JPH1119504A - Assembly of complex basic industry plants of different types of business - Google Patents

Abstract

PROBLEM TO BE SOLVED: To raise energy efficiency and reduce waste emitted to an environment as much as possible by realizing connection and complex by conveyance means for supplying part of or all of products, byproducts or waste of a plant to another plant as fuel, power source or raw material for product. SOLUTION: A conveyance means 3 is installed or arranged between plants R, P, C, S in a plant assembly 2. For example, a pipeline in the case of conveying a fluid such as fuel, an electric wire in the case of supplying electric power and a belt conveyor, truck and freight train in the case of transferring other products, byproducts and the like are employed, i.e., an appropriate conveyance means can be chosen according to each object for conveyance. The conveyance means 3 supplies part of or all of products, byproducts or waste of a plant R, P, C, S to another plant as fuel, power source or raw material for product. For example, electric power consumed in an iron-making plant S is supplied from a heavy oil firing power generation plant P via an electric wire as a conveyance means 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the location and construction of a plurality of different industry-based industrial plants such as petroleum refining, heavy oil or coal-fired power generation, cement and steel making.

[0002]

2. Description of the Related Art The construction of a petrochemical complex represented by the 1950's was built in a coastal area adjacent to a petroleum refining plant and a petrochemical plant. Naturally, there is a limit to the organic coupling between the plants, that is, the mutual effective use of energy such as electricity and fuel and also waste.

[0003] On the other hand, an iron making plant, a steel making plant and a power plant were often constructed adjacent to the complex, but each plant was often operated independently, and as a whole, heat And the energy use efficiency of electricity was not always good. Furthermore, most of the waste is moved to another place and left for disposal, and its effective use has not been considered.

[0004] Regarding the combination technology of plants, as in Japanese Patent No. 2,576,006, "power generation method", while improving the thermal efficiency of power generation, steam power generation and gas turbine power generation using low-sulfur crude oil corresponding to energy saving and global warming. There is a proposal for a plant in which an atmospheric distillation facility is provided in conjunction with the above.

Further, as disclosed in Japanese Patent Application Laid-Open No. 9-87640, "residue oil treatment apparatus", exhaust gas from a diesel engine which generates electric power with high efficiency by effectively utilizing the heat energy held by normal pressure residual oil and the like. A system that uses a Web browser has also been proposed.

On the other hand, Japanese Patent Laid-Open Publication No. 63-26098
As in No. 2 "Method of detoxifying flammable organic wastes for harmless pyrolysis gas reduction and supply", flammable organic wastes generated in industrial parks are pyrolyzed and gasified, and this low-pressure hydrocarbon is converted into There is also proposed a method of supplying to companies.

[0007] However, these techniques are aimed at energy saving, prevention of global warming, suppression of harmful substances, and the like by combining plants or equipment, and are used for relatively large-scale society. By constructing several basic industrial plants close to each other, the energy, products, by-products, and even wastes between each plant can be effectively used comprehensively, and hazardous waste outside the system There was no plant configuration that minimized material emissions.

[0008]

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and has been made in consideration of the above-mentioned problems, and has been made on the social infrastructures of a plurality of different industries such as petroleum refining, heavy oil or coal-fired power generation, cement and steel making. Energy efficient industrial plants
It is an object of the present invention to provide a plant assembly that minimizes waste discharged into the environment.

[0009]

According to the first aspect of the present invention,
A cross-industrial complex basic industrial plant aggregate, a plant aggregate in which a heterogeneous basic industrial plant including a petroleum refinery plant, a heavy oil-fired power plant, a cement plant and a steelmaking plant is provided close to or adjacent to the plant, It is characterized in that the product, by-product or waste of each plant is partially or entirely combined and combined by means of transportation for supplying fuel, power source or product raw material of the other plant. If the plants are provided adjacent to one another, the cost of the means of transport is reduced and it is more efficient.

The invention according to claim 2 is characterized in that each of the plants is located in a seaside area and has shared port facilities. The invention according to claim 3 is characterized by having a product supply facility for supplying a product of each of the plants to the outside of the area of the plant assembly. According to a fourth aspect of the present invention, there is provided a waste treatment facility for treating waste generated in and / or outside the area of the plant assembly.

According to a fifth aspect of the present invention, there is provided an exhaust gas treatment facility for batch-treating exhaust gas as gaseous waste generated from each of the above-mentioned petroleum refining plants, heavy oil-fired power plants, cement plants, and steelmaking plants. .

According to a sixth aspect of the present invention, in the exhaust gas treatment facility, exhaust gas as gaseous waste generated from each of the petroleum refining plants, heavy oil-fired power plants, cement plants, and steelmaking plants is subjected to batch desulfurization treatment to remove harmful substances. And a transportation means for supplying gypsum as a by-product to the cement plant.

[0013] The invention according to claim 7 is to collectively treat liquid waste generated from each of the petroleum refining plants, heavy oil-fired power plants, cement plants and steelmaking plants to remove harmful substances and to contain the harmful substances. A wastewater treatment facility for supplying generated sludge to the cement plant.

The invention according to claim 8 is characterized in that the petroleum refining plant uses gasoline obtained by subjecting a fraction other than atmospheric residual oil to a batch hydrodesulfurization treatment using crude oil as a raw material.
A plant for producing each product of kerosene and gas oil, wherein at least one of sludge waste from a storage tank of each product, spent catalyst waste and gas waste generated from the lump hydrodesulfurization unit is provided. In addition to having transport means for supplying the cement plant, it has a transport means for supplying heavy oil or normal pressure residual oil as fuel to at least one of the heavy oil-fired power plants, cement plants and steelmaking plants. .

According to a ninth aspect of the present invention, the fuel oil-fired power plant is a manufacturing plant that uses heavy oil or atmospheric residual oil, which is a product from the petroleum refining plant, as fuel to produce electric power, It has a transportation means for supplying electric power to each oil refining plant, cement plant, and steelmaking plant. The invention according to claim 10 is
The heavy oil-fired power plant has a transportation means for supplying steam or hot water as heat to the petroleum refining plant.

According to an eleventh aspect of the present invention, the iron making plant is a plant for producing steel products in an electric furnace mainly using scrap iron as a raw material, and slag and dust generated from the iron making plant are sent to the cement plant. It has a transportation means for supplying.

According to a twelfth aspect of the present invention, the cement plant is a plant for mainly producing Portland cement using limestone as a main raw material, wherein heavy oil or normal pressure residual oil of the petroleum refining plant is used as a fuel in the firing step. And using gaseous waste, the spent catalyst waste from the petroleum refining plant, sludge waste from the storage tank, and slag and dust waste from the steelmaking plant as part of an auxiliary material or fuel. And at least one of gypsum as a by-product from the exhaust gas treatment facility and sludge from the waste liquid treatment facility is used.

A thirteenth aspect of the present invention is a multi-industrial complex basic industrial plant assembly, wherein a non-industrial basic industrial plant including a coal-fired thermal power plant, a cement plant and a steelmaking plant is provided close to or adjacent to the plant. A plant assembly, which is formed by being combined and combined by a transportation means for supplying a part or all of the products, by-products, or wastes of the respective plants as fuel, power source or product raw material of the other plants. It is characterized by that. If the plants are provided adjacent to one another, the cost of the means of transport is reduced and it is more efficient.

According to a fourteenth aspect of the present invention, each of the plants is located in a seaside area and has shared port facilities. The invention according to claim 15 is characterized in that it has a product supply facility for supplying the product of each plant to the outside of the area of the plant assembly. The invention according to claim 16 is characterized in that it has a waste treatment facility for treating waste generated in and / or outside the area of the plant assembly.

According to a seventeenth aspect of the present invention, there is provided an exhaust gas treatment facility for batch-treating exhaust gas as gaseous waste generated from each of the coal-fired thermal power plants, cement plants and steelmaking plants.

The invention according to claim 18 is that, in the exhaust gas treatment facility, exhaust gas as gas waste generated from each of the coal-fired thermal power plants, cement plants, and steelmaking plants is subjected to batch desulfurization treatment to remove harmful substances. And a transportation means for supplying gypsum as a by-product to the cement plant.

According to a nineteenth aspect of the present invention, liquid waste generated from each of the coal-fired thermal power plants, cement plants, and steelmaking plants is collectively treated to remove harmful substances, and sludge containing the harmful substances is produced. Wastewater treatment equipment for supplying the wastewater to the cement plant.

According to a twentieth aspect of the present invention, the coal-fired thermal power plant is a power plant using coal as fuel, and has a transportation means for supplying power to the steelmaking plant and the cement plant. A transportation means for supplying coal incineration ash to the cement plant.

According to a twenty-first aspect of the present invention, the steelmaking plant is a plant for producing steel products mainly from scrap iron by using an electric furnace, a continuous casting machine, and a rolling mill,
It has a transportation means for supplying slag and dust generated from the iron making plant to the cement plant.

According to a twenty-second aspect of the present invention, the cement plant is a plant for mainly producing Portland cement using limestone as a main raw material, wherein the coal-fired thermal power plant is used as an auxiliary raw material or a part of fuel during the production process. At least one of incineration ash generated in a power plant, slag and dust waste from the iron making plant, gypsum as a by-product from the exhaust gas treatment facility, and sludge from the waste liquid treatment facility is used. It is characterized by the following.

According to the first aspect of the present invention, energy, products, by-products, and waste can be comprehensively and effectively utilized among the plants in the plant assembly, and the plant assembly can be effectively used. Hazardous waste emissions to the outside of the body can be minimized. Further, the transportation means, management equipment, and the like of each plant can be shared in the plant assembly.

According to the second aspect of the present invention, since each plant is located in the seaside area and each of the plants has a shared harbor facility, receiving of the raw materials of each plant and shipment of the products are centralized. be able to.

According to the third aspect of the present invention, since there is provided a product supply facility for supplying a product of each plant outside the area of the plant aggregate, the shipment of products can be centralized within the plant aggregate. Can be.

According to the fourth aspect of the present invention, since there is a waste treatment facility for treating waste generated inside and / or outside the area of the plant assembly or any one of them, an environmentally friendly type is provided. Regional comprehensive development.

According to the fifth aspect of the present invention, since there is an exhaust gas treatment facility for collectively treating exhaust gas as gaseous waste generated from each plant of the plant assembly to remove harmful substances, the exhaust gas is generated from each plant. The processing of gaseous waste can be centralized.

According to the sixth aspect of the present invention, in the exhaust gas treatment equipment, exhaust gas as gas waste generated from each plant in the plant assembly is subjected to batch desulfurization treatment to remove harmful substances, and as a by-product. The transportation means for supplying gypsum to the cement plant, it is possible to centralize the processing of gaseous waste generated from each plant, and minimize the amount of hazardous waste discharged to the outside of the plant assembly. can do.

According to the seventh aspect of the present invention, waste liquid treatment equipment for simultaneously processing liquid waste generated from each plant to remove harmful substances and supplying sludge containing the harmful substances to a cement plant. Therefore, the treatment of liquid waste generated from each plant can be centralized, and the amount of discharge of hazardous waste to the outside of the plant assembly can be minimized.

According to the invention of claim 8, at least one of sludge waste from a storage tank of each product of a petroleum refining plant, spent catalyst waste generated from a batch hydrodesulfurization unit, and gaseous waste Can be supplied to a cement plant, and heavy oil or atmospheric residual oil can be supplied as fuel to at least one of each heavy oil-fired power plant, cement plant and steelmaking plant. The waste generated can be treated in the plant assembly, and heavy oil or atmospheric residual oil generated in the plant can be effectively used as fuel in other plants in the plant assembly.

According to the ninth aspect of the present invention, heavy oil or atmospheric residual oil, which is a product from a petroleum refining plant, and electric power and heat from a heavy oil-fired power plant are effectively used in other plants in the plant assembly. be able to.

According to the tenth aspect of the present invention, since the heavy oil-fired power plant has transportation means for supplying steam or hot water as heat to the petroleum refining plant, the heat from the heavy oil-fired power plant is transferred to the oil in the plant assembly. It can be effectively used for a normal pressure distillation column or the like in a refining plant.

According to the eleventh aspect of the present invention, since the slag and the dust generated from the iron making plant are provided to the cement plant, the slag and the dust as by-products or waste generated in the plant are provided. Can be effectively used in a cement plant in a plant assembly.

According to the twelfth aspect of the present invention, in a cement plant, products and wastes of other plants in the plant assembly can be used as auxiliary raw materials or fuel. The waste and the waste can be used comprehensively and effectively, and the amount of hazardous waste discharged to the outside of the plant assembly can be reduced.

According to the thirteenth aspect of the present invention, energy, products, by-products, and waste can be comprehensively and effectively utilized among the plants of the plant assembly, and the plant assembly can be efficiently utilized. Hazardous waste emissions to the outside can be minimized. In addition, the transportation means, management equipment, and the like of each plant can be shared within the plant assembly.

According to the fourteenth aspect of the present invention, since each plant is located in the seaside area and has a shared port facility, it is possible to centralize the receiving of the raw material of each plant and the shipping of the product.

According to the fifteenth aspect of the present invention, since there is provided a product supply facility for supplying the products of each plant to the outside of the area of the plant assembly, the shipment of the products can be centralized in the plant assembly. .

According to the sixteenth aspect of the present invention, since there is a waste treatment facility for treating waste generated inside and / or outside the area of the plant assembly or any one of them, an environmentally friendly type is provided. Regional comprehensive development.

According to the seventeenth aspect of the present invention, since there is an exhaust gas treatment facility for collectively treating exhaust gas as gaseous waste generated from each plant of the plant assembly to remove harmful substances, the exhaust gas is generated from each plant. The processing of gaseous waste can be centralized.

According to the eighteenth aspect of the present invention, in the exhaust gas treatment facility, exhaust gas as gas waste generated from each plant in the plant assembly is subjected to batch desulfurization treatment to remove harmful substances, and as a by-product. The transportation means for supplying gypsum to the cement plant, it is possible to centralize the processing of gaseous waste generated from each plant, and minimize the amount of hazardous waste discharged to the outside of the plant assembly. can do.

According to the nineteenth aspect of the present invention, waste liquid treatment equipment for simultaneously processing liquid waste generated from each plant to remove harmful substances and supplying sludge containing the harmful substances to a cement plant. Therefore, the treatment of liquid waste generated from each plant can be centralized, and the amount of discharge of hazardous waste to the outside of the plant assembly can be minimized.

According to the present invention, the electric power from the coal-fired thermal power plant is supplied to the steel making plant and the cement plant, and the coal incineration ash from the coal-fired thermal power plant is supplied to the cement plant. Therefore, energy can be effectively and comprehensively used in the plant assembly, and the amount of hazardous waste discharged to the outside of the plant assembly can be reduced as much as possible.

According to the twenty-first aspect of the present invention, slag and dust as by-products or waste generated in the plant are provided because the slag and the dust generated from the steel plant are provided to the cement plant. Can be effectively used in a cement plant in a plant assembly.

According to the twenty-second aspect of the present invention, in a cement plant, waste from another plant in the plant assembly can be used as an auxiliary material or fuel. And the amount of hazardous waste discharged to the outside of the plant assembly can be reduced.

[0048]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a specific example of an embodiment of a multi-industry complex basic industrial plant aggregate according to the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram showing an overall configuration of a first embodiment of a multi-industry complex basic industrial plant aggregate according to the present invention. In this embodiment, the multi-industrial complex basic industrial plant aggregate 1 mainly includes an oil refining plant R
And heavy oil-fired power plant P and cement plant C
And a plant assembly 2 in which these plants are provided adjacent or adjacent to each other, and a part or all of the products, by-products, or wastes of each of the above-mentioned plants, Transportation means 3 for supplying as fuel, power source or product raw material, shared harbor facilities 4 for collectively receiving and shipping product raw material of each plant, and each plant in plant assembly 2 Products in urban areas 20 and industrial parks 30 where other industries are concentrated,
Product supply equipment 5 for supplying to airports 40, etc., industrial parks 30 where urban areas 20 and other industries are concentrated, and airports 4
0 and the like.

As shown in FIG. 2, the petroleum refining plant R uses gasoline Pr obtained from crude oil Rr as a raw material and collective hydrodesulfurization of fractions other than atmospheric residual oil by atmospheric distillation.
1. This is a plant that manufactures each product of kerosene Pr2, light oil Pr3, and normal pressure residual oil Pr4. Besides, LP gas or the like (not shown) may be obtained. A sludge waste Wr1 is generated from a storage tank (not shown) of each product, and a spent catalyst waste Wr2 and an acid gas Wr3 as gaseous waste are produced from a lump hydrodesulfurization device (not shown) in the petroleum refining plant R. And a waste liquid Wr4 is also generated at the same time. Further, exhaust gas Gr is generated in the atmospheric distillation step and the like. The wastes Wr1 to Wr4 and the exhaust gas G
Conventionally, r may be individually discarded outside the plant. In addition, the whole of the normal pressure residual oil, or a product containing the normal pressure residual oil in a part thereof may be generally referred to as heavy oil, but in the following description, those described as the normal pressure residual oil include: Heavy oil in this sense shall be included.

As shown in FIG. 3, the heavy oil-fired power plant P uses the normal pressure residual oil Fp or heavy oil as a fuel to rotate the turbine by the generated steam to generate electric power Pp.
At the same time, the exhaust gas Gp
Is generated, and a waste liquid Wp is further generated. Conventionally, exhaust gas G
Each of p and the waste liquid Wp was treated inside the plant.

As shown in FIG. 4, the cement plant C uses a cement clinker obtained by firing a raw material such as limestone Rc1 using heavy oil Fc as a fuel.
Portland cement Pc by adding c2 etc.
Conventionally, the waste gas Gc generated from a firing furnace (not shown) and the waste liquid Wc generated from other manufacturing equipment in the plant need to be separately disposed separately outside the plant. was there.

Further, as shown in FIG. 5, the iron making plant S mainly uses scrap iron Rs as a raw material in an electric furnace and a rolling mill (not shown) to generate electric power Es and heavy oil Fs as fuel.
A plant that produces steel products while consuming
In the same manner as in the above-described plant, exhaust gas Gs is generated, and slag Ws1, dust Ws2, and waste liquid Ws3 are generated, and these gaseous waste Gs, solid waste Ws1, and Ws3 are generated.
Conventionally, some liquid waste Ws3 has been individually and separately disposed outside the plant.

The transportation means 3 shown in FIG. 1 is installed or arranged between each plant in the plant assembly 2, and is a pipeline when transporting a fluid such as fuel, for example. When supplying electric power, it is an electric wire, and when transporting other by-products, waste, etc., it is a belt conveyor, truck, freight car, etc. Selected.

The common port facility 4 is provided at a position close to the plant assembly 2 for receiving the product raw materials of each plant in the plant assembly 2 and shipping the product of each plant. Shared by each plant within.

As described above, the product supply equipment 5 collects gasoline, kerosene, light oil, electric power, hot water, steam and the like as products of each plant in the plant assembly 2 by the urban area 20 and other industries. It is provided to supply to the industrial park 30, the airport 40, etc., which are located in the city. Instead, it is of course possible to ship the products directly from each plant to the urban area 20 or the like.

Further, as described above, the waste treatment facility 6
Industrial park 30, where urban areas 20 and other industries are concentrated,
It is provided to treat waste generated at the airport 40 or the like. The waste from the urban area 20 or the like is once collected in the waste treatment facility 6 and transported to each plant in the plant assembly 2 by the transport means 3. After processing. For example,
Assuming that the waste treatment facility 6 is an incinerator, the required electric power is obtained from the heavy oil-fired power plant P, and the incinerated ash can be treated in the cement plant C. Further, it is of course possible to directly transport wastes from the urban area 20 to each plant for treatment.

Next, the plant assembly 2 in the first embodiment of the multi-industrial complex basic industrial plant assembly according to the present invention.
Of the flow of material between each plant in the plant
It will be described with reference to FIG. 6 together with other equipment provided therein.

The waste liquid treatment equipment 8 collectively treats liquid waste generated from each of the petroleum refining plants R, heavy oil-fired power plants P, cement plants C, and steelmaking plants S to remove harmful substances and remove treated water outside the system. And the generated sludge W8 containing the harmful substance is supplied to the cement plant C.

The waste gas processing equipment 9 collectively processes exhaust gas, which is gas waste generated from each of the petroleum refining plants R, the heavy oil-fired power plant P, the cement plant C, and the steelmaking plant S, to remove harmful substances such as NOx and SOx. Is removed from the system through a chimney (not shown), and gypsum W9 obtained as a by-product after desulfurization is supplied to the cement plant C.

As described above, the petroleum refining plant R produces gasoline Pr1, kerosene Pr2, light oil Pr3, atmospheric residual oil Pr4, and the like using the crude oil Rr as a raw material. The fuel is supplied to each heavy oil-fired power plant P, the cement plant C, and the steelmaking plant S via a pipeline (not shown) as No. 3 or is individually transported to a tank.

Further, sludge waste Wr1, waste catalyst Wr2, acid gas W
r3 is supplied to the cement plant C as an auxiliary material or fuel. Therefore, these wastes conventionally treated individually outside the plant can be partially or entirely treated in the plant assembly 2.

Further, the waste liquid Wr4 is processed in the waste liquid treatment equipment 8 shared by each plant in the plant assembly 2. On the other hand, the exhaust gas Gr generated in the petroleum refining plant R is processed in the exhaust gas treatment equipment 9 shared by the plants in the plant assembly 2.

As described above, the heavy oil-fired power plant P uses the heavy oil or the normal pressure residual oil Fp as a fuel to rotate the turbine by the generated steam to generate the electric power Pp. The oil Fp is the normal pressure residual oil Pr4 supplied from the petroleum refining plant R via a pipeline as the transportation means 3. Also in the heavy oil-fired power plant P, the waste liquid Wp is treated in the waste liquid treatment facility 8 as in the case of the oil refinery plant R,
The exhaust gas Gp is treated in the exhaust gas treatment equipment 9.

The iron making plant S produces a product Ps using scrap iron Rs and the like as a raw material by using an electric furnace, a continuous casting machine, and a rolling mill. The product Ps is consumed in the electric furnace, the continuous casting machine, and the rolling mill. The electric power Es is supplied from the heavy oil-fired power plant P via electric wires as the transportation means 3. The heavy oil Fs consumed in the same plant includes the normal pressure residual oil P supplied from the petroleum refining plant R via the transportation means 3.
r4 is used. Further, the slag Ws1 and the dust Ws2 generated in the iron making plant S are used and processed as raw materials in the cement plant C. Therefore, in the present invention, the slag Ws1 and the dust Ws2, which have been separately treated outside the steelmaking plant S petroleum, can be treated in the plant assembly 2 in the present invention.

The cement plant C produces Portland cement Pc by adding gypsum Rc2 or the like to a cement clinker obtained by firing a raw material such as limestone Rc1 using heavy oil Fc as a fuel as described above. The gypsum Rc2 is supplied from the waste gas treatment facility 9. Further, in addition to limestone Rc1, etc., sludge waste Wr1, waste catalyst W generated in the petroleum refining plant R, etc.
r2 is used as a raw material. Further, slag Ws1 and dust Ws2 as by-products or waste generated in the steelmaking plant S described later can also be used as raw materials. Therefore, part or all of the by-products and wastes generated in the petroleum refining plant R and the steelmaking plant S can be treated in the plant assembly 2.

Further, in the cement plant C, the heavy oil Fc as fuel is supplied from the oil refining plant P supplied from the petroleum refining plant R via a pipeline as the transportation means 3.
r4, which is also an acidic gas Wr3 generated in the petroleum refining plant R, can be used as fuel. Therefore, in the present invention, the acid gas Wr3 that has been conventionally separately processed outside the petroleum refining plant R is
It can be processed in the plant assembly 2.

Further, in the cement plant C,
The waste liquid Wc is treated in the waste liquid treatment equipment 8, and the exhaust gas G
c is treated in an exhaust gas treatment facility 9.

As described above, energy and fuel are effectively used in each plant in the plant assembly 2, and gas and liquid waste generated in the plant assembly 2 are discharged from the waste liquid treatment facility 8 and the waste gas treatment facility, respectively. 9
The gypsum and wastewater sludge are effectively used as a part of the cement raw material.

FIG. 7 is a schematic diagram showing the overall configuration of a second embodiment of the complex-industrial complex industrial plant assembly according to the present invention. In the present embodiment, the cross-industrial complex basic industrial plant assembly 11 mainly includes a coal-fired thermal power plant P ′.
, A cement plant C, and a steel plant S, and a plant assembly 12 in which these plants are provided close to or adjacent to each other, and a part or all of the products, by-products, or wastes of the respective plants. Said other plant fuel,
Transportation means 3 for supplying as power source or product raw material
In addition, a common port facility 4 for collectively receiving and shipping product raw materials of each plant and shipping products, and an urban area 20 and other industries integrate products of each plant in the plant assembly 12. Product supply equipment 5 for supplying industrial parks 30, airports 40, etc., and waste treatment for treating waste generated in industrial parks 30, airports 40, etc. where urban areas 20 and other industries are concentrated. It is composed of equipment 6. In this embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description is omitted.

As shown in FIG. 8, the coal-fired thermal power plant P ′ uses the coal Fp ′ as a fuel to rotate the turbine by the generated steam to generate electricity Pp ′. Exhaust gas Gp 'is generated, and furthermore, coal ash Wp'1 and waste liquid Wp are generated from the combustion apparatus and other equipment by the combustion of coal Fp'.
Each was individually disposed of outside the plant.

The cement plant C and the steel plant S have the same configuration as in the first embodiment. However, in both plants C and S in this embodiment, heavy oil is not used as fuel, and coal Fp 'used as fuel in the coal-fired thermal power plant P' is used.
Are also used as fuels Fc ′ and Fs ′.

The transportation means 3 shown in FIG. 7 is installed or arranged between the plants in the plant assembly 12. In this embodiment, in order to use coal as fuel, a belt conveyor is used. Or, it is a truck transport, if it supplies electricity, it is an electric wire, and if it transports other by-products, waste, etc., it is a belt conveyor, truck, freight car, etc. Transportation means are appropriately selected. In addition, common port facilities 4, product supply facilities 5,
The waste treatment facility 6 has the same configuration as that of the first embodiment.

Next, the plant assembly 1 in the second embodiment of the multi-industry complex basic industrial plant assembly according to the present invention.
The flow of a substance between the plants in the plant 2 together with other equipment provided in the plant assembly 12 will be described with reference to FIG.

The waste liquid treatment equipment 8 collectively treats liquid waste generated from each of the coal-fired thermal power plants P ′, the cement plant C, and the steelmaking plant S to remove harmful substances and discharge treated water out of the system. At the same time, the generated sludge W8 containing the harmful substance is supplied to the cement plant C.

The waste gas treatment equipment 9 collectively treats exhaust gas, which is gaseous waste generated from each of the coal-fired thermal power plants P ′, the cement plant C, and the steelmaking plant S, to obtain NO.
Toxic substances such as x and SOx are removed and discharged out of the system through a chimney (not shown), and gypsum W9 obtained as a by-product after desulfurization is supplied to the cement plant C.

As described above, the coal-fired thermal power plant P 'uses the coal Fp' as a fuel to rotate the turbine by the generated steam to generate electricity Pp '. (See FIG. 7). The coal ash Wp′1 generated in the coal-fired thermal power plant P ′ is processed as a product raw material in the cement plant C, and the exhaust gas Gp is converted into the exhaust gas treatment equipment 9.
Is processed in

The iron making plant S produces a product Ps using scrap iron Rs and the like as a raw material using an electric furnace and a rolling mill, as in the first embodiment. The electric power Es is supplied from a coal-fired thermal power plant P ′ as a transportation means 3 via electric wires. Further, the slag Ws1 and the dust Ws2 generated in the iron making plant S are used and processed as raw materials in the cement plant C.

The cement plant C produces Portland cement Pc by adding gypsum Rc2 to cement clinker obtained by calcining a raw material such as limestone Rc1 using coal Fc as a fuel as described above.
This gypsum Rc2 is supplied from the waste gas treatment facility 9 as in the first embodiment. Further, in addition to the limestone Rc1 and the like, coal ash Wp′1 generated in the coal-fired thermal power plant P ′ is used as a raw material. Further, slag Ws1 and dust Ws2 as by-products or waste generated in the steelmaking plant S described later can also be used as raw materials. Therefore, part or all of the by-products and waste generated in the coal-fired thermal power plant P ′ and the steelmaking plant S can be treated in the plant assembly 2.

In the cement plant C, the coal Fc ′ used as fuel is the one received from the common port facility 4 via a belt conveyor or the like as the transportation means 3. Further, also in the cement plant C, the waste liquid Wc is treated in the waste liquid treatment facility 8, and the exhaust gas Gc is treated in the exhaust gas treatment facility 9.

As described above, energy and fuel are effectively used in each plant in the plant assembly 12, and gas and liquid waste generated in the plant assembly 12 are discharged from the waste liquid treatment facility 8, the waste gas treatment facility, respectively. The wastewater is treated and detoxified by 9 and by-product gypsum and wastewater sludge are effectively used as a part of the cement raw material.

Further, in this embodiment, since coal is used as fuel in each plant in the plant assembly 12, waste generated in the plant assembly 12 is substantially eliminated in the plant assembly 12. , And need not be processed outside the plant assembly 12.

[0082]

According to the first aspect of the present invention, energy, products, by-products, and waste can be comprehensively and effectively utilized among the plants in the plant assembly. The energy efficiency of the whole body is improved, which can contribute to energy saving, and the emission of harmful waste to the outside of the plant assembly can be reduced as much as possible. In addition, since the transportation means and management equipment of each plant can be shared within the plant aggregate, the required site area of the entire plant aggregate can be reduced, and efficient land use can be achieved. It is possible to provide a multi-industry complex basic industrial plant aggregate that can reduce investment costs and operation costs while making it possible.

According to the second aspect of the present invention, it is possible to centralize the reception of product raw materials and the shipment of products in each plant, so that the required area of the whole site can be reduced, and efficient land use can be achieved. While we can plan the use,
It is possible to provide a multi-industry complex basic industrial plant aggregate that can reduce investment costs and operation costs.

According to the third aspect of the present invention, since the shipment of products can be centralized in the plant assembly, the total required land area can be reduced, and efficient land use can be achieved. It is possible to provide a multi-industrial complex base industrial plant aggregate that can achieve investment cost and operation cost while reducing the cost.

According to the fourth aspect of the present invention, since there is provided a waste treatment facility for treating waste generated inside and / or outside the area of the plant assembly or any one of them, the environmental symbiosis is achieved. It is possible to provide a type of multi-industrial complex base industrial plant assembly.

According to the fifth aspect of the present invention, since the processing of gaseous waste generated from each plant can be centralized, it is possible to reduce the entire required site area,
It is possible to provide a multi-industry complex basic industrial plant aggregate that can efficiently use land and reduce investment costs and operation costs.

According to the sixth aspect of the present invention, since the processing of gaseous waste generated from each plant can be centralized, the total required site area can be reduced,
Efficient land use can be achieved, investment costs and operating costs can be reduced, and the amount of hazardous waste discharged to the outside of the plant assembly can be minimized. It is possible to provide a multi-industry complex basic industrial plant assembly that can achieve integrated regional development.

According to the seventh aspect of the present invention, since the processing of liquid waste generated from each plant can be centralized, the total required site area can be reduced.
Efficient land use can be achieved, investment costs and operating costs can be reduced, and the amount of hazardous waste discharged to the outside of the plant assembly can be minimized. It is possible to provide a multi-industry complex basic industrial plant assembly that can achieve integrated regional development.

According to the eighth aspect of the present invention, waste generated from a petroleum refining plant can be processed in the plant assembly, and heavy oil or atmospheric residual oil generated in the plant can be used as fuel for the plant assembly. Can be effectively used in other plants, it is possible to minimize the amount of hazardous waste discharged to the outside of the plant assembly, and to achieve environmentally symbiotic integrated regional development. The energy efficiency of the entire plant assembly can be improved because the energy can be used comprehensively and effectively between the different plants, and it is possible to provide a multi-industry complex basic industrial plant assembly that can contribute to energy saving. it can.

According to the ninth aspect of the present invention, heavy oil or atmospheric residual oil, which is a product from a petroleum refining plant, and electric power and heat from a heavy oil-fired power plant are effectively used in other plants in the plant assembly. Therefore, the energy efficiency of the entire plant assembly can be improved, and a multi-industry complex basic industrial plant assembly that can contribute to energy saving can be provided.

According to the tenth aspect of the present invention, since the heat from the heavy oil-fired power plant can be effectively used in the oil refinery plant in the plant assembly, the energy efficiency of the entire plant assembly can be improved, and energy can be saved. It is possible to provide a multi-industry complex basic industrial plant aggregate that can contribute to the business.

According to the eleventh aspect of the present invention, the by-products and wastes from the steelmaking plant can be used comprehensively and effectively, so that the energy efficiency of the entire plant assembly is improved, contributing to energy saving. It is possible to provide a multi-industry complex basic industrial plant assembly that can achieve environmentally harmonious integrated regional development because it can reduce the amount of hazardous waste discharged outside the plant assembly as much as possible. it can.

According to the twelfth aspect of the present invention, energy, products and wastes can be effectively and comprehensively utilized by the cement plant, so that the energy efficiency of the entire plant assembly is improved, contributing to energy saving. To provide a multi-industry complex basic industrial plant assembly that can achieve environmentally harmonious integrated regional development because it can reduce the amount of hazardous waste discharged outside the plant assembly as much as possible. Can be.

According to the thirteenth aspect of the present invention, energy, products, by-products, and waste can be comprehensively and effectively utilized among the plants in the plant assembly. Energy efficiency and contribute to energy savings, and the emission of harmful waste to the outside of the plant assembly can be reduced as much as possible. Furthermore, since the transportation means, management equipment, and the like of each plant can be shared in the plant assembly, the required site area of the entire plant assembly can be reduced, and efficient land use can be achieved. Thus, it is possible to provide a multi-industrial complex basic industrial plant aggregate capable of reducing investment costs and operating costs.

According to the fourteenth aspect of the present invention, it is possible to centralize the reception of product raw materials and the shipment of products in each plant, so that the total required site area can be reduced and efficient land use can be achieved. It is possible to provide a multi-industry complex basic industrial plant aggregate that can be used and can reduce investment costs and operation costs.

According to the fifteenth aspect of the present invention, since the shipment of products can be centralized in the plant assembly, the required area of the entire site can be reduced, and efficient land use can be achieved. It is possible to provide a multi-industrial complex base industrial plant aggregate that can reduce investment costs and operating costs while reducing costs.

According to the sixteenth aspect of the present invention, since there is a waste treatment facility for treating waste generated inside and / or outside the area of the plant assembly or any one of them, environmental symbiosis is achieved. It is possible to provide a type of multi-industrial complex base industrial plant assembly.

According to the seventeenth aspect of the present invention, since the processing of gaseous waste generated from each plant can be centralized, the required area of the entire site can be reduced, and the land can be efficiently used. In addition, it is possible to provide a multi-industry complex base industrial plant aggregate that can reduce investment costs and operating costs.

According to the eighteenth aspect of the present invention, since the processing of gaseous waste generated from each plant can be centralized, the required area of the entire site can be reduced, and efficient land use can be achieved. Investment costs and operating costs can be reduced.
Since the amount of discharge of harmful wastes to the outside of the plant assembly can be minimized, it is possible to provide a multi-industrial complex basic industrial plant assembly capable of achieving environmentally symbiotic integrated regional development.

According to the nineteenth aspect of the present invention, since the processing of liquid waste generated from each plant can be centralized, the total required land area can be reduced, and efficient land use can be achieved. Investment costs and operating costs can be reduced.
Since the amount of discharge of harmful wastes to the outside of the plant assembly can be minimized, it is possible to provide a multi-industrial complex basic industrial plant assembly capable of achieving environmentally symbiotic integrated regional development.

According to the twentieth aspect of the present invention, products and wastes from coal-fired thermal power generation can be used comprehensively and effectively, so that the energy efficiency of the entire plant assembly is improved and contributes to energy saving. To provide a multi-industry complex basic industrial plant assembly that can achieve environmentally harmonious integrated regional development because it can reduce the amount of hazardous waste discharged outside the plant assembly as much as possible. Can be.

According to the twenty-first aspect of the present invention, by-products and wastes from a steelmaking plant can be effectively and comprehensively utilized, so that the energy efficiency of the entire plant assembly is improved and energy is saved. It is possible to provide a multi-industry complex basic industrial plant assembly that can achieve environmentally harmonious integrated regional development because it can reduce the amount of hazardous waste discharged outside the plant assembly as much as possible. it can.

According to the twenty-second aspect of the present invention, in a cement plant, energy, products and wastes can be comprehensively and effectively used, so that the energy efficiency of the entire plant assembly is improved, contributing to energy saving. As well as minimizing the amount of hazardous waste discharged outside the plant assembly,
It is possible to provide a multi-industry complex basic industrial plant aggregate that can achieve environmentally harmonious integrated regional development.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing the overall configuration of a first embodiment of a multi-industry complex basic industrial plant aggregate according to the present invention.

FIG. 2 is a schematic diagram showing the flow of substances in a petroleum refining plant constituting a multi-industry complex basic industrial plant aggregate according to the present invention.

FIG. 3 is a schematic diagram showing the flow of substances in a heavy oil-fired power generation plant that constitutes a multi-industry complex basic industrial plant aggregate according to the present invention.

FIG. 4 is a schematic diagram showing a flow of a substance in a cement plant constituting a multi-industry complex basic industrial plant aggregate according to the present invention.

FIG. 5 is a schematic diagram showing a flow of a substance in an iron making plant constituting a multi-industry complex basic industrial plant aggregate according to the present invention.

FIG. 6 is a schematic diagram showing the flow of substances between the plants in the plant assembly 2 in the first embodiment of the multi-industry complex basic industrial plant assembly according to the present invention.

FIG. 7 is a schematic diagram showing the overall configuration of a second embodiment of the multi-industrial complex basic industrial plant aggregate according to the present invention.

FIG. 8 is a diagram showing a flow of a substance in a coal-fired power plant constituting a multi-industrial complex basic industrial plant aggregate according to the present invention.

FIG. 9 is a schematic diagram showing a flow of a substance between plants in a plant assembly 12 in a second embodiment of the multi-industry complex basic industrial plant assembly according to the present invention.

[Explanation of symbols]

 C Cement plant P Heavy oil-fired power plant P 'Coal-fired power plant R Oil refinery plant S Steel plant 1, 11 Complex industrial complex complex from different industries 2, 12 Plant complex 3 Transportation means 4 Shared port facilities 5 Product supply facilities 6 Waste treatment equipment 8 Waste liquid treatment equipment 9 Exhaust gas treatment equipment 20 Urban area 30 Industrial park 40 Airport

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tsuyoshi Noguchi 2-2-1 Otemachi, Chiyoda-ku, Tokyo JGC Corporation (72) Inventor Yuji Hanedano 1-14-1 Minamibashiki-cho, Yokohama-shi, Kanagawa No. JGC Corporation Yokohama Office (72) Inventor Takuro Yagi 2-2-1 Otemachi, Chiyoda-ku, Tokyo JGC Corporation (72) Inventor Akira Sakurai 2-2-1 Otemachi, Chiyoda-ku, Tokyo Inside JGC Corporation (72) Inventor Todo Fukuzo 2205 Narita-cho, Oarai-machi, Ibaraki-gun, Ibaraki Prefecture Inside JGC Corporation Oarai Nuclear Technology Development Center (72) Inventor Norimitsu Kurumada 7-1-55 Minamienkajima, Taisho-ku, Osaka Sumitomo Osaka Cement Co., Ltd. Cement Concrete Research Laboratories (72) Inventor Kazuo Tamura 1 Kandamidoshirocho, Chiyoda-ku, Tokyo Sumitomo Osaka (72) Inventor Katsuharu Mukai 1 Kanda Midoshiro-cho, Chiyoda-ku, Tokyo Sumitomo Osaka Cement Corporation (72) Inventor Shuichiro Takashima 1-4-16 Dojimahama, Kita-ku, Osaka-shi, Osaka Kyoei Steel Co., Ltd.

Claims (22)

[Claims] 1. A plant assembly in which a different-type industrial plant including a petroleum refining plant, a heavy oil-fired power plant, a cement plant, and a steel plant is provided close to or adjacent to each other. A multi-industrial complex base industrial plant assembly, which is formed by combining and composing a part or all of goods or waste by means of transportation for supplying the fuel, power source or product raw material of the other plant. 2. The multi-industrial complex basic industrial plant assembly according to claim 1, wherein each of the plants is located in a seaside area and has a shared port facility. 3. The multi-industrial complex basic industrial plant assembly according to claim 1, further comprising a product supply facility for supplying a product of each of the plants to a region outside the plant aggregate. 4. The apparatus according to claim 1, further comprising a waste treatment facility for treating waste generated in and / or outside the area of the plant assembly. A multi-industry complex basic industrial plant aggregate described in Crab. 5. An exhaust gas treatment facility for batch-treating exhaust gas as gaseous waste generated from each of the petroleum refining plants, heavy oil-fired power plants, cement plants, and steelmaking plants. An integrated industrial complex of different industries according to any of the above. 6. In the exhaust gas treatment facility, exhaust gas as gas waste generated from each of the petroleum refining plants, heavy oil-fired power plants, cement plants, and steelmaking plants is subjected to batch desulfurization to remove harmful substances, 6. The multi-industrial complex basic industrial plant assembly according to claim 5, further comprising a transportation means for supplying gypsum as a product to the cement plant. 7. A liquid waste generated from each of the petroleum refining plants, heavy oil-fired power plants, cement plants and steelmaking plants is collectively treated to remove harmful substances, and sludge containing the harmful substances is removed by the cement. The multi-industrial complex basic industrial plant assembly according to any one of claims 1 to 6, further comprising a waste liquid treatment facility for supplying the waste liquid to the plant. 8. The petroleum refining plant is a plant for producing gasoline, kerosene, and gas oil products obtained by collectively hydrodesulfurizing a fraction other than atmospheric residual oil by atmospheric distillation using crude oil as a raw material. And transport means for supplying at least one of sludge waste from the storage tank of each product, spent catalyst waste and gaseous waste generated from the batch hydrodesulfurization unit to the cement plant, The fuel cell system according to any one of claims 1 to 7, further comprising a transportation unit configured to supply heavy oil or normal pressure residual oil as fuel to at least one of the heavy oil-fired power generation plant, the cement plant, and the steelmaking plant. Multi-industry complex basic industrial plant aggregate. 9. The heavy oil-fired power plant is a manufacturing plant that uses heavy oil or atmospheric residual oil, which is a product from the petroleum refining plant, as fuel and produces electric power as a fuel,
The multi-industrial complex basic industrial plant assembly according to any one of claims 1 to 8, further comprising a transportation means for supplying electric power to each of the petroleum refining plants, the cement plant, and the steelmaking plant. 10. The multi-industrial complex base industry according to claim 1, wherein the heavy oil-fired power plant has a transportation means for supplying steam or hot water as heat to the petroleum refining plant. Plant aggregate. 11. The steelmaking plant is a plant for producing steel products in an electric furnace mainly using scrap iron as a raw material, and has a transportation means for supplying slag and dust generated from the steelmaking plant to the cement plant. The heterogeneous industrial complex base industrial plant aggregate according to any one of claims 1 to 10, characterized in that: 12. The cement plant is a plant for mainly producing Portland cement using limestone as a main raw material, wherein heavy oil or atmospheric residual oil and gaseous waste of the petroleum refining plant are used as a fuel in a calcination process. The spent catalyst waste from the petroleum refining plant, sludge waste from the storage tank, slag and dust waste from the steelmaking plant, and The multi-industrial complex base industrial plant assembly according to any one of claims 1 to 11, wherein at least one of gypsum as a by-product of the above and sludge from the waste liquid treatment facility is used. 13. A plant assembly in which a different type of basic industrial plant including a coal-fired thermal power plant, a cement plant, and a steelmaking plant is provided close to or adjacent to the plant, wherein a product, a by-product, or a waste of each of the plants is provided. A multi-industrial complex basic industrial plant assembly, which is formed by being combined and combined by means of transportation for supplying part or all of a product as fuel, a power source or a product raw material of the other plant. 14. The multi-industrial complex base industrial plant assembly according to claim 13, wherein each of the plants is located in a seaside area and has a shared port facility. 15. The multi-industrial complex basic industrial plant assembly according to claim 13, further comprising a product supply facility for supplying a product of each of the plants to a region outside the plant aggregate. 16. The apparatus according to claim 13, further comprising a waste treatment facility for treating waste generated inside and / or outside the area of the plant assembly. A multi-industry complex basic industrial plant aggregate described in Crab. 17. An exhaust gas treatment facility for batch-treating exhaust gas as gaseous waste generated from each of the coal-fired thermal power plants, cement plants and steelmaking plants. A multi-industry complex basic industrial plant aggregate as described. 18. In the exhaust gas treatment facility, exhaust gas as gas waste generated from each of the coal-fired thermal power plants, cement plants, and steelmaking plants is subjected to collective desulfurization treatment to remove harmful substances, and as a by-product. 18. The different-industry complex basic industrial plant assembly according to claim 17, further comprising a transportation means for supplying the gypsum to the cement plant. 19. A liquid waste generated from each of the coal-fired power plants, cement plants, and steelmaking plants is collectively treated to remove harmful substances, and sludge containing the harmful substances is supplied to the cement plant. 19. The different-industrial complex-based industrial plant assembly according to claim 13, further comprising a waste liquid treatment facility that performs the treatment. 20. The coal-fired thermal power plant is a power production plant using coal as fuel, and has a transportation means for supplying power to the steelmaking plant and the cement plant, and generates the generated coal incineration ash. 20. The multi-industrial complex basic industrial plant assembly according to any one of claims 13 to 19, further comprising a transportation means for supplying the cement plant to the cement plant. 21. The steelmaking plant is a plant for producing steel products mainly from scrap iron by an electric furnace, a continuous casting machine, and a rolling mill, wherein slag and dust generated from the steelmaking plant are produced by the cement plant. 3. A transport means for supplying the air to a vehicle.
0. A multi-industrial complex basic industrial plant aggregate according to any one of 0. 22. The cement plant, which mainly produces Portland cement using limestone as a main raw material, wherein incineration generated in the coal-fired power plant as an auxiliary raw material or a part of fuel during the manufacturing process. The wastewater of ash and slag and dust from the steelmaking plant, gypsum as a by-product from the exhaust gas treatment facility, and at least one of sludge from the waste liquid treatment facility are used. 22. The multi-industrial complex basic industrial plant aggregate according to any one of 13 to 21.