JP2002259508A - Energy monitoring system - Google Patents

Abstract

An object of the present invention is to provide an energy monitoring system capable of quickly grasping an energy use situation and an improvement method and realizing more efficient energy saving. More specifically, the present invention relates to an energy monitoring system for monitoring the energy consumption of electric power, gas and fuel oil used in a building or a factory. Or arbitrarily set the operating conditions of the set temperature in the factory, means for simulating the data of the energy consumption in a pseudo manner,
Display means for comparing and displaying the simulation result and the usage amount obtained from the actual data together with at least one operating condition of the operation schedule and the load factor of the target device; and calculating a difference between the simulation data and the actual data. Calculation means for performing the calculation.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a novel energy monitoring system for equipment that consumes energy such as electricity, gas, water and petroleum.

[0002]

2. Description of the Related Art As shown in FIGS. 2 and 3 described below, a conventional energy-saving operation analysis method in an energy monitoring system calculates an effect by comparing it with past performance data. If they differ, it was difficult to compare the quantitative effects, making it very difficult to judge the merit of investment. Also, it takes time to calculate the energy saving effect,
The timing of investment tended to be postponed.

[0003] Japanese Patent Application Laid-Open No. 11-328152 discloses an energy saving method using a difference calculation formula based on a difference between a simulated operation and an actual operation performed in parallel with an actual operation in obtaining a cost difference when energy saving means is not applied / applied. It shows that the cost reduction effect when the means is applied is obtained with high accuracy.

[0004]

[Problems to be Solved by the Invention] With the growing interest in global environmental issues, in order to suppress future growth in energy demand, the "Revised Energy Conservation Law" and the "Law Concerning the Prevention of Global Warming" Was enforced. Against this background, there has been a growing need to quickly understand energy usage and how to improve it, but conventional energy monitoring systems have no choice but to calculate effects by comparing past performance data. In addition, it was very difficult to judge the merit of investment because it was not possible to compare quantitative effects due to different operating conditions and weather conditions. Also,
It took time to calculate the energy-saving effect, and the timing of investment tended to be postponed.

The above-mentioned publication does not disclose the relationship between the simulation using the energy consumption under specific conditions as an index and the actual energy consumption.

An object of the present invention is to provide an energy monitoring system capable of promptly grasping the state of use of energy and an improvement method, and realizing more efficient energy saving.

[0007]

Means for Solving the Problems The present invention, as a function of the energy saving of the simulation, to be able to set the specific operational parameters of the device, using the actual process data, in parallel with the actual energy usage monitoring real-time By enabling simulations, it is possible to quickly grasp energy usage, improvement methods, and effect predictions when improvements are made, and to use dynamic feedback control that uses the simulation results as they are as parameters for control. By doing so, more efficient energy saving can be realized.

According to the present invention, in an energy monitoring system for monitoring energy used in a building or a factory, operating conditions such as an operation time, a load factor, a set rotation speed and a set temperature of a target device are arbitrarily set, and the system is simulated. It has a simulation function that can process data, and uses real collected data as an input of the simulation function, and obtains a simulation result in parallel with the real data in real time.

Further, the present invention provides an energy monitoring system for monitoring at least one energy consumption of electric power, gas and fuel oil used in a building or a factory, etc. Means for collecting, processing, and displaying the actual process data, and a simulation means for obtaining a result obtained by artificially changing the operating conditions of the actual process data by setting the parameters of the energy consumption and the operation time of the target device. And the data of the simulation result are displayed simultaneously.

Further, in the present invention, an effect based on a difference between the actual data and the simulation result is calculated, and the effect can be converted into a monetary value to be used for investment judgment. Further, by confirming the difference between the actual data and the simulation result and reflecting arbitrarily set conditions as feedback data in the control of the actual machine (for example, power demand control), better operation can be realized.

The energy monitoring system of the present invention has an energy sensor, energy use data processing means, data communication means, energy monitoring means, real-time simulation means and the like.

More specifically, the present invention relates to an energy monitoring system for monitoring the energy consumption of electric power, gas and fuel oil used in a building or a factory, in which the operation schedule and load factor of the target equipment and the building or factory are used. A means for arbitrarily setting operating conditions of a set temperature in a factory, and simulating the data of the energy consumption in a pseudo manner,
The simulation results, display means and said usage obtained by actual data comparing displayed with at least one operating condition of the operation schedule and the load factor of the target device, calculating a difference between the simulated data and actual data Calculation means for performing the calculation.

Further, the present invention provides an energy monitoring system for monitoring the electric power consumption of a motor used in a building or a factory. Means for simulating the amount of data, display means for comparing and displaying the simulation result and the used amount obtained by the actual data of the target device together with the operation schedule,
Calculating means for calculating a difference between the simulation data and the actual data.

Further, the present invention relates to an energy monitoring system for monitoring the electric power consumption of an air conditioner used in a building or a factory, wherein a product production schedule in the building or the factory and a set temperature in the building or the factory are set. Means for arbitrarily setting conditions and simulating the use amount data in a pseudo manner; display means for comparing and displaying the simulation result and the use amount obtained from actual data together with the production schedule; and A calculating means for calculating a difference between the data and the actual data.

Further, in any of the energy monitoring systems according to the present invention, the above-mentioned difference result is confirmed, and a condition set arbitrarily based on the result is controlled as a feedback signal which can be arbitrarily reflected on the actual device. Means.

According to the present invention, a remarkable effect can be obtained in which the situation of energy use and the method of improvement can be quickly grasped, and more efficient energy saving can be realized. Further, the following effects are expected. 1) The comparison between the current energy use situation and the real-time simulation result can be confirmed in a graph display. 2) It is possible to accurately grasp the current energy use situation and the effects of the real-time simulation results in a short period of time. 3) Quickly grasp the current energy usage situation and improvement methods. 4) It can provide quick judgment on the merits of energy saving investment. 5) By using a real-time simulation result as a feedback signal that arbitrarily reflects on a real machine,
It is possible to operate the system with less waste that the operation of the system is optimized.

[0017]

(Embodiment 1) FIG. 1 is a diagram for explaining a system configuration of an energy saving analysis system in an energy monitoring system of the present invention. Client P
C1, data processing server PC2, master PLC3, PI
I / O unit 4 and LAN transceiver 5.
The power data of the equipment, the operation / stop state of the operation equipment, the temperature data, and the like are periodically collected from the master PLC 3 via the PI / O unit 4, and the data is collected by the data processing server PC2. Below DB
Has a function of performing management and simulation.
The client PC1 is a terminal for operating the data processing server PC2, and has a function of performing normal energy monitoring, setting simulation parameters, and the like.

In this embodiment, when monitoring the amount of energy used in a building or a factory, the operating conditions such as the operation schedule time, the load factor, the set number of revolutions, and the set temperature of the target device are set arbitrarily, In addition to simulating the energy consumption, the simulation result and the energy consumption obtained from the actual data are compared and displayed simultaneously with the operation conditions of the target device, the load factor, the set rotation speed, and the operating condition of the set temperature. .

When monitoring at least one of electric power, gas and fuel oil used in a building or a factory,
Arbitrarily set the energy usage and the operation schedule of the target device, and have means for simulating their usage in a simulated manner, and means for displaying actual data on the energy usage and the operation schedule of the target device,
Simulation data and real data can be compared and displayed simultaneously.

Further, in this embodiment, there is provided means for calculating and displaying a difference between the simulation data and the actual process data, and means for outputting the difference in monetary value. Means for reflecting the operating conditions arbitrarily set in the actual equipment and controlling the actual equipment.

It comprises an energy sensor, energy use data processing means, data communication means, energy monitoring means, real-time simulation means and the like.

FIG. 2 is a diagram for explaining a configuration example of a conventional energy monitoring system, in equipment with air conditioning and the pump motor is a general case for performing power monitoring. The amount of power data PI / O than the power meter 7
Data is periodically collected from the master PLC 3 via the unit 4, input processing 8 is performed, and the data is temporarily stored in a PDB (plant database) 9. The data on the PDB (plant database) 9 is updated to the latest data of the process at an arbitrarily determined cycle. A part of the data on the PDB (plant database) 9 is displayed on the monitor screen 10 as real-time monitor data. Necessary data is stored from a PDB (plant database) 9 to an HDB (historical database) 11, and is stored for an arbitrary period. This HDB (historical database)
The conventional method is to analyze the data of 11 and study energy saving and the like.

(Embodiment 2) FIG. 3 is a diagram for explaining an analysis procedure example for energy saving in a conventional energy monitoring system of an air conditioner. This is a method of predicting an energy saving effect by using past collected data stored in an HDB (historical database) 11 and comparing the analysis result data with the data collected by manual processing 12. The conventional energy-saving analysis procedure is a desk-based simulation of past collected data, so that even if the conditions are slightly different, quantitative determination cannot be performed. For example, if the weather conditions are different, the cost of cooling and heating equipment will also change, so even if a simulation is performed based on past collected data, the simulation will be performed under exactly the same weather conditions as the past, so the reliability of the simulation results The nature is also low. In addition, since it takes a certain amount of time to analyze the energy saving effect, it is a problem that investment decisions for energy saving tend to be postponed.

FIG. 4 is a diagram for explaining an example of an energy saving analysis procedure in the air conditioner energy monitoring system according to the present invention. PDB and real-time data (plant database) 9, it is set and operation schedule and the rotational speed of the target device as desired by the simulation parameter setting function 13, by displaying the results of the simulation processing simultaneously predict the energy saving effect It is a method to do. By performing “dynamic simulation for real-time data”, which is a feature of the present invention, it is possible to confirm in real time the energy saving effect on parameter setting. Further, instead of the simulation on the desk for past collected data, since no would condition changes, reliable simulation results.

The present embodiment is an energy monitoring system for monitoring the power consumption of an air conditioner used in a building or a factory. In the energy monitoring system, a product production schedule in the building or the factory and a condition of a set temperature in the building or the factory are arbitrarily set. Set to
A means for simulating the power consumption data in a simulated manner, a display means for comparing and displaying the simulation result and the power consumption obtained from the actual data together with the production schedule, and calculating a difference between the simulation data and the actual data. Calculation means.

Also in this embodiment, there is provided means for arbitrarily reflecting the condition set arbitrarily based on the difference result in the air conditioner.

(Embodiment 3) FIG. 5 is a diagram for explaining, as an example of the energy saving analysis based on the present invention, a function in the case of a power monitoring system for a pump motor in a motor control center as an example. Pump motor is MC
When the C-drive 100% operation is performed continuously for 24 hours, the power amount data is collected from the power meter 7 via the PI / O unit 4 and periodically collected from the master PLC 3, and the input processing 8 is performed to perform real-time processing. The data is displayed as data, and the motor is stopped at night with the inverter at 85% operation.
Third, by displaying the result of the simulation processing together with the previous real-time data as simulation data, the energy saving effect can be grasped in real time.

In this embodiment, in an energy monitoring system for monitoring the power consumption of a motor used in a building or a factory, a set rotation speed and an operation schedule of each target device are arbitrarily set, and a pseudo power consumption is set. Means for simulating the data, display means for comparing and displaying the simulation result and the power consumption obtained by the actual data of the target device together with the operation schedule, and calculating means for calculating the difference between the simulation data and the actual data And

Also in this embodiment, there is provided a control means for feeding back and controlling a condition arbitrarily set based on the difference result to each target device.

FIG. 6 is a diagram for explaining a calculation procedure of a simulation result of the energy saving analysis function described in FIG. The result of the input processing of the power consumption of the motor is performed simultaneously with the integration calculation processing of the actual data and the integration processing of the simulation data using the parameters, and the results are simultaneously displayed, whereby the energy saving effect can be grasped in real time.

FIG. 7 is a display example of the result of the simulation described with reference to FIG. If the integrated value of the performance data and the integrated value of the simulation data are displayed, the difference is expressed as an energy saving effect.

According to the present embodiment, a remarkable effect is obtained in which the energy use situation and the improvement method can be quickly grasped, and more efficient energy saving can be realized. Further, the following effects are expected from the present embodiment. 1) The comparison between the current energy use situation and the real-time simulation result can be confirmed in a graph display. 2) It is possible to accurately grasp the current energy use situation and the effects of the real-time simulation results in a short period of time. 3) Quickly grasp the current energy usage situation and improvement methods. 4) It can provide quick judgment on the merits of energy saving investment. 5) By checking the real-time simulation results and arbitrarily reflecting the conditions set arbitrarily on the actual equipment,
Less wasteful system operation is possible.

[0033]

According to the present invention, a remarkable effect can be obtained in which the situation of energy use and the method of improvement can be quickly grasped, and more efficient energy saving can be realized.

[Brief description of the drawings]

FIG. 1 is a system diagram showing a configuration of an energy monitoring system of the present invention.

FIG. 2 is a system diagram showing a configuration of a conventional energy monitoring system.

FIG. 3 is a system diagram showing a conventional energy saving analysis procedure.

FIG. 4 is a system diagram showing an energy saving analysis procedure based on the present invention.

FIG. 5 is a system diagram showing functions of a power monitoring system according to the present invention.

FIG. 6 is a system diagram showing a procedure for calculating a simulation result of the power monitoring system function example.

FIG. 7 is a diagram showing a simulation result of a power monitoring system function example.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Client PC (personal computer), 2 ... Data processing server PC (personal computer), 3 ... Master PLC (programmable controller), 4 ... PI / O unit (process input / output), 5 ... LAN transceiver (local area network) , 6 ... circuit breaker, 7 ... power meter, 8 ... input processing, 9 ... PDB (plant database), 10 ... screen display, 11 ... HDB (historical database), 12 ... manual data processing, 13 ...
Simulation parameter settings.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tamaki Morita 5-2-1 Omikacho, Hitachi City, Ibaraki Prefecture Inside Hitachi Process Computer Engineering Co., Ltd. (72) Inventor Kimio Kono 5, Omikamachi, Hitachi City, Ibaraki Prefecture No. 1 Hitachi Process Computer Engineering Co., Ltd. (72) Inventor Takayuki Nakayama 5-2-1 Omikamachi, Hitachi City, Ibaraki Prefecture Information Control System Division, Hitachi, Ltd.

Claims (7)

[Claims] 1. An energy monitoring system for monitoring the energy consumption of electric power, gas and fuel oil used in a building or factory, the operation schedule of the target equipment, the load factor, and the operating conditions of the set temperature in the building or factory. Arbitrarily set, means for simulating the data of the energy consumption in a pseudo manner, the simulation result,
Display means for comparing and displaying the usage amount obtained by actual data together with at least one operating condition of an operation schedule and a load factor of the target device; and calculating means for calculating a difference between the simulation data and the actual data. An energy monitoring system comprising: 2. An energy monitoring system for monitoring a power consumption of a motor used in a building or a factory, wherein a set rotation speed and an operation schedule of each target device are arbitrarily set, and the data of the usage is simulated. Means for simulating, display means for comparing and displaying the simulation result and the usage amount obtained by the real data of the target device together with the operation schedule, and calculating means for calculating a difference between the simulation data and the real data An energy monitoring system comprising: 3. An energy monitoring system for monitoring the power consumption of an air conditioner used in a building or a factory, wherein a product production schedule in the building or the factory and a condition of a set temperature in the building or the factory are arbitrarily set. Means for setting and simulating the use amount data in a simulated manner, display means for comparing and displaying the simulation result and the use amount obtained from the actual data together with the production schedule, and the simulation data and the actual data And a calculating means for calculating a difference from the energy monitoring system. 4. An energy monitoring system for monitoring the energy consumption of electric power, gas and fuel oil used in a building or a factory, wherein an operation schedule of an object device, a load factor, and an operating condition of a set temperature in the building or the factory. Arbitrarily set, means for simulating the data of the energy consumption in a pseudo manner, the simulation result,
Display means for comparing and displaying the usage amount obtained by the actual data together with at least one operating condition of the operation schedule and the load factor of the target device; calculating means for calculating a difference between the simulation data and the actual data; Control means for controlling a condition arbitrarily set based on the difference result by feeding back the condition to the actual device. 5. An energy monitoring system for monitoring a power consumption of a motor used in a building or a factory, wherein a set rotation speed and an operation schedule of each target device are arbitrarily set, and data of the usage is simulated. Means for simulating, display means for comparing and displaying the simulation result and the usage amount obtained by the real data of the target device together with the operation schedule, and calculating means for calculating a difference between the simulation data and the real data Control means for feeding back and controlling conditions arbitrarily set based on the difference result to the actual device. 6. An energy monitoring system for monitoring the power consumption of an air conditioner used in a building or a factory, wherein a production schedule of a product in the building or the factory and a condition of a set temperature in the building or the factory are arbitrarily set. Means for setting and simulating the use amount data in a simulated manner, display means for comparing and displaying the simulation result and the use amount obtained from the actual data together with the production schedule, and the simulation data and the actual data An energy monitoring system comprising: calculation means for calculating a difference between the actual equipment; and control means for feeding back and controlling conditions arbitrarily set based on the difference result to the actual device. 7. The method according to claim 1, wherein a difference between the simulation data and the actual data is calculated.
An energy monitoring system comprising: means for displaying; and means for outputting the difference in monetary terms.