the converted amount
_2. An energy-saving effect distribution system having the information processing device having a function of calculating at least one of the reduction amounts of ₂ and transmitting the calculated reduction amount to the monitoring device. 3. The plant equipment owned by the customer represents driven equipment driven by an electric motor, an inverter for operating the electric motor at a variable speed, plant information indicating the operating status of the driven equipment, and operating status of the inverter. An information processing device possessed by an information provider has a monitoring device for receiving inverter operation information, is connected to the monitoring device via a communication network, and stores design specification data of the driven equipment and the inverter in advance. An operation database, the information processing device receives the plant information and the inverter operation information from the monitoring device, and when the inverter of the electric motor is operating based on the received plant information and inverter operation information and the design specification data. And the power saving amount, which is the difference in power consumption during commercial frequency operation, is calculated, and the calculated power saving amount is Energy-saving effect delivery method to be sent to the serial monitoring device. 4. The energy saving effect distribution method according to claim 3, wherein the operation database has a conversion amount for converting at least one of a crude oil amount and a CO ₂ amount corresponding to the power saving amount, and the information. An energy-saving effect distribution method in which the processing device calculates a reduction amount of at least one of crude oil and CO ₂ based on the power saving amount and the converted amount, and transmits the calculated reduction amount to the monitoring device. 5. A plant facility having driven equipment driven by an electric motor and a monitoring device for receiving plant information indicating an operating state of the driven equipment; and a plant equipment connected to the monitoring device via a communication network. , Having an operation database in which design specification data of the inverter for operating the driven equipment and the electric motor at a variable speed is stored in advance, receiving the plant information from the monitoring device, and based on the received plant information and the design specification data Power consumption during commercial frequency operation of the electric motor and power consumption simulating inverter operation are calculated, a power saving amount that is a difference between the two calculated power consumptions is calculated, and the calculated power saving is performed. An energy-saving effect distribution system comprising: an information processing device having a function of transmitting a quantity to the monitoring device. 6. A plant equipment owned by a customer has a driven equipment driven by an electric motor and a monitoring device for receiving plant information indicating an operating state of the driven equipment, and an information processing equipment owned by an information provider. Is connected to the monitoring device via a communication network, and has an operation database in which design specification data of an inverter that operates the driven equipment and the electric motor at a variable speed is stored in advance, and the information processing device is connected to the monitoring device from the monitoring device. The plant information is received, the power consumption during commercial frequency operation of the electric motor and the power consumption simulating inverter operation are calculated based on the received plant information and the design specification data, and the calculated two consumptions are calculated. An energy-saving effect distribution method of calculating a power-saving amount that is a difference between power amounts and transmitting the calculated power-saving amount to the monitoring device.