JPH044798A - Cogeneration apparatus - Google Patents

Abstract

PURPOSE:To use as a temporarily installed energy source by separately composing a thermoelectric units to several units, mounting them in separately movable trailers, and separately connecting pipings, wirings between the trailers. CONSTITUTION:A hot water delivery port 6, a chilled water delivery port 7 and a power reception terminal 8 are provided previously at necessary positions for a cogeneration apparatus. A fuel tank 9 is previously installed at a place to be moved as required for the cogeneration apparatus. Thus, the apparatus having a generator trailer 1, a hot water trailer 2, a refrigerator trailer 3, a chilled water tank trailer 4, a cooling tower trailer 5 can supply hot water, chilled water, electricity to the port 7, the terminal 8 and the port 6 in site.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a heat and power supply device (cogeneration device) that supplies movable cold/hot heat and electric power.

(Conventional technology) Recently, waste heat from buildings and generators has been utilized.
BACKGROUND ART Cogeneration systems that can efficiently supply electric power and cold/hot heat are attracting attention.

This device releases waste heat from generators and buildings into the water to obtain hot water, which is then used as a heat source for heating. In addition, it is equipped with a heat absorption type refrigerator, etc., and the heat generated when the cold water used inside the building is further cooled is transferred to the hot water tank mentioned earlier, while the cold water obtained by the refrigerator is used to cool the air conditioner or the refrigerator. It is used for.

Therefore, cogeneration systems have been of a fixed type installed in a fixed location in order to increase their scale by integrating a generator, a refrigerator, a hot water tank, a cold water tank, and a cooling tower.

(Problems to be Solved by the Invention) Because cogeneration devices are fixed, they cannot be used as an energy source for relatively small-scale temporary facilities such as disaster relief or local expositions.

In other words, even considering the energy-saving ability of the cogeneration system, it is unsuitable for use in temporary facilities because it is uneconomical.

The present invention has been made in view of the above circumstances, and its object is to provide a cogeneration system that can be used as a relatively small-scale temporary energy source.

(Means for Solving the Problems) In order to achieve the above object, the cogeneration device of the present invention has a heat and power supply device that supplies cold/hot heat and electric power separated into several units, and each of these units is separated into separate units. It is installed on a moving trailer, and the piping and wiring between the trailers are interconnected.

It was designed to be separable.

(Function) The mobile trailer in which the necessary units constituting the cogeneration system are installed is towed and moved to locations that require electricity and cold/heat, respectively, and the equipment for each required unit of these mobile trailers is transferred electrically.

Connect mechanically. In this way, the cogeneration system can be installed at the desired location, and at the same time, when moving, the mobile trailers can be disconnected from each other.

(Embodiments) Preferred embodiments of the present invention will be described in detail below with reference to the drawings.

A cogeneration device according to an embodiment is shown in FIG.

This cogeneration system consists of a power generation trailer 1 and a hot water trailer 2. Freezer trailer 3 and cold water tank trailer 4. It consists of a cooling tower trailer 5.

In addition, hot water delivery facilities are installed in places that require cogeneration equipment.6. A cold water delivery lower and a power receiving terminal 8 are provided in advance. Further, the fuel required for the power generation trailer 1 may be provided in a fuel tank 9 at a destination location that requires a cogeneration system, or may be provided in the power generation trailer 1 itself; however, in this embodiment In this case, the fuel tank 9 is installed in advance at the destination location where the cogeneration system is required. Power generation trailer 1
．． Hot water trailer 2. Freezer trailer 3. Cold water tank trailer 4. The cogeneration system consisting of the cooling tower trailer 5 supplies hot water, cold water, and electricity to the cold water delivery lower power receiving terminal 8 and the hot water delivery port 6 at the site. Therefore, it is only necessary to fix each trailer in a predetermined position and connect the piping and wiring between the trailers, and it can be installed easily and in a short time, and can be used especially in emergency situations such as disaster relief.

The power generation trailer 1 uses a gas engine 10 to drive a generator 12 via a speed reducer 11. The power generated by the generator 12 is connected and supplied to the power receiving terminal 8.

Moreover, an oil cooler 13 is installed in the power generation trailer 1, and this oil cooler operates the generator 12 and the speed reducer 11. The gas engine 10 is being cooled. The oil cooler 13 includes a radiator 14 for cooling, and a pump is used to forcibly circulate cooling water through the radiator 14.

Furthermore, the power generation trailer 1 is provided with a waste heat boiler 15, and before the exhaust gas of the gas engine 10 is disposed of into the exhaust duct, the waste heat boiler 15 picks up the heat in the exhaust gas and supplies it to the hot water tank 16 loaded on the hot water trailer 2. Similarly, the hot water circulation pump 17 loaded on the hot water trailer 2 is used to return the water. That is, hot water in the hot water tank passes around the waste heat boiler 15 by the hot water circulation pump 17 and returns to the hot water tank 16 while picking up waste heat from the gas engine 10 .

On the other hand, the hot water trailer 2 is loaded with a high-temperature water pump 18, and the heat generated by the heat absorption refrigerator 19 loaded on the refrigerator trailer 3 is transferred to the hot water tank 16 by the high-temperature water pump 18.
From there, hot water is circulated by a high-temperature water pump 18 to an absorption refrigerator 19 and recovered to a hot water tank 16. The hot water delivery port 6 is connected to the hot water tank 16 of the hot water trailer 2. Further, the fuel 9 is connected to the gas engine 10 of the power generation trailer 1.

On the other hand, the cold water delivery lower is connected to a cold water tank 20 loaded on a cold water tank trailer 4, and the cold water trailer 4 is a circulation pump that sends hot water in the hot water tank 16 to the waste heat boiler 15 and returns it to the hot water trailer 2. 17, and in the same way as the high temperature water pump 18 is provided and the high temperature water pump 18 supplies and collects hot water in the hot water tank 16 to the hot water delivery port 6 and the absorption chiller 19, Equipped with a cold water pump 21,
The cold water pump 21 sends the cold water in the cold water tank 20 to the cold water delivery lower, and at the same time collects the excess supply cooling water and the cold water returning from the cold water delivery port, and the cold water circulation pump 22 sends the cold water to the chiller trailer 3.
The cold water in the cold water tank 20 is sent to and collected by one absorption refrigerator.

The cold water sent out from the cold water tank 20 by the cold water circulation pump 22 is cooled in the heat absorption refrigerator 19 of the refrigerator trailer 3 to further lower the temperature, and then returns to the cold water tank 20 of the cold water tank trailer 4.

At this time, the heat in the cold water obtained when the absorption chiller 19 cools the cold water sent out from the cold water tank 20 by the cold water circulation pump 22 is returned to the hot water tank 16 by the high temperature water pump 18.

The cooling tower trailer 5 has a water supply port 23 and is loaded with a cooling tower 24 equipped with a cooling fan at the top.
The water in the cooling tower 24 is circulated to the absorption chiller 19 of 3 in the chiller trailer by a cooling water pump 25 attached to the refrigeration machine, thereby taking away the heat that could not be recovered from the absorption chiller 19.

In this way, the trailers divided into constituent units are sequentially moved to the site where the cogeneration system is required, and the piping and wiring between the trailers are connected at the site to complete the configuration of the entire system.

(Effects) As explained in detail above, according to the cogeneration system of the present invention, the cogeneration system is configured to be separated into several units necessary for supplying hot water, cold water, electricity, etc. required at the site. Each unit is installed on a separate mobile trailer, and the piping and wiring between the trailers can be connected and separated from each other, so each component can be moved and installed and separated depending on the topography of the destination. It can be used as a temporary power source or hot/cold heat source for local expos, events, disaster relief, remote areas, etc.

Moreover, since it can be moved using a mobile trailer, it can be reused in another location by simply disconnecting the wiring and piping between the mobile trailers, making it possible to provide a cogeneration system that sufficiently ensures low energy effects. can.

[Brief explanation of the drawing]

FIG. 1 is a system diagram showing an embodiment of the cogeneration device of the present invention. 1......Generation trailer 3...Refrigerating machine trailer 4...Cold water tank trailer 5...Cooling tower Trailer 7...Cold water delivery port 9...Fuel 11...Decelerator 13...Oil cooler 15... Waste heat boiler 17...Hot water circulation pump 19...Absorption chiller 21...Cold water pump 22...Cold water circulation pump 24... Cooling tower 2...Hot water trailer 6...Hot water delivery port 8...Power receiving terminal 10...Gas engine 12. ... Generator 14 ... Radiator 16 ... Hot water tank 18 ... High temperature water pump 20 ... Cold water tank 23 ... Water supply port 25... Cooling water pump

Claims (1)

[Claims] The heat and power supply equipment that supplies cold, hot, and electric power is configured to be separated into several units, and each of these units is installed on a separate moving trailer, and the piping and wiring between the trailers are configured so that they can be interconnected and separated. A cogeneration device characterized by: