JPH10274396A - Natural gas area utilizing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a natural gas area utilizing system facilitating utilizing of natural gas for a demander in an area with a local city serving as the center. SOLUTION: This system comprises a first storage device 1 set up in an area for storing liquefied natural gas, means 3, 4 for changing liquefied natural gas into compressed natural gas, means for utilizing cold heat generated at change time, and a second storage device 5 for storing changed compressed natural gas. By the LNG low temperature storage device 1, all fuel gas required in the area can be supplied, and cold heat generated in the case of changing LNG into CNG is effectively utilized, to be able to also serve as promotion of district industry.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a new natural gas regional utilization system. More specifically, the present invention relates to a natural gas local use system that facilitates the use of natural gas for local consumers centered on local cities.

[0002]

2. Description of the Related Art In recent years, natural gas has attracted attention as an energy source imported from foreign countries instead of oil. The reason is that natural gas is abundant on the earth and relatively inexpensive to obtain, but its use is still inadequate. Recently, however, natural gas has become more environmentally safe than petroleum due to environmental pollution measures as air pollution and exhaust gas pollution have become a problem.
Various studies have been made on its use.

[0003] In the case of consumers, mainly households, the currently popular gaseous fuel source is usually city gas or liquefied petroleum gas (so-called LPG). That is, in regions where city gas is not widely used, liquefied petroleum gas is used as a fuel source instead of city gas. In this case, liquefied petroleum gas is usually packed in cylinders at an LPG terminal in a factory that separates and refines petroleum gas produced as a by-product during oil refining. It is delivered individually and used there as a fuel source. As described above, liquefied petroleum gas is used more frequently in local cities with relatively low artificial density than in large cities, so it has the disadvantage that liquefied petroleum gas delivery distance to consumers is longer. I have. Due to these distribution problems, liquefied liquid petroleum gas is not suitable as a fuel source used in large quantities by consumers, and its use is mostly limited to household cooking only. It is not widely used for cooking, heating and cooling, bathroom, etc. as in the case of gas. In addition, city gas is supplied to each household by a pipeline supply system set up for each customer and is widely used, but it is necessary to establish a city gas supply system including the installation of pipelines. There is a problem that the initial investment is enormous.

On the other hand, liquefied natural gas (so-called LNG), which has recently been attracting attention as a clean fuel source, has a boiling point of -160 ° C., which is extremely low as compared with LPG, and is a very volatile substance. Problems such as the need for special cryogenic containers for storage and transport, the difficulty of handling due to the pressure created by evaporation,
Since the calorific value is less than half that of LPG, there is a problem that it is not possible to use a normal kitchen stove, and at present, it is mainly used in city gas or used as fuel for thermal power plants. It is limited to industrial use only and has not yet been used for home use.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to provide a natural gas regional utilization system which facilitates the utilization of natural gas for local customers centering on local cities.

The inventors of the present invention have conducted intensive studies to solve the above-mentioned problems of the prior art, and as a result, a new natural gas regional utilization system using liquefied natural gas which has not been conventionally used as a fuel source alone. It has been found that the above purpose can be achieved by the establishment of. The present invention has been completed based on these findings.

[0007]

According to the present invention, there is provided a natural gas area utilization system for facilitating the use of natural gas to local customers centering on a local city, which is installed in the area. A first storage device for storing liquefied natural gas, a means for converting the liquefied natural gas to compressed natural gas, a means for utilizing cold generated during the conversion, Second for storing gas
And a storage device for the natural gas.

The present invention relates to a novel natural gas local utilization system using liquefied natural gas which has not been utilized as a gaseous fuel source in the past. Preferred embodiments thereof include the following. Is done.

(1) A first storage device installed in the area for storing liquefied natural gas, means for converting the liquefied natural gas into compressed natural gas, and cold generated during the conversion And a second storage device for storing the converted compressed natural gas, wherein the first storage device is an underground large tank. The above-mentioned natural gas area utilization system.

(2) A first storage device installed in the area for storing liquefied natural gas, means for converting the liquefied natural gas into compressed natural gas, and cold generated during the conversion And a second storage device for storing the converted compressed natural gas, wherein the means for converting the liquefied natural gas to the compressed natural gas is evaporated. The above-mentioned natural gas regional utilization system, which is a carburetor device utilizing heat obtained by burning at least a part of exhaust gas (so-called boil-off gas).

(3) A first storage device installed in the area for storing liquefied natural gas, means for converting the liquefied natural gas into compressed natural gas, and cold generated during the conversion And a second storage device for storing the converted compressed natural gas, wherein the means for utilizing cold generated during the conversion uses a refrigerant. The above-mentioned natural gas regional utilization system, which is a heat exchange system.

(4) a first storage device installed in the area for storing liquefied natural gas, means for converting the liquefied natural gas into compressed natural gas, and cold generated during the conversion And a second storage device for storing the converted compressed natural gas, wherein the second storage device for storing the converted compressed natural gas is provided. Is a small-sized pombe having a pressure detection instrument.

(5) A first storage device installed in the area for storing liquefied natural gas, means for converting the liquefied natural gas into compressed natural gas, and cold generated during the conversion And a second storage device for storing the converted compressed natural gas, wherein the compressed natural gas stored in the second storage device is supplied to the customer. The above-mentioned natural gas regional utilization system, further comprising a distribution device for distributing the natural gas to the region.

(6) In the natural gas regional utilization system according to the above (5), the distribution device for distributing the compressed natural gas stored in the second storage device to the customer has a pipeline having a pressure control valve. -The natural gas regional utilization system, which is a system.

(7) In the natural gas area utilization system according to the above (5), a distribution device for distributing the compressed natural gas stored in the second storage device to consumers is a transportable pombe supply system. The above-mentioned natural gas regional utilization system.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a natural gas regional utilization system of the present invention will be described in detail. The system of the present invention includes the following elements.

1. First storage device for storing liquefied natural gas Liquefied natural gas (so-called LNG) is usually mounted on an LNG tank lorry truck or the like and delivered to a first storage device installed in an area centered on a local city. Is done. This first storage device consists of a cryogenic tank for storing liquefied natural gas. LNG is supplied from the tank lorry to the storage cryogenic tank via the unloading arm. If an evaporator is mounted on the tank lorry, the tank is pressurized with the gas generated there and LNG is pumped. If not, the unloading is performed by a pump or the like installed in the low-temperature tank. .

The low-temperature tank may be either an underground storage type or an above-ground storage type, specifically, for example, a pearlite powder-filled vacuum capable of handling a liquid at an extremely low temperature of about -160 ° C. Insulated rigid cylinder type LNG
There are above-ground metal double-shell tanks such as tanks, underground metal double-shell tanks, and special tanks. But eventually
From the viewpoint of local scenery, a large underground tank is particularly desirable.

2. Means for converting liquefied natural gas into compressed natural gas; LNG vaporizer The liquefied natural gas stored in the first storage device is automatically linked to a pressure detecting instrument attached to the second storage device. It is transferred to a carburetor unit by a running high performance pump, where it is converted into compressed natural gas (so-called CNG). The converted compressed natural gas is then sent to a second storage device for storing the compressed natural gas.

As a heating source of the vaporizer, a refrigerant such as chlorofluorocarbon or a heating medium such as air, well water, high-temperature water or steam is used. In this system, in order to make the most of the properties of LNG, the former heat exchange system using a refrigerant is indispensable, and is optimal in terms of thermal efficiency. However, when the demand for cold heat obtained during vaporization is small and the demand for CNG is large, on the other hand, the latter heating medium is additionally required. In this case, high-temperature water or steam is particularly preferred.
The heat source for heating the water is obtained by burning at least a part of the evaporative exhaust gas (so-called boil-off gas) flowing to release the pressure from the low-temperature LNG storage tank in order to improve the efficiency of the heat balance. The heat generated can be utilized. In addition, a part or all of the boil-off gas that has not been subjected to combustion is appropriately compressed by a compressor into a gas holder (gas-liquid mixing tank) installed outside the first storage device for storing vaporized gas. Introduced and again LNG
Collected as source.

Re-liquefaction device for boil-off gas A part of the liquefied natural gas is extracted from the line to the vaporizer device and injected from a nozzle by a gas holder (gas-liquid mixing tank) to contact-absorb the boil-off gas and to remove the boil-off gas. Reliquefy the gas. The liquefied boil-off gas is returned to the LNG storage tank.

3. Means for utilizing cold generated during conversion As means for utilizing cold, a heat exchange system using a refrigerant such as Freon is generally used. In this case, the heat of vaporization that is taken when LNG is converted into CNG is used as cold heat via a refrigerant in various business fields in the region. Specific business fields include the production fields of liquid oxygen and nitrogen, frozen foods, freezing fields such as frozen warehouses, the field of cold storage material production, and the leisure fields such as skating rinks.

4. Second storage device for storing the converted compressed natural gas The compressed natural gas converted by the vaporizer device is appropriately calorie-adjusted with a known calorie-adjusting gas such as propane or butane, or has a known calorific value. After being odorized with the odorant, it is sent to a second storage device for storing the compressed natural gas. Unlike the first storage device, the second storage device does not need to be a large tank, and is preferably a small pombe that can be easily installed on the ground in terms of cost.

The second storage device is provided with a pressure detecting instrument on the outside so that the amount of compressed natural gas stored in the second storage device can be easily detected from the outside. ,
In the case of the automatic type for the purpose of labor saving, when the pressure indicated by the pressure detecting instrument falls below a predetermined value, a high-performance pump automatically operates in conjunction with the pressure detecting instrument, and the first storage device is operated. The liquefied natural gas stored in the liquefied natural gas is transferred to a vaporizer device, where it is converted into compressed natural gas, which is sent to a second storage device for automatic replenishment. On the other hand, when the pressure indicated by the pressure detecting instrument exceeds a predetermined value, the high-performance pump automatically stops, and the replenishment of the compressed natural gas stops. In this case, the operation of the high-performance pump may be a manual operation instead of the automatic operation, but the automatic operation is preferable from the viewpoint of convenience. In the case of the automatic type, the setting of the pressure value, which is a guide for starting and stopping the high-performance pump, is appropriately performed, and the set value does not need to be one limited numerical value. Is preferable.

[5] Other ancillary equipment Distributor for distributing compressed natural gas to consumers Compressed natural gas is supplied from a second storage device to each consumer by a pipeline supply system or a transportable pombe supply system. If there is a customer who consumes compressed natural gas sufficiently near the area where the storage device is installed, the former supply system will suffice, but if it is insufficient,
It is necessary to adopt the latter supply system, and in some cases, the latter supply system without the former may be used. In the former case, it is necessary to install a pressure control valve in the pipeline for distributing the compressed natural gas from the second storage device to the customers in order to make the use of the natural gas safe for each customer. is there. The compressed natural gas reduced to a usable pressure through the pressure control valve is then distributed to each customer. An automatic gas shut-off device, an original gas meter, and the like are installed under each customer as required. Each home, which is the final consumer, is also equipped with a door-to-door gas meter, which is equipped with a controller that automatically collects meter readings from the door-to-door gas meter. On the other hand, in the latter case, the CNG container filled with compressed natural gas is transported to a small city or a depopulated customer in the area and used as a gaseous fuel source. In this case, the container used for transport is
From the viewpoint of cost and transportation, steel or aluminum liner hoop wrap FRP or the like is generally used, and as a form, it is 47 to 50 L more than a large one of 500 to 600 L.
Is relatively small.

Calorific value adjusting device In the case of a typical natural gas [boiling point -160 ° C. (1 atm)], the calorific value is about 10,500 Kcal / m ^3, and the calorific value of the city gas 13A is 11,000 Kca.
In order to adjust the calorific value to about 1 / m ³ , liquefied petroleum gas (L
PG) [calorific value 24,000 Kcal / m ³ , boiling point -4
2 [deg.] C. (1 atm)] to increase the calorific value. In this case, it is possible to mix by any of liquid / liquid mixing, gas / liquid mixing, and gas / gas mixing. However, in this system, from the viewpoint of heat balance, the vaporized liquefied natural gas and the vaporized liquefied natural gas are mixed. It is preferable to adopt a gas / gas mixing method of mixing with petroleum gas. The supply of the vaporized liquefied petroleum gas may be from a filling cylinder, or may be the liquefied petroleum gas vaporized through a vaporizer. As in the case of the LNG vaporizer, the vaporizer for liquefied petroleum gas is also used as a heat source for heating the vaporizer in order to release the pressure from the low-temperature LNG storage tank in order to improve the heat balance efficiency. The heat obtained by burning at least a part of the natural gas including the gas that has flowed out (boil-off gas) can be used. When a liquid / liquid mixing method is adopted, it is necessary to prevent the methanol content in LPG from coagulating.

[0027]

In the conventional LPG cylinder type supply system, a cylinder which is always filled as a fuel gas source is required for each customer. In this system, however, one LNG low temperature installed in the area is required. The storage device can supply all necessary fuel gas in the area,
By effectively utilizing the cold generated when converting NG into CNG, it can be used to promote local industries in the region. Since the replenishment can be done only a few times a year, which is very small, the supply of natural gas can be greatly streamlined, and the effect of saving equipment and improving the landscape of the house can be obtained.

[0028]

The present invention will be described in more detail with reference to the following examples. FIG. 1 is an explanatory view showing an embodiment of the present invention, and the present invention is not limited to the following embodiments.

The liquefied natural gas is transported from the LNG terminal to a predetermined area by a tank lorry truck, where it passes through an unloading arm mounted on the tank lorry truck and is installed at a predetermined location in the area.
Receiving pipe 26 attached to NG low-temperature storage underground tank 1
From the tank 1. The supplied liquefied natural gas is sent by a pump 8 through line 17 to the carburetor 3 and the carburetor 4, where it is converted into compressed natural gas (CNG), which is installed on the ground for storage. Sent to the CNG cylinder 5.

On the other hand, liquefied petroleum gas (LPG) used for adjusting the calorific value of natural gas is sent from the LPG tank 6 to the carburetor 7 through the pipe 18 by the pump 12 to become the vaporized petroleum gas. . And this oil and gas
The compressed natural gas that has been previously converted through the flow control valve 13 is mixed in the delivery pipe 19. The mixed natural gas is
Next, it is odorized by an odorant commonly used in the field of city gas and sent to the CNG tank 5. in this case,
The flow rate of the vaporized liquefied petroleum gas is adjusted by the flow control valve 13 so that the calorific value of the natural gas obtained from the CNG tank 5 becomes a desired value.

The evaporative exhaust gas (boil-off gas) generated in the LNG low-temperature storage underground tank 1 is sent to the gas-liquid mixing tank 2 through the pipe 23 by the compressor 10. In the gas-liquid mixing tank 2, liquefied natural gas is injected from a nozzle 22 through a pipe 21 introduced from the discharge side of the pump 8 in order to reliquefy the boil-off gas. As a result, the liquefied natural gas contacts and absorbs the boil-off gas and reliquefies a portion of the boil-off gas. The liquefied boil-off gas is returned by the pump 9 to the LNG low-temperature storage underground tank 1 through the line 24. The non-reliquefied boil-off gas is used as a heat source for the vaporizers 3, 4, and 7 through the delivery pipe 25, and the remaining boil-off gas is returned to the LNG cold storage underground tank 1 again.

The supply to the customer is performed by the pressure control valve 11 from the CNG cylinder 5 through the delivery pipe 20. An automatic shut-off valve 14 and an original gas meter 15 are installed in the pressure control valve discharge line 20, and an individual gas meter 16 is installed in each home, which is a final consumer. As described above, natural gas is sent to each customer, but the gas meter is provided with a controller, and the meter reading of the door-to-door gas meter is automatically collected.

[0033]

According to the present system, the one installed in the area
One LNG cold storage device can supply all the fuel gas required in the area,
By effectively utilizing the cold generated when converting to NG, it can also be used to promote local industries in the area. Since the replenishment can be done only a few times a year, which is very small, the supply of natural gas can be greatly streamlined, and the effect of saving equipment and improving the landscape of the house can be obtained. As a result, in addition to utilizing cold heat, natural gas, which has not been conventionally used as a fuel source by itself, can be used simply and widely not only for cooking but also for heating and cooling, and for bathrooms.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing one embodiment of a natural gas regional utilization system of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 LNG low temperature storage tank 2 LNG gas-liquid mixing tank 3, 4 Vaporizer 5 CNG cylinder 6 LPG storage tank 7 Vaporizer 8, 9 Pump 10 Compressor 11 Pressure control valve 12 Pump 13 Flow control valve 14 Automatic shut-off valve 15 Original gas meter 16 Gas meter for each house 17-19 Pipeline 20 Delivery pipe 21 Pipeline 22 Nozzle 23, 24 Pipeline 25 Delivery pipe 26 Receiving pipe

Claims (1)

[Claims] 1. A natural gas local use system for facilitating the use of natural gas to local customers centering on a local city, comprising: a first system for storing liquefied natural gas installed in the region; Storage device, means for converting the liquefied natural gas into compressed natural gas, means for utilizing cold generated during the conversion, and second storage for storing the converted compressed natural gas And a natural gas regional utilization system, comprising: