JP2012068791A - Energy reduction amount display system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an energy reduction amount display system capable of displaying intelligibly an energy reduction amount.SOLUTION: An energy reduction amount display system 1 comprises a solar water heater 10, a photovoltaic power generator 20 and a home indicator panel 40. The home indicator panel 40 calculates an amount of electric power reduced by the photovoltaic power generator 20 while calculating heat quantity reduced by the solar water heater 10. Also, the home indicator panel 40 converts the amount of electric power reduced by the photovoltaic power generator 20 into heat quantity, and displays the sum of heat quantity by adding the heat quantity reduced by the solar water heater 10 and the converted heat quantity.

Description

  The present invention relates to an energy reduction amount display system.

  Conventionally, an energy supply system combining a plurality of energy supply devices such as a solar heat collector, a solar power generation device, and a fuel cell has been proposed. In this energy supply system, the generated power from the solar power generator is supplied to the residential load via the inverter, and the surplus is supplied to the power company through the switchboard. In addition, when a shortage occurs in the power generated by the solar power generation device, the shortage is compensated by a fuel cell. In addition, the heat collected by the solar heat collector is used for reforming to obtain hydrogen, and the operation efficiency of the fuel reformer is improved (see Patent Document 1).

  In addition, a display system has been proposed in which the amount of electric power and the amount of heat generated in the cogeneration system are calculated, and the reduced electricity bill and carbon dioxide emissions are displayed by introducing the cogeneration system (Patent Document 2). reference).

JP 2000-340238 A Japanese Patent Laid-Open No. 2003-250224

  However, in a system that combines a solar water heater that expresses a reduced energy amount with heat as described in Patent Document 1, and a solar power generation device or a fuel cell that expresses the reduced energy amount with electric power, Assuming that the display system shown in Document 2 is used for display, each unit of energy reduced must be displayed separately, which is difficult for the user to understand. Met.

  The present invention has been made to solve such a conventional problem, and an object of the present invention is to provide an energy reduction amount display system capable of displaying the energy reduction amount in an easy-to-understand manner. There is.

  The energy reduction amount display system of the present invention includes at least one of a solar water heater that heats water by solar heat, a solar power generation device that generates power by sunlight, and a fuel cell that generates power by an electrochemical reaction of a reaction gas. Calculated by the power generation device comprising: a calorific value calculating means for calculating the amount of heat reduced by the solar water heater; a power amount calculating means for calculating the amount of power reduced by the power generating device; and the heat amount calculating means. Energy amount conversion means for converting one of the energy amount and the energy amount calculated by the power amount calculation means into the other energy amount, and the one energy amount and the energy amount conversion means Summing means for summing the energy amount converted by, and displaying the energy amount summed by the summing means A display unit that, characterized in that it comprises a.

  According to this energy reduction amount display system, after converting one energy amount of the amount of heat reduced by the solar water heater and the amount of power reduced by the power generator into the other energy amount, the combined amount is displayed. Therefore, either one of the amount of heat and the amount of electric power is converted into the other energy amount and displayed together, and the energy reduction amount can be displayed more easily without displaying both energy amounts separately. .

  ADVANTAGE OF THE INVENTION According to this invention, the energy reduction amount display system which can display an energy reduction amount more easily can be provided.

It is a block diagram which shows an example of the energy reduction amount display system which concerns on embodiment of this invention. It is a flowchart which shows operation | movement of the subscriber | terminal display board concerning this embodiment.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings. FIG. 1 is a configuration diagram showing an example of an energy reduction amount display system according to an embodiment of the present invention.

  As shown in FIG. 1, the energy reduction amount display system 1 according to the present embodiment includes a solar water heater 10, a solar power generation device (power generation device) 20, various sensors 31 to 36, and a home display panel 40. The amount of energy reduced by using the solar water heater 10 and the solar power generation device 20 is displayed.

  The solar water heater 10 heats supplied water by solar heat and supplies it to the house. The photovoltaic power generation device 20 photoelectrically converts sunlight to generate electric power, and supplies electric power to a household load L such as a television, a refrigerator, and a washing machine. Instead of the solar power generation device 20, a fuel cell that generates electric power by an electrochemical reaction of hydrogen gas (reactive gas) may be used. Furthermore, you may make it use both the solar power generation device 20 and a fuel cell.

  The incoming water temperature sensor 31 measures the temperature of water supplied to the solar water heater 10. The outlet temperature sensor 32 measures the temperature of the hot water output from the solar water heater 10. The outlet water flow rate sensor 33 measures the amount of hot water output from the solar water heater 10.

  The voltage sensor 34 measures the power generation voltage of the solar power generation device 20. The current sensor 35 measures the generated current of the solar power generation device 20. The timer 36 measures the time during which the household load L has been operated. The timer 36 is not limited to the operation time of the household load L, but measures the power generation time of the solar power generation device 20 and the supply time during which power is supplied from the solar power generation device 20 to the home load L. There may be.

  The in-house display panel 40 displays the amount of energy reduced by the solar water heater 10 and the solar power generation device 20 and includes a display unit (display means) 41.

  The display unit 41 displays a reduced energy amount, a reduced energy fee based on the reduced energy amount, and a reduced carbon dioxide emission amount based on the reduced energy amount.

  Here, the solar water heater 10 obtains the amount of heat and warms the water, and the solar power generator 20 obtains electric power and supplies it to the household load L. For this reason, the amount of energy reduced by both differs. If different energy amounts are displayed separately, the display becomes difficult for the user to understand.

  Therefore, in addition to the display unit 41, the in-home display panel 40 according to the present embodiment includes a heat amount calculation unit (heat amount calculation unit) 42, an electric energy calculation unit (power amount calculation unit) 43, and an energy amount conversion unit (energy (Quantity conversion means) 44, a summation unit (summation means) 45, and a charge / discharge amount calculation unit 46.

The heat quantity calculation unit 42 calculates the heat quantity reduced by the solar water heater 10. Specifically, the calorific value calculation unit 42 sets the temperature of water before heating in the solar water heater 10 obtained from a signal from the incoming water temperature sensor 31 as Tc [° C.], and the solar water heater 10 obtained from a signal from the outlet flow sensor 33. When the flow rate of hot water discharged from the water is F [L], the temperature of the hot water discharged from the solar water heater 10 obtained from the signal of the water temperature sensor 32 is Tm [° C.], and the calorie conversion coefficient C,
Q = (Tm−Tc) × F × C / 1000 [MJ] (1)
From Equation (1), the amount of heat Q used for heating the water by the solar water heater 10, that is, the amount of heat required to generate hot water that can be reduced by the solar water heater 10 can be calculated. As an example, the flow rate F is 1 L of water = 1 kg, the calorie conversion coefficient C indicates the specific heat of water, and C = 1 [kcal / kg ° C.] = 4.186605 [kJ / kg K]. is there.

The electric energy calculation unit 43 calculates the electric energy reduced by the solar power generation device 20. Specifically, the solar power generation device 20 represents the reduced electric energy W as W = V × I, where V is the voltage obtained from the signal from the voltage sensor 34 and I is the current obtained from the signal from the current sensor 35. ... (2)
Is calculated from the following equation (2).

  The energy amount conversion unit 44 converts any one of the heat amount Q calculated by the heat amount calculation unit 42 and the power amount W calculated by the power amount calculation unit 43 into the other energy amount. is there. That is, the energy amount conversion unit 44 converts the heat amount Q calculated by the heat amount calculation unit 42 into an electric energy W, or converts the electric energy W calculated by the electric energy calculation unit 43 into a heat amount Q. In the following, an example in which the power amount W calculated by the power amount calculation unit 43 is converted into the heat amount Q will be described.

Specifically, when converting the amount of electric power W into the amount of heat Q, the energy amount conversion unit 44, when the time measured by the timer 36 is T,
Q = W × T (3)
It calculates from the following formula (3).

  The summing unit 45 sums one energy amount (that is, the energy amount not converted by the energy amount converting unit 44) and the energy amount converted by the energy amount converting unit 44. In the example of the present embodiment, the summation unit 45 sums the heat amount Q calculated by the heat amount calculation unit 42 as the energy amount not converted and the heat amount Q converted from the power amount by the energy amount conversion unit 44. Become. The display unit 41 displays the energy amount (heat amount Q [MJ] in the present embodiment) added by the adding unit.

  The fee / discharge amount calculation unit 46 calculates the energy fee and the carbon dioxide emission amount reduced by using the solar water heater 10 and the solar power generation device 20.

Specifically, the reduced energy charge and the reduced carbon dioxide amount are calculated as follows. First, the charge / discharge amount calculation unit 46 calculates the reduced fuel amount Vn based on the reduced energy amount. Here, when the fuel is a fuel gas such as city gas or propane gas, the total calorific value per unit volume of the fuel gas is H [MJ / Nm ³ ], and the combustion efficiency of the water heater 40 is k [%]. Then
Vn = Qn / (H × k) [Nm ³ ] (4)
From the equation (4), the reduced fuel amount Vn can be calculated. As an example, the total calorific value H1 per unit volume of city gas is 46.08 [MJ / Nm ³ ], and the total calorific value H2 per unit volume of propane gas is 101.38 [MJ / Nm]. ³ ]. Further, k is generally a constant value such as 80% (general type gas water heater) to 95% (high efficiency type gas water heater).

Thereafter, the charge / discharge amount calculation unit 46 calculates the reduced energy charge Yn based on the reduced fuel amount Vn. Specifically, if the gas charge per unit volume of fuel gas is B [yen / Nm ³ ],
Yn = Vn × B [yen] (5)
From equation (5), the reduced energy charge Yn can be calculated. As an example, the gas charge B per unit volume of city gas is 153 [yen / Nm ³ ], and the gas charge B per unit volume of propane gas is 385 [yen / Nm ³ ].

Further, the charge / discharge amount calculation unit 46 calculates the reduced carbon dioxide emission amount Xn based on the reduced fuel amount Vn. Specifically, when the carbon dioxide emission per unit volume of the fuel gas is E [kgCO ² / Nm ³ ],
Xn = Vn × E [kgCO ² ] (6)
From Equation (6), the reduced carbon dioxide emission amount Xn can be calculated. As an example, the carbon dioxide emission E per unit volume of city gas is 2.355 [kgCO ² / Nm ³ ], and the carbon dioxide emission E per unit volume of propane gas is 5.893 [ kgCO ² / Nm ^3] is.

  Next, the operation of the energy reduction amount display system 1 according to the present embodiment will be described. First, FIG. 2 is a flowchart showing the operation of the home display panel 40 according to the present embodiment. As shown in FIG. 2, first, the in-house display panel 40 inputs measurement signals from various sensors 31 to 36 (S1). Next, the calorific value calculation unit 42 calculates the calorific value Q reduced by using the solar water heater 10 (S2). At this time, the calorie | heat amount calculation part 72 calculates the calorie | heat amount Q based on said Formula (1).

  Next, the electric energy calculation part 43 calculates the electric energy W reduced by utilization of the solar power generation device 20 (S3). At this time, the electric energy calculation part 43 calculates the electric energy W based on said Formula (2). Thereafter, the energy amount conversion unit 44 converts the power amount W calculated in step S3 into a heat amount Q (S4). At this time, the energy amount conversion unit 44 converts the energy amount based on the formula (3).

  Next, the summing unit 45 adds the reduced heat quantity Q calculated in step S2 and the heat quantity Q converted in step S4 (S5). Next, the charge / discharge amount calculation unit 46 calculates a reduced energy charge and a reduced carbon dioxide amount (S6). At this time, the charge / discharge amount calculation unit 46 calculates the reduced energy charge and the reduced carbon dioxide amount based on the above formulas (4) to (6). Thereafter, the display unit 41 displays the amount of heat Q added in step S5 as a reduced energy amount, and displays the reduced energy charge and reduced carbon dioxide amount calculated in step S6 (S7). Thereafter, the process shown in FIG. 2 ends.

  Thus, according to the energy reduction amount display system 1 according to the present embodiment, one energy amount of the heat amount Q reduced by the solar water heater 10 and the electric energy W reduced by the solar power generation device 20 is obtained. Since it is converted into the other energy amount and displayed together, either one of the heat amount Q or the power amount W is converted into the other energy amount and displayed, and both energy amounts are separately displayed. It is possible to display the energy reduction amount more easily without displaying it.

  As described above, the present invention has been described based on the embodiment, but the present invention is not limited to the above embodiment, and may be modified without departing from the gist of the present invention. For example, although the energy reduction amount display system 1 according to the present embodiment includes the solar power generation device 20, a fuel cell may be used instead, or the solar power generation device 20, the fuel cell, and the like. May be combined. Furthermore, when a fuel cell is used, water may be heated using the exhaust heat of the fuel cell, and the amount of heat reduced from the temperature and amount of the heated water may be obtained.

DESCRIPTION OF SYMBOLS 1 ... Energy reduction amount display system 10 ... Solar water heater 20 ... Solar power generation device (electric power generation device)
31-35 ... Sensor 36 ... Timer 40 ... Home display board 41 ... Display section (display means)
42 ... Calorie calculation part (calorie calculation means)
43 ... Electricity amount calculation unit (electricity amount calculation means)
44 ... Energy amount conversion unit (energy amount conversion means)
45. Summing unit (summing means)
46. Charge / emission calculation unit

Claims (1)

A solar water heater that heats water by solar heat;
A power generation device comprising at least one of a solar power generation device that generates power by sunlight and a fuel cell that generates power by an electrochemical reaction of a reaction gas;
A calorific value calculating means for calculating a calorific value reduced by the solar water heater;
Power amount calculating means for calculating the amount of power reduced by the power generating device;
An energy amount converting means for converting one of the energy amount calculated by the heat amount calculating means and the energy amount calculated by the power amount calculating means into the other energy amount;
A summing means for summing the one energy amount and the energy amount converted by the energy amount converting means;
Display means for displaying the amount of energy added by the adding means;
An energy reduction amount display system characterized by comprising:

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