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WO2025094260A1 - Usine et procédé de fabrication d'une usine - Google Patents

Usine et procédé de fabrication d'une usine Download PDF

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Publication number
WO2025094260A1
WO2025094260A1 PCT/JP2023/039226 JP2023039226W WO2025094260A1 WO 2025094260 A1 WO2025094260 A1 WO 2025094260A1 JP 2023039226 W JP2023039226 W JP 2023039226W WO 2025094260 A1 WO2025094260 A1 WO 2025094260A1
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WO
WIPO (PCT)
Prior art keywords
area
plant
equipment
modular
module
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
PCT/JP2023/039226
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English (en)
Japanese (ja)
Inventor
宏信 土屋
敬太 内野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JGC Corp
Original Assignee
JGC Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by JGC Corp filed Critical JGC Corp
Priority to PCT/JP2023/039226 priority Critical patent/WO2025094260A1/fr
Publication of WO2025094260A1 publication Critical patent/WO2025094260A1/fr
Pending legal-status Critical Current
Anticipated expiration legal-status Critical

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H5/00Buildings or groups of buildings for industrial or agricultural purposes
    • E04H5/02Buildings or groups of buildings for industrial purposes, e.g. for power-plants or factories

Definitions

  • This disclosure relates to a plant and a method for manufacturing a plant.
  • Patent Document 1 discloses a technique in which a transport vehicle passes between multiple supports protruding upward from the ground to transport the modules to the installation area. The technique described in Patent Document 1 makes it possible to reduce the space required to transport the modules.
  • Civil engineering work is carried out in the early period of the construction period for a plant that uses modules, before the modules are installed. Civil engineering work can be carried out with a good yield rate because there is little overlap with other types of work. However, some civil engineering work must be carried out after the modules arrive due to reasons such as equipment layout plans or the placement of cranes to be used for piping work after module installation. Therefore, it is difficult to complete all civil engineering work before the modules arrive. An increase in the amount of civil engineering work after module installation directly leads to an increase in the construction period of the entire project. In other words, if there is a lot of civil engineering work remaining after module installation, it will be a factor in extending the construction period of the plant construction.
  • This disclosure provides technology that can prevent the construction period of a plant from being extended.
  • a plant according to one aspect of the present disclosure comprises a plant area partitioned as an area for carrying out a predetermined process, at least one modular equipment having a support for transportation, and at least one non-modular equipment assembled within the plant area.
  • the plant area has at least one module placement area in which at least one modular equipment is placed, and a mixed placement area which is an area other than the at least one module placement area and in which at least one non-modular equipment is placed.
  • the mixed placement area is formed between a first boundary line defining the at least one module placement area and a second boundary line opposing the first boundary line and defining the plant area, and has at least one transport route area for transporting the at least one modular equipment.
  • No ground structure is provided on the ground of the at least one transport route area.
  • the layout allows modular equipment to be transported to the module placement area via the transport route area.
  • construction work in the mixed placement area can proceed in advance without waiting for the completion of transport of the modular equipment.
  • the construction period of the plant can be prevented from being extended.
  • a plant according to one aspect of the present disclosure may include load-bearing equipment capable of withstanding the weight of at least one modular equipment when it is transported.
  • the load-bearing equipment may be located underground in at least one transport route area. In this case, construction work underground in the transport route area can be carried out in advance before the modular equipment is transported. This can prevent the construction period of the plant from being extended.
  • a plant according to one aspect of the present disclosure may include load-bearing equipment capable of withstanding the weight of at least one modular equipment arrangement.
  • the load-bearing equipment may be arranged underground in the area in which at least one modular equipment is arranged. In this case, it is possible to save space in the plant area.
  • At least one non-modular facility may be arranged adjacent to at least one modular facility. In this case, it is possible to save space in the plant area.
  • a plant according to one aspect of the present disclosure may include a connecting facility that connects at least one non-modular equipment and a load-bearing equipment.
  • the connecting facility may be located in a position that does not overlap with at least one transport route area. In this case, construction of the connecting facility can be carried out in advance before transporting the modular equipment. This can prevent the construction period of the plant from being extended.
  • a plant according to one aspect of the present disclosure may include a gutter as a second boundary line defining the plant area.
  • the gutter may be capable of accommodating load-bearing equipment capable of withstanding the weight of at least one piece of modular equipment when it is transported, or reinforcing material capable of withstanding the weight of at least one piece of modular equipment when it is transported.
  • the reinforcing material may be gravel that is filled to the extent that it has gaps to allow water to flow.
  • the modular equipment can pass over the gutter. Construction of the gutter can be carried out in advance before the modular equipment is transported. This makes it possible to prevent the construction period of the plant from being extended.
  • At least one module placement area may be rectangular.
  • the first boundary line may be the short side of at least one module placement area.
  • the short side of the modular equipment can reduce the width required for transporting the modular equipment.
  • the transport route area can be narrowed. This increases the area in the mixed placement area where construction can be carried out. In other words, it is possible to increase the area of the mixed placement area where construction can be carried out in advance without waiting for the completion of transport of the modular equipment. As a result, it is possible to prevent the construction period of the plant from being extended.
  • a method for manufacturing a plant provides at least one modular equipment having a support for transportation, and at least one non-modular equipment to be assembled within the plant area, in a plant area partitioned as an area for carrying out a predetermined process.
  • the method for manufacturing a plant includes a first step of providing at least one non-modular equipment in a mixed arrangement area in which the at least one non-modular equipment is arranged, and a second step of transporting the at least one modular equipment to at least one module arrangement area in which the at least one modular equipment is arranged after the first step is started.
  • the mixed arrangement area is an area other than the at least one module arrangement area.
  • the second step transports the at least one modular equipment from outside the plant area to the at least one module arrangement area via at least one transport route area formed between a first boundary line that defines the at least one module arrangement area and a second boundary line that faces the first boundary line and defines the plant area.
  • construction work to install non-modular equipment in the mixed placement area begins before the modular equipment is transported to the modular placement area. This allows construction work in the mixed placement area to proceed in advance without waiting for the completion of transport of the modular equipment. As a result, it is possible to prevent the construction period of the plant from being extended.
  • the plant manufacturing method may further include, prior to the second step, a step of arranging load-bearing equipment that can withstand the weight of at least one modular equipment when transported along the ground surface of at least one transport route area, or underground in at least one transport route area.
  • a step of arranging load-bearing equipment that can withstand the weight of at least one modular equipment when transported along the ground surface of at least one transport route area, or underground in at least one transport route area.
  • construction work underground or above ground in the transport route area can be carried out in advance before the modular equipment is transported. This makes it possible to prevent the construction period of the plant from being extended.
  • the load-bearing equipment may be a temporary buried section that is placed underground in at least one transport route area and temporarily buried.
  • the plant manufacturing method according to one aspect of the present disclosure may further include, after the second step, a step of placing an above-ground structure that is supported by the temporary buried section and protrudes above ground in at least one transport route area.
  • construction of the temporary buried section is carried out before transporting the modular equipment, and subsequent construction including the above-ground structure is carried out after transporting the modular equipment.
  • the plant manufacturing method may further include a step of placing a ground structure on the ground of at least one transport route area after the second step.
  • the ground structure is placed on the ground of the transport route area. This makes it possible to save space in the plant area.
  • This disclosure provides technology that can prevent the construction period of a plant from being extended.
  • FIG. 1 is a plan view that illustrates an example of a plant.
  • FIG. 2 is a plan view that illustrates an example of a region.
  • FIG. 3 is a schematic diagram showing an example of a plant layout.
  • FIG. 4 is a flowchart showing an example of a method for manufacturing a plant.
  • FIG. 5 is a schematic diagram showing an example of a plant according to a manufacturing stage.
  • FIG. 6 is a schematic diagram showing an example of a plant according to a manufacturing stage.
  • FIG. 7 is a schematic diagram showing an example of a plant according to a manufacturing stage.
  • FIG. 8 is a schematic diagram showing an example of a plant according to a manufacturing stage.
  • a modular construction method is a construction method in which a set of equipment is manufactured at a location separate from the plant construction site, and then the equipment is transported (shipped) to and installed at the plant construction site.
  • FIG. 1 is a plan view showing an example of a plant 1.
  • the plant 1 includes a plant area P, at least one modular facility 2, and at least one non-modular facility 3.
  • the plant area P is an area partitioned for carrying out a specific process.
  • the specific process is carried out by a plurality of pieces of equipment. Examples of the specific process include, but are not limited to, the processing of liquids, gases, or powders, processing in a power generation facility, or processing to obtain a final product from an intermediate product.
  • the plant area P is an area surrounded by a gutter 4.
  • the gutter 4 is, for example, a drainage ditch formed in a rectangular shape in a plan view.
  • the gutter 4 defines the plant area P.
  • the modular equipment 2 is equipment manufactured outside the plant area P.
  • the modular equipment 2 is a set of equipment that combines, for example, steel frames, pressure vessels, rotating machinery, piping, measuring equipment, electrical equipment, and buildings.
  • the modular equipment 2 has a shape that resembles a box or cage. In plan and bottom views, the modular equipment 2 may be rectangular.
  • Examples of the modular equipment 2 include process equipment modules and pipe rack modules.
  • the process equipment module is a combination of equipment for carrying out a specified process.
  • the pipe rack module is a combination of equipment mainly for supporting piping, valves, and air-cooled heat exchangers.
  • the modular equipment 2 may be transported by a Self-Propelled Modular Transporter (SPMT).
  • SPMT Self-Propelled Modular Transporter
  • the SPMT supports and transports the modular equipment 2 from below.
  • the modular equipment 2 may be transported by a truck or trailer.
  • the modular equipment 2 may be suspended from above by a crane truck and installed.
  • the modular equipment 2 has a support portion 2A for transportation.
  • the shape of the support portion 2A is not limited.
  • the modular equipment 2 has a lower support portion 20A as the support portion 2A.
  • the lower support portion 20A is a beam or the like supported by the SPMT.
  • the modular equipment 2 has an upper support portion 21A as the support portion 2A.
  • the upper support portion 21A is, for example, a ring-shaped metal fitting.
  • the ring-shaped metal fitting is provided at the upper four corners of the modular equipment 2.
  • the ring-shaped metal fitting is hung on the hook of the crane vehicle via a lifting jig.
  • the ring-shaped metal fitting may be detachable.
  • the support portion 2A may be a pad eye.
  • the support portion 2A may be a rectangular or circular flange that is attached horizontally to a column protruding from the upper four corners of the modular equipment 2, and may be a flange with a pad eye attached opposite the flange.
  • the support portion 2A may be a casting box for lifting a container.
  • the support portion 2A may be a sling for lifting the container-shaped modular equipment 2 and the bottom surface of the module with which the sling contacts.
  • the non-modular equipment 3 is equipment that is assembled within the plant area P.
  • An example of the non-modular equipment 3 is, but is not limited to, a compressor building.
  • the compressor building has, for example, a foundation, piping, a shelter, a maintenance crane supported by the shelter, a compressor, lighting, and crane cables.
  • At least one non-modular equipment 3 is disposed adjacent to at least one modular equipment 2.
  • a ground structure G is provided on the ground of the plant area P.
  • the ground structure G is a facility that is installed after the transport of the modular equipment 2.
  • the ground structure G includes a first ground structure 6 in which a temporary burial section 5 (described later) is provided underground, and a second ground structure 7 in which a temporary burial section 5 (described later) is not provided underground.
  • FIG. 2 is a schematic diagram showing an example of an area.
  • the plant area P has at least one module placement area A and a mixed placement area M.
  • the module placement area A is an area for placing modular equipment 2.
  • the mixed placement area M is an area other than the module placement area A. In other words, the mixed placement area M is an area of the plant area P excluding the module placement area A.
  • At least one module equipment 2 is assigned to the module placement area A in advance.
  • the shape of the module placement area A is determined according to the shape of the corresponding module equipment 2.
  • at least one module placement area A is rectangular.
  • a foundation is provided in the module placement area A. Construction of the foundation is carried out before the corresponding module equipment 2 is transported.
  • At least one non-modular equipment 3 is placed in the mixed placement area M.
  • the mixed placement area M has at least one transport route area R for transporting at least one modular equipment 2.
  • the transport route area R is a path for transporting the modular equipment 2.
  • the transport route area R can also be said to be a path connecting the outside of the plant area P with the module placement area A.
  • the transport route area R is formed between a first boundary line L1 that defines at least one module placement area A, and a second boundary line L2 that faces the first boundary line L1 and defines a plant area P.
  • the first boundary line L1 can also be said to be the side that faces the outside of the plant area P.
  • the first boundary line L1 is the short side of at least one module placement area A.
  • the second boundary line L2 is, for example, a gutter 4.
  • the plant area P may have an open space V.
  • the open space V is an area for future equipment expansion. None may be placed above or below the open space V. Equipment capable of withstanding the load of the equipment may be placed in advance below the open space V, depending on the future equipment configuration or layout plan.
  • the open space V is used as a module placement area A or a mixed placement area M.
  • FIG. 3 is a schematic diagram showing an example of the layout of the plant 1.
  • FIG. 3 shows an example of equipment and areas provided above and below ground.
  • the plant 1 includes a load-bearing equipment C, piping 9, a first connecting equipment 11 (connecting equipment), and a second connecting equipment 12.
  • the load-bearing equipment C can withstand the weight of the modular equipment 2 when it is transported or placed.
  • Examples of the load-bearing equipment C include, but are not limited to, the gutter 4, the cable 8, the reinforcing pipe 10, and the temporary burial section 5.
  • the gutter 4 itself does not have to have the load-bearing capacity to withstand the weight of the modular equipment 2 when it is transported.
  • the gutter 4 may be capable of accommodating a reinforcing material that can withstand the weight of the modular equipment 2 when it is transported.
  • the reinforcing material may be, for example, a steel plate laid on top of a pile of soil.
  • the reinforcing material may be gravel that is spread in the gutter 4. The gravel is filled to the extent that it has gaps to allow water to flow.
  • the gutter 4 may be temporarily reinforced by temporarily accommodating a reinforcing material.
  • the reinforcing pipe 10 is, for example, a pipe that is enclosed and reinforced in reinforced concrete.
  • the temporary burial section 5 is equipment that is placed underground and temporarily buried. Temporary burial refers to backfilling a hole and curing it so that placement work is possible. The curing method will be determined based on the work to be done during curing and removal of the temporary buried section 5.
  • Load-bearing equipment C capable of withstanding the weight of at least one modular equipment 2 when it is transported is disposed underground in at least one transport route area R.
  • a temporary burial section 5 is disposed underground in at least one transport route area R.
  • a first above-ground structure 6 may be provided above ground where the temporary burial section 5 is disposed.
  • the temporary burial section 5 supports the first above-ground structure 6.
  • Load-bearing equipment C capable of withstanding the weight of at least one modular equipment 2 is placed underground in at least one module placement area A.
  • cables 8 and reinforcing piping 10 are placed underground in at least one module placement area A. Cables 8 connect modular equipment 2 and non-modular equipment 3.
  • Reinforcing piping 10 connects piping 9 placed on either side of module placement area A through the underground of module placement area A.
  • At least one ground structure G is arranged on the ground of at least one transport route area R.
  • a first ground structure 6 or a second ground structure 7 is arranged on the ground of at least one transport route area R.
  • a temporary burial section 5 is arranged underground of the first ground structure 6. There is no need for a ground structure G to be arranged on the ground of at least one transport route area R.
  • the first connecting equipment 11 connects at least one non-modular equipment 3 and the load-bearing equipment C.
  • the first connecting equipment 11 is a cable or a pipe.
  • the first connecting equipment 11 connects, for example, the non-modular equipment 3 and the cable 8.
  • the second connecting equipment 12 connects the non-modular equipment 3 and the pipe 9.
  • the first connecting equipment 11 and the second connecting equipment 12 are arranged in a position that does not overlap with at least one transport route area R.
  • the first connecting equipment 11 and the second connecting equipment 12 may be arranged outside or inside the at least one non-modular equipment 3.
  • the first connecting equipment 11 and the second connecting equipment 12 may be installed below the transport route area R.
  • FIG. 1 An example of a manufacturing method for the plant 1 of the present disclosure will be described with reference to Figures 4 to 8.
  • Figure 4 is a flowchart showing an example of the manufacturing method for the plant 1.
  • Figures 5 to 8 are schematic diagrams showing an example of the plant 1 corresponding to the manufacturing stage.
  • Figures 5 to 8 are plan views showing generally some areas of the plant 1.
  • the manufacturing method for the plant 1 at least one modular equipment 2 and at least one non-modular equipment 3 are provided in the plant area P.
  • the description will be given assuming that a gutter 4 has already been provided.
  • step S1 a first step is carried out in which at least one non-modular equipment 3 is provided in the mixed arrangement area M.
  • non-modular equipment 31 and 32 are provided.
  • Non-modular equipment 31 and 32 are examples of non-modular equipment 3.
  • the plant area P has module placement areas A1 to A4 and transport route areas R1 to R4.
  • Module placement areas A1 to A4 are examples of module placement areas A.
  • Transport route areas R1 to R4 are examples of transport route areas R.
  • the transport route area R1 is formed between a first boundary line L11 that defines the module placement area A1 and a second boundary line L21 that faces the first boundary line L11 and defines the plant area P.
  • the transport route area R2 is formed between a first boundary line L12 that defines the module placement area A2 and a second boundary line L22 that faces the first boundary line L12 and defines the plant area P.
  • the transport route area R3 is formed between a first boundary line L13 that defines the module placement area A3 and a second boundary line L23 that faces the first boundary line L13 and defines the plant area P.
  • the transport route area R4 is formed between a first boundary line L14 that defines the module placement area A4 and a second boundary line L24 that faces the first boundary line L14 and defines the plant area P.
  • step S2 a process is carried out to place load-bearing equipment C along the ground surface of at least one transport route area R or underground of at least one transport route area R.
  • a temporary buried section 5 a cable 8, a reinforcing pipe 10, and a reinforcing material T are provided.
  • the temporary buried section 5, the cable 8, the reinforcing pipe 10, and the reinforcing material T are examples of load-bearing equipment C.
  • the temporary burial section 5 is placed and temporarily buried underground in the transport route area R3.
  • the cable 8 is provided underground in the module placement area A4.
  • the reinforcing piping 10 is provided underground in the module placement area A4.
  • the reinforcing material T may be a steel plate laid, for example, on top of a pile of earth along the ground surface of each of the transport route areas R1 to R4.
  • the reinforcing material T may be gravel laid in the gutter 4.
  • the transport route areas R1 to R4 are adjacent to the gutter 4.
  • first connecting equipment 111 and 112 may be provided.
  • First connecting equipment 111 and first connecting equipment 112 are examples of first connecting equipment 11.
  • First connecting equipment 111 connects non-modular equipment 31 and cable 8.
  • First connecting equipment 112 connects non-modular equipment 32 and cable 8.
  • First connecting equipment 111 and 112 are positioned so as not to overlap at least one of the transport route areas R1 to R4.
  • non-modular equipment 33 may be provided.
  • Non-modular equipment 33 is an example of non-modular equipment 3.
  • Pipes 9 are provided above or below ground in the area in which non-modular equipment 33 is located. Pipes 9 may have a load-bearing function that can withstand possible loads. Pipes 9 are connected to reinforcing pipes 10, for example.
  • Second connecting equipment 121 and 122 may be provided.
  • Second connecting equipment 121 and 122 are examples of second connecting equipment 12.
  • Second connecting equipment 121 connects non-modular equipment 31 and piping 9.
  • Second connecting equipment 122 connects non-modular equipment 32 and piping 9.
  • Second connecting equipment 121 and 122 are arranged in positions that do not overlap with at least one of the transport route areas R1 to R4.
  • step S3 a second process is carried out in which at least one module equipment 2 is transported to at least one module placement area A.
  • module equipment 21 to 27 is transported.
  • Module equipment 21 to 27 are examples of module equipment 2.
  • the second process may be carried out after the first process has started, and does not have to be completed.
  • Module equipment 21 is assigned to module placement area A1. In the second process, module equipment 21 is transported from outside plant area P to module placement area A1 along module transport direction D1 via transport route area R1.
  • Module equipment 22 is assigned to module placement area A2. In the second process, module equipment 22 is transported from outside plant area P to module placement area A2 via transport route area R2 along module transport direction D2.
  • Module equipment 23 is assigned to module placement area A3. In the second process, module equipment 23 is transported from outside plant area P to module placement area A3 via transport route area R3 along module transport direction D3.
  • Module equipment 24 to 27 are assigned to module placement area A4. In the second process, module equipment 24 to 27 is transported from outside plant area P to module placement area A4 along module transport direction D4 via transport route area R4. Module equipment 24 to 27 is transported and placed in this order.
  • the modular equipment 21 to 27 each pass over the reinforcing material T.
  • Some or all of the reinforcing material T may or may not be removed after the second step is completed.
  • the explanation will be given assuming that all of the reinforcing material T has been removed.
  • step S4 a process of placing a ground structure G on the ground in at least one transport route area R is carried out.
  • second ground structures 71 and 72 and a first ground structure 6 are placed in the plant area P.
  • the second ground structures 71 and 72 are examples of the second ground structure 7.
  • the second ground structure 71 is provided on the ground in the transport route area R1.
  • the second ground structure 72 is provided on the ground in the transport route area R2.
  • the first ground structure 6 is supported by the temporary burial section 5 and protrudes above the ground in the transport route area R3.
  • the step of placing the ground structure G is carried out after the second step. That is, the second ground structure 71 is provided on the ground in the transport route area R1 after the module equipment 21 is placed in the module placement area A1.
  • the second ground structure 72 is provided on the ground in the transport route area R2 after the module equipment 22 is placed in the module placement area A2.
  • the first ground structure 6 is provided on the ground in the transport route area R3 after the module equipment 23 is placed in the module placement area A3.
  • the first ground structure 6 and the second ground structures 71 and 72 can be placed independently of each other.
  • steps S1 to S4 are not limited.
  • the manufacturing method of plant 1 may switch the processing of steps S1 and S2.
  • the processing in each step may be carried out independently.
  • step S1 the first step of providing non-modular equipment 31 and 32 may be carried out independently.
  • the first step of providing non-modular equipment 31 may be started, and after the processing proceeds to step S2 and onwards, the first step of providing non-modular equipment 32 may be started.
  • Non-modular equipment 31 and 32 do not affect each other.
  • the plant 1 of the present disclosure comprises a plant area P partitioned as an area for carrying out a predetermined process, at least one modular equipment 2 having a support part 2A for transportation, and at least one non-modular equipment 3 assembled within the plant area P.
  • the plant area P has at least one module arrangement area A in which at least one modular equipment 2 is arranged, and a mixed arrangement area M in which at least one non-modular equipment 3 is arranged and which is an area other than the at least one module arrangement area A.
  • the mixed arrangement area M is formed between a first boundary line L1 that defines at least one module arrangement area A and a second boundary line L2 that faces the first boundary line L1 and defines the plant area P, and has at least one transport route area R for transporting at least one modular equipment 2.
  • No ground structure G is provided on the ground of the at least one transport route area R.
  • the layout of plant 1 allows modular equipment 2 to be transported to module placement area A via transport route area R. With this layout, construction work in mixed placement area M can proceed ahead of time without waiting for the completion of transport of modular equipment 2. As a result, the construction period of plant 1 can be prevented from being extended.
  • the plant 1 is equipped with load-bearing equipment C that can withstand the weight of at least one modular equipment 2 when it is transported.
  • the load-bearing equipment C is located underground in at least one transport route area R. In this case, construction work underground in the transport route area R can be carried out in advance before the modular equipment 2 is transported. This makes it possible to prevent the construction period of the plant 1 from being extended.
  • the plant 1 is equipped with load-bearing equipment C that can withstand the weight of at least one module equipment 2.
  • the load-bearing equipment C is placed underground in at least one module placement area A. In this case, it is possible to save space in the plant area P.
  • At least one non-modular equipment 3 is arranged adjacent to at least one modular equipment 2. In this case, it is possible to save space in the plant area P.
  • the plant 1 is equipped with a first connecting equipment 11 (connecting equipment) that connects at least one non-modular equipment 3 and a load-bearing equipment C.
  • the connecting equipment is arranged in a position that does not overlap with at least one transport route area R. In this case, construction of the connecting equipment can be carried out in advance before the transport of the modular equipment 2. This makes it possible to prevent the construction period of the plant 1 from being extended.
  • the plant 1 has a gutter 4 as a second boundary line L2 that defines the plant area P.
  • the gutter 4 can accommodate load-bearing equipment C that can withstand the weight of at least one modular equipment 2 when it is transported, or reinforcing material T that can withstand the weight of at least one modular equipment 2 when it is transported.
  • the reinforcing material T may be gravel that is filled in to the extent that it has gaps that allow water to flow.
  • the modular equipment 2 can pass over the gutter 4. Construction of the gutter 4 can be carried out in advance before the modular equipment 2 is transported. This makes it possible to prevent the construction period of the plant 1 from being extended.
  • At least one module placement area A is rectangular.
  • the first boundary line L1 is the short side of at least one module placement area A.
  • the width of the short side of the module equipment 2 required for transporting the module equipment 2 can be reduced.
  • the transport route area R can be narrowed.
  • This increases the area in the mixed placement area M where construction can be carried out.
  • the manufacturing method of the plant 1 disclosed herein provides at least one modular equipment 2 having a support part 2A for transportation, and at least one non-modular equipment 3 assembled within the plant area P, in a plant area P partitioned as an area for carrying out a predetermined process.
  • the manufacturing method of the plant 1 includes a first step of providing at least one non-modular equipment 3 in a mixed arrangement area M in which at least one non-modular equipment 3 is arranged, and a second step of transporting at least one modular equipment 2 to at least one module arrangement area A in which at least one modular equipment 2 is arranged after the first step is started.
  • the mixed arrangement area M is an area other than at least one module arrangement area A.
  • the second step transports at least one modular equipment 2 from outside the plant area P to at least one module arrangement area A through at least one transport route area R formed between a first boundary line L1 that defines at least one module arrangement area A and a second boundary line L2 that faces the first boundary line L1 and defines the plant area P.
  • construction work to install non-modular equipment 3 in mixed arrangement area M begins before transporting modular equipment 2 to module arrangement area A. This allows construction work in mixed arrangement area M to proceed in advance without waiting for completion of transport of modular equipment 2. As a result, it is possible to prevent the construction period of plant 1 from being extended.
  • the manufacturing method of plant 1 further includes, prior to the second step, a step of placing load-bearing equipment C that can withstand the weight of at least one modular equipment 2 when transported along the ground surface of at least one transport route area R, or underground of at least one transport route area R.
  • load-bearing equipment C that can withstand the weight of at least one modular equipment 2 when transported along the ground surface of at least one transport route area R, or underground of at least one transport route area R.
  • construction work underground or above ground in the transport route area R can be carried out in advance before the modular equipment 2 is transported. This makes it possible to prevent the construction period of plant 1 from being extended.
  • the load-bearing equipment C is a temporary buried section 5 that is placed underground in at least one transport route area R and temporarily buried.
  • the manufacturing method for the plant 1 further includes, after the second step, a step of placing an above-ground structure that is supported by the temporary buried section 5 and protrudes above ground in at least one transport route area R.
  • construction of the temporary buried section 5 is carried out before the transport of the modular equipment 2
  • construction of the first above-ground structure 6 or the second above-ground structures 71 and 72 (above-ground structures) is carried out after the transport of the modular equipment 2.
  • the manufacturing method of the plant 1 further includes, after the second step, a step of placing a ground structure G on the ground in at least one transport route area R.
  • a step of placing a ground structure G on the ground in at least one transport route area R In this case, after the modular equipment 2 is transported, the ground structure G is placed on the ground in the transport route area R. This makes it possible to save space in the plant area P.
  • the construction period of the plant 1 can be prevented from becoming longer, thereby preventing increases in costs related to construction machinery and construction personnel. For example, when the construction period is extended, costs are incurred related to securing and maintaining construction machinery and construction personnel at the construction site, with a low utilization rate. When the construction period is prevented from becoming longer, the costs related to construction machinery and construction personnel are also reduced.
  • the second boundary line L2 that defines the plant area P is described as a gutter 4, but this is not limited to this.
  • the second boundary line L2 may be a fire extinguishing pipe.
  • the fire extinguishing pipe is buried, for example, in a rectangular shape when viewed from above.
  • a pit for maintaining the fire extinguishing pipe may be provided underground in the area adjacent to the fire extinguishing pipe.
  • the fire extinguishing pipe and the pit may be load-bearing equipment C.

Landscapes

  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Piles And Underground Anchors (AREA)

Abstract

Cette usine comprend : une région d'usine qui est délimitée en tant que région pour effectuer un processus prescrit ; au moins une installation de module qui comprend une partie de support à des fins de transport ; et au moins une installation de non-module qui est assemblée dans la région d'usine. La région d'usine comprend au moins une région de placement de module dans laquelle ladite au moins une installation de module est disposée, et une région de placement mixte dans laquelle ladite au moins une installation de non-module est disposée et qui constitue une région différente de ladite au moins une région de placement de module. La région de placement mixte est formée entre une première ligne de délimitation définissant ladite au moins une région de placement de module et une seconde ligne de délimitation faisant face à la première ligne de délimitation et définissant la région d'usine, la région de placement mixte comprenant au moins une région d'itinéraire de transport pour transporter ladite au moins une installation de module. Aucune structure de sol n'est prévue sur le sol dans ladite au moins une région d'itinéraire de transport.
PCT/JP2023/039226 2023-10-31 2023-10-31 Usine et procédé de fabrication d'une usine Pending WO2025094260A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/JP2023/039226 WO2025094260A1 (fr) 2023-10-31 2023-10-31 Usine et procédé de fabrication d'une usine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2023/039226 WO2025094260A1 (fr) 2023-10-31 2023-10-31 Usine et procédé de fabrication d'une usine

Publications (1)

Publication Number Publication Date
WO2025094260A1 true WO2025094260A1 (fr) 2025-05-08

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Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2023/039226 Pending WO2025094260A1 (fr) 2023-10-31 2023-10-31 Usine et procédé de fabrication d'une usine

Country Status (1)

Country Link
WO (1) WO2025094260A1 (fr)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000204782A (ja) * 1999-01-13 2000-07-25 Jgc Corp 架構構造物、石油プラント設備及び架構構造物の施工方法
JP2008266533A (ja) * 2007-04-25 2008-11-06 Jfe Steel Kk コークス炉の建設方法及びコークス炉建設用仮上屋
JP2018168568A (ja) * 2017-03-29 2018-11-01 千代田化工建設株式会社 プラントの建設方法

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000204782A (ja) * 1999-01-13 2000-07-25 Jgc Corp 架構構造物、石油プラント設備及び架構構造物の施工方法
JP2008266533A (ja) * 2007-04-25 2008-11-06 Jfe Steel Kk コークス炉の建設方法及びコークス炉建設用仮上屋
JP2018168568A (ja) * 2017-03-29 2018-11-01 千代田化工建設株式会社 プラントの建設方法

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