KR20090001608A - Remote monitoring system for reducing greenhouse gases and the method thereof - Google Patents

Abstract

A remote monitoring system for reducing greenhouse gases and a method thereof are provided to reduce the amount of discharged gas effectively and induce the public to save energy by showing the amount of reduced greenhouse gas in real time. A remote monitoring system for reducing greenhouse gases comprises the followings of: receiving energy consumption amount information from a client terminal in real-time or periodically(S206); producing the greenhouse gas reduction amount which multiplying a conversion factor of predetermined carbon dioxide by the energy reduction amount(S207); and notifying the produced energy reduction amount and the greenhouse gas reduction amount to the client terminal(S208).

Description

Greenhouse gas reduction remote monitoring system and its method {REMOTE MONITORING SYSTEM FOR REDUCING GREENHOUSE GASES AND THE METHOD THEREOF}

1 is a schematic structural diagram of an exemplary greenhouse gas reduction remote monitoring system according to an aspect of the present invention.

Figure 2 is a flow chart illustrating a member information registration and energy usage information registration process in the remote monitoring method for greenhouse gas reduction according to another aspect of the present invention.

2A to 2D are exemplary views of each embodiment in a method for remotely monitoring a greenhouse gas reduction according to an aspect of the present invention shown in FIG. 2.

2A and 2B are schematic diagrams showing a predetermined interface for entering membership information;

2C is a schematic diagram illustrating an interface for inputting energy usage;

FIG. 2D is a schematic diagram illustrating an interface showing a client's current energy reduction and greenhouse gas reduction amount and current ranking; FIG.

Figure 3 is a flow chart illustrating a regular energy consumption input process in the remote monitoring method for greenhouse gas reduction according to another aspect of the present invention.

3A and 3B are exemplary views of each embodiment in a method for remotely monitoring a greenhouse gas reduction according to an aspect of the present invention illustrated in FIG. 3.

3A is a schematic diagram illustrating an interface for member login;

3B is a schematic diagram illustrating an interface showing a client's current energy savings and greenhouse gas reductions.

The present invention relates to a GHG reduction monitoring system and method thereof, and in particular, calculates and discloses greenhouse gas reduction amount in real time based on energy input regularly, and effectively induces energy saving of the public and ultimately greenhouse gas. The present invention relates to a GHG reduction remote monitoring system and method for reducing emissions.

Recently, with increasing interest in preventing further global warming, the Kyoto Protocol came into force on February 16, 2005, and Korea is now obliged to save energy by reducing greenhouse gases.

In particular, the Kyoto Protocol seeks economic benefits centered on reducing greenhouse gas emissions by establishing a global cooperative system for solving climate change problems. The Kyoto Protocol aims to reduce 5.2% of greenhouse gas emissions from each participating country in 2008-2012, the first mandatory period.

However, Korea was classified as a developing country when the Kyoto Protocol was adopted and has been exempted from the obligation to reduce greenhouse gases. However, Korea is now a member of the OECD, but its carbon dioxide emissions are ranked 9th in the world and 2nd in emissions per unit of the world.Now, it is no longer free from GHG reduction obligations in the second mandatory period, 2013-2017. As with developed countries, the above obligations will be borne, and the domestic economy is expected to have a large impact.

However, despite this situation, Korea still lacks public relations to reduce greenhouse gas emissions and energy saving. Therefore, it is urgent to establish an effective system for greenhouse gas reduction because practical measures have not been taken.

Accordingly, the present invention was devised to solve the above problems, and an object of the present invention is to calculate the amount of greenhouse gas reduction based on the amount of energy used and to disclose it, effectively inducing energy saving of the public and ultimately greenhouse gas The present invention provides a remote monitoring system and method for reducing greenhouse gas emissions.

In order to achieve the above object, a remote greenhouse gas reduction remote monitoring system according to an aspect of the present invention includes a central server and a client terminal connected thereto through a wired / wireless communication network. Receive at least one or more energy usage information from the client terminal periodically or in real time, and based on this, calculate an energy reduction amount that is a difference value compared to the energy usage of the entire period, and calculate a predetermined carbon dioxide conversion factor to the energy reduction amount. GHG reduction amount is calculated by multiplying, and the calculated energy reduction amount and GHG reduction amount can be notified to the client terminal. In addition, the energy may be at least one selected from electricity, water supply, city gas, LP gas, district heating, gasoline, diesel, kerosene. The central server may be further connected to at least one engine server that manages the energy through a wired / wireless communication network and receive the energy usage information from the engine server. In addition, the central server may be further connected to at least one or more engine servers that manage the environment through a wired or wireless communication network, and may receive the carbon dioxide conversion coefficient information set by the engine server.

In addition, the GHG reduction remote monitoring method according to another aspect of the present invention is a GHG reduction remote monitoring method for reducing the greenhouse gas, at least one or more from the client terminal connected to the central server via a wired or wireless communication network A first step of receiving the energy usage information periodically or in real time, and the central server calculates an energy reduction amount that is a difference value from the energy usage information for the entire period, and the energy reduction amount is predetermined. And a third step of calculating a greenhouse gas reduction amount by multiplying a carbon dioxide conversion factor and a third step of notifying the client terminal of the calculated energy reduction amount and the greenhouse gas reduction amount by the central server. In the third step, the central server ranks the calculated energy reduction amount and the greenhouse gas reduction amount by comparing the energy reduction amount and the greenhouse gas reduction amount of another member, and notifies or discloses the result to the client terminal. It may further comprise a step. The third step may further include the central server releasing the calculated energy reduction amount and greenhouse gas reduction amount through a wired / wireless communication network. In addition, the energy may be at least one selected from electricity, water supply, city gas, LP gas, district heating, gasoline, diesel, kerosene. In addition, the central server may be further connected to at least one or more engine servers that manage the environment through a wired or wireless communication network, and may receive the carbon dioxide conversion coefficient information set by the engine server. In the first step, the central server is further connected to at least one or more institutional servers that manage the energy through a wired / wireless communication network to further receive the energy usage information from the institutional server. Comparing the energy usage information received from the institution server with the energy usage information already received from the client terminal, and checking whether the energy usage information is identical to each other; and if not, the central server receives the received information from the client terminal. The method may further include replacing energy usage information with the energy usage information received from the engine server.

Hereinafter, as described in detail with reference to the drawings, the present invention calculates and discloses the greenhouse gas reduction amount in real time based on energy input regularly inputted, effectively inducing energy saving of the public and ultimately reducing greenhouse gas emissions. The present invention relates to a GHG reduction remote monitoring system and a method thereof.

First, FIG. 1 schematically shows an exemplary structure of a remote greenhouse gas reduction remote monitoring system according to an aspect of the present invention.

According to the greenhouse gas reduction remote monitoring system 100 of the present invention, at least one or more clients 130 through the interface provided by the central server 110, after registering, the central server periodically used energy consumption The central server 110 calculates an energy reduction amount and a greenhouse gas reduction amount therefrom and discloses and manages it through an Internet web site or a broadcasting medium.

Referring to FIG. 1, the GHG reduction monitoring system 100 according to the present invention includes a central server 110, a client terminal 130 connected to a predetermined wire / wireless communication network, and the client terminal 130. The provided member information and regular energy usage may be configured to include a storage medium 120 that is stored and viewed in a regular and / or real time manner.

Preferably, the central server 110 is an interface provided to the client terminal 130 can be managed by operating a predetermined Internet website, the client terminal 130 through this membership registration and regular energy usage input And the like. In addition, for this purpose, the central server 110 may include a web management unit 111 for operating the website.

In addition, the central server 110 generates a predetermined information input interface that can be provided to a browser program or a communication program provided in the client terminal 130, which becomes a wired / wireless terminal, and through the generated information input interface, It may include an interface unit 115 that can be provided to 130. According to a preferred embodiment of the present invention, the information input interface includes an interface for receiving a member ID and a connection password as member registration information from the client terminal 130, and a client contact information (for example, a mail address, a mail address, and a mail address). Number, address of building name, contact phone number, e-mail address, etc.), interface that regularly inputs energy consumption of client for a certain period of time, client's current energy reduction and greenhouse gas reduction amount. The interface may include, but is not limited to. In addition, the central server 110 stores such information on a nationwide scale to assist in searching for dong, street, zip code, building name, group name, etc., which are input to provide the convenience of the client to receive the member registration information. It includes a predetermined database 150 or connected to a wired / wireless network to receive the corresponding data and the data that the client wants to input (ie, the same name, street number, zip code, building name, group name). It is also possible to provide the interface with a predetermined similarity search system that displays all relevant similar information even if it is entered only in letters so that the client can select only the information intended by the client.

In addition, in the system 100 of the present invention, the energy usage input from the client terminal 130 is electricity consumption (kwh), city gas usage (m ³ ), water supply usage (m ³ ), district heating usage ( m ³ ), and of course, the present invention is not limited thereto, and any other energy that can be quantitatively measured can be included therein. That is, for example, the amount of gasoline, diesel, kerosene, etc. may also be included in the amount of energy used in the present invention.

In addition, the central server 110 is an information registration unit 113 for storing the membership registration information provided from the client terminal 130 to the storage medium 120 interoperating with the central server 110, and periodically from the client terminal 130 It may include an information storage unit 112 for receiving and storing the energy usage for a predetermined period.

In addition, the central server 110 includes an information management unit 114 for managing the membership information on a regular or real time basis, and calculates an energy reduction amount and a greenhouse gas reduction amount therefrom based on the input or stored energy usage. The energy reduction amount and the greenhouse gas reduction amount may be stored in the storage medium 120 by the information storage unit 112 and / or posted on the website by the web management unit 111.

In addition, the information management unit 114 calculates the energy reduction amount by calculating the difference value of the energy usage for a predetermined period transmitted from the client terminal 130 compared to the energy usage of the previous period, and further, the energy reduction amount The final greenhouse gas reduction amount is calculated by multiplying the predetermined carbon dioxide conversion factor (or carbonic acid coefficient). In this case, the period may be arbitrarily set to a time value such as a predetermined year, month or day. According to a preferred embodiment of the present invention, the carbon dioxide conversion coefficient value may be set for each energy as shown in Table 1 below, which may be set according to the reference value of the domestic and overseas jurisdiction, such as, for example, the standard value of the Ministry of Environment. Do:

Table 1

Energy Carbon factor CO2 conversion factor Electricity 0.12kgC / kwh 0.44kgC / kwh waterworks 0.16kgC / m ³ 0.59kgC / m ³ City gas 0.64kgC / m ³ 2.35kgC / m ³ LP gas 1.8kgC / m ³ 6.6kgC / m ³ Gasoline 0.64kgC / l 2.35kgC / l Via 0.72kgC / l 2.64kgC / l Kerosene 0.69kgC / l 2.53kgC / l

That is, referring to Table 1, the information management unit 114 can calculate the energy reduction amount and the greenhouse gas reduction amount by the following equations (1) and (2):

Energy reduction amount = energy consumption for this period-energy consumption for the previous period --- (Equation 1)

Greenhouse gas reduction amount = energy reduction amount × CO2 conversion factor for each energy --- (Equation 2)

In addition, according to another aspect of the present invention, the information management unit 114 from the server (s) 140 of each domestic jurisdiction agency (s) connected to this and wired and wireless communication network regularly and / or in real time of the client Each energy usage data may be transmitted. That is, for example, electricity consumption may be transmitted from Korea Electric Power Corporation, city gas usage from Daehan City Gas Co., Ltd., water supply usage from the Waterworks Headquarters, district heating usage from Korea District Heating Corporation, and the like. In addition, the information management unit 114 replaces the data received from the client terminal 130 with each energy usage data of the client received from the server (s) 140 of the respective jurisdiction (s), or the domestic Compare the energy usage data of the client received from the server (s) 140 of each jurisdiction (s) and the data received from the client terminal 130 in real time to determine whether the data entered by the client is correct or incorrect. You can also check and notify the client or administrator via the interface in real time. In this case, in the latter case, the client may be informed of the incorrect energy usage by the central server 110 and may be induced to input the correct energy usage again.

2 is a flowchart illustrating a member information registration and energy usage information registration process in a method for remotely monitoring a greenhouse gas reduction according to another aspect of the present invention.

Referring to FIG. 2, first, when a client connects to a central server 110 through a client terminal 130 through a wired / wireless network (S202), the central server 110 inputs membership information to the client terminal 130. It provides a predetermined interface for (S203). As an example of this, as shown in FIG. 2A, an interface that allows a client to input a town, street, building (company) name, representative (household), creator, contact telephone number, and the like is preferable. In the case of FIG. 2B, as another preferred embodiment, in addition to the interface content shown in FIG. 2A, a department, gender, and affiliation of each member (each student in FIG. 2B) belonging to a group (school in FIG. 2B) is included. You can also enter details such as a name.

Then, when the client completes the member registration information input and transmits it to the central server 110 (S204), the central server 110 stores the registration in the storage medium 120 and continues to use the client for this period An interface for inputting energy usage is provided to the client terminal 130 (S205). As an example of this, as illustrated in FIG. 2C, each energy usage, i.e., monthly, in the case of FIG. The client may input the electricity consumption (kwh), the city gas consumption (m ³ ), the water supply usage (m ³ ), and the district heating usage (m ³ ), and the energy type is not limited thereto. At this time, as another embodiment, as described above, the central server 110 is the client terminal 130 with the respective energy usage data of the client received from the server (s) 140 of the respective jurisdiction (s). Replace the data received from the client or compare the data received from the client terminal 130 with the energy usage data of the client received from the server (s) 140 of the respective jurisdiction (s) in real time client May check whether the data entered is correct or incorrect and notify the client or administrator of the result in real time via the interface. In the latter case, the client may be prompted to receive the notification and reenter the correct energy usage.

In addition, the client terminal 130 transmits the input interface back to the central server 110 (S206).

Then, the central server 110 stores the received energy usage in the storage medium 120, and calculates energy reduction amount and greenhouse gas reduction amount using Equation 1 and Equation 2 as described above based on this. At the same time, it is stored in the storage medium 120 and transmitted to the client terminal 130 through a predetermined interface to notify the client (S207).

In addition, the central server 110 transmits and notifies the current rank of the client to the interface in comparison with the members currently subscribed based on the energy reduction amount and the greenhouse gas reduction amount, as well as the central server 110 periodically. (208). One preferred embodiment thereof is shown in FIG. 2D. In addition, according to another embodiment of the present invention, the publication may be a wireless communication including a short message service (SMS), a multimedia messaging service (MMS), a call back URL, and the like instead of the website.

Figure 3 is a flow chart illustrating a regular energy consumption input process in the remote greenhouse gas reduction remote monitoring method according to another aspect of the present invention.

First, when a client connects to the central server 110 through the client terminal 130 through a wired or wireless network, the central server 110 inputs an interface for member authentication (that is, input of a member ID and a connection password, for example). Interface) to the client terminal 130 (S302). One embodiment of this is shown in FIG. 3A. In addition, in this case, if member authentication fails or membership is not yet registered, the central server 110 guides the client terminal 130 to the process for membership registration (S203).

When the member authentication is completed, the central server 110 inquires the current energy reduction amount and greenhouse gas reduction amount information of the client already calculated in the storage medium 120 and transmits it to the client terminal 130 to notify it (S303). ). One embodiment thereof is the same as in FIG. 3B and is not limited to the types of energy listed therein as already described above. This allows the client to know exactly how much of his energy savings and greenhouse gas reductions are present.

And, as described above, the central server 110 receives new energy usage information from the client on a regular or real time basis, calculates an energy reduction amount and a greenhouse gas reduction amount based on this, and stores it in a storage medium and stores the client terminal ( 130, and notifies, and posts the current ranking of the client on a website or the like (S205-S208).

In addition, the preferred embodiments and embodiments of the present invention described above are directed to examples for effectively explaining the present invention so that those skilled in the art can easily practice, and thus the present invention is limited thereto. It is only natural for a person of ordinary knowledge in the field.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, anyone of ordinary skill in the art will be possible to various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications, changes And additions should be regarded as within the scope of the claims.

As described above, according to the present invention, by calculating and releasing the greenhouse gas reduction amount in real time based on the energy consumption regularly inputted, it is possible to effectively induce energy saving of the public and ultimately reduce the greenhouse gas emission. On the other hand, it will maximize the publicity effect of the public.

Claims (10)

In the GHG reduction remote monitoring system comprising a central server and a client terminal connected through a wired and wireless communication network, The central server receives at least one or more energy usage information from the client terminal periodically or in real time, and calculates an energy reduction amount that is a difference value compared to the energy usage for the entire period based on the energy usage amount, and is predetermined to the energy reduction amount. GHG reduction amount is calculated by multiplying the CO2 conversion factor of the GHG reduction remote monitoring system, characterized in that notifying the calculated energy reduction amount and the GHG reduction amount to the client terminal. The method of claim 1, The energy is a greenhouse gas reduction remote monitoring system, characterized in that at least one selected from electricity, water, city gas, LP gas, district heating, gasoline, diesel, kerosene. The method according to claim 1 or 2, The central server is further connected to at least one or more engine server that manages the energy through a wired / wireless communication network, the greenhouse gas reduction remote monitoring system, characterized in that to receive the energy usage information from the engine server. The method according to claim 1 or 2, The central server is connected to at least one or more institutional server that manages the environment through a wired / wireless communication network, the greenhouse gas reduction remote monitoring system, characterized in that to receive the carbon dioxide conversion coefficient information set by the engine. In the greenhouse gas reduction remote monitoring method for reducing the greenhouse gas, A first step of the central server receiving at least one energy usage information periodically or in real time from a client terminal connected through the wired / wireless communication network; A second step of calculating, by the central server, the amount of energy reduction, which is a difference value, compared to the amount of energy usage for the previous period, and multiplying the amount of energy reduction by a predetermined carbon dioxide conversion factor to calculate a greenhouse gas reduction amount; Wow; And a third step of the central server notifying the client terminal of the calculated energy reduction amount and greenhouse gas reduction amount. The method of claim 5, In the third step, the central server ranks the calculated energy reduction amount and the greenhouse gas reduction amount by comparing the energy reduction amount and the greenhouse gas reduction amount of another member, and notifies or discloses the result to the client terminal. Greenhouse gas reduction remote monitoring method characterized in that it further comprises. The method according to claim 5 or 6, The third step may further include releasing the calculated energy reduction amount and the greenhouse gas reduction amount through the wired / wireless communication network, by the central server. The method according to claim 5 or 6, The energy is a remote monitoring method for greenhouse gas reduction, characterized in that at least one selected from electricity, water, city gas, LP gas, district heating, gasoline, diesel, kerosene. The method according to claim 5 or 6, The central server is connected to at least one or more institutional server that manages the environment through a wired / wireless communication network, the greenhouse gas reduction remote monitoring method, characterized in that for receiving the carbon dioxide conversion coefficient information set by the engine. The method according to claim 5 or 6, The first step is The central server is further connected to at least one or more institution server that manages the energy through a wired / wireless communication network to further receive the energy usage information from the institution server; The central server comparing the energy usage information received from the institution server with the energy usage information already received from the client terminal and examining whether the energy usage information is the same; If it is not the same, the central server further comprises the step of replacing the energy usage information received from the client terminal with the energy usage information received from the institution server further comprises the greenhouse gas reduction remote monitoring method.

Images