WO2022050603A1 - 수소 공급망 관리 최적화 플랫폼 및 그 방법 - Google Patents
수소 공급망 관리 최적화 플랫폼 및 그 방법 Download PDFInfo
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- WO2022050603A1 WO2022050603A1 PCT/KR2021/011004 KR2021011004W WO2022050603A1 WO 2022050603 A1 WO2022050603 A1 WO 2022050603A1 KR 2021011004 W KR2021011004 W KR 2021011004W WO 2022050603 A1 WO2022050603 A1 WO 2022050603A1
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- charging station
- fuel
- information
- management system
- fuel supply
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- 238000000034 method Methods 0.000 title claims description 32
- 239000001257 hydrogen Substances 0.000 title claims description 27
- 229910052739 hydrogen Inorganic materials 0.000 title claims description 27
- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 title claims description 26
- 238000005457 optimization Methods 0.000 title description 5
- 239000000446 fuel Substances 0.000 claims abstract description 244
- 238000012544 monitoring process Methods 0.000 claims abstract description 12
- 238000013068 supply chain management Methods 0.000 claims description 122
- 238000007726 management method Methods 0.000 claims description 73
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- 239000000969 carrier Substances 0.000 claims description 3
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- 230000003139 buffering effect Effects 0.000 description 5
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- 230000003442 weekly effect Effects 0.000 description 2
- 238000004220 aggregation Methods 0.000 description 1
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- 238000002485 combustion reaction Methods 0.000 description 1
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- 230000007613 environmental effect Effects 0.000 description 1
- 239000002803 fossil fuel Substances 0.000 description 1
- ZZUFCTLCJUWOSV-UHFFFAOYSA-N furosemide Chemical compound C1=C(Cl)C(S(=O)(=O)N)=CC(C(O)=O)=C1NCC1=CC=CO1 ZZUFCTLCJUWOSV-UHFFFAOYSA-N 0.000 description 1
- 239000007789 gas Substances 0.000 description 1
- 150000002431 hydrogen Chemical class 0.000 description 1
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/087—Inventory or stock management, e.g. order filling, procurement or balancing against orders
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06Q10/06—Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
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- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/40—Business processes related to the transportation industry
Definitions
- Embodiments disclosed herein relate to a fuel supply chain management system and method therefor.
- Embodiments disclosed in this document monitor the entire area of the hydrogen supply chain and implement an optimization system through application of optimal logic to monitor consumption, supply cycle, remaining amount, predicted demand, etc. of charging stations in real time, and A fuel supply chain management system and method for efficient charging and distributing tasks based on information such as consumption amount of each charging station, predicted demand, and operation status of tube trailer Its purpose is to provide
- the fuel supply chain management system performs monitoring of the charging station based on the information acquisition unit for acquiring the operation information of the charging station and the operation information of the shipping center, and the operation information of the charging station, and the charging station Based on at least one of the charging station management unit predicting the demand for the provided fuel and operation information of the charging station, the operation information of the shipping center, and the demand prediction information of the charging station, managing the fuel supply network between the charging station and the shipping center It may include a shipment management unit.
- the charging station management unit may predict the demand for the fuel of the charging station based on a consumption pattern related to the fuel of the charging station.
- the charging station management unit may provide the charging station with at least one of information about a dispatch status of a transportation means for transporting the fuel, a real-time location of the transportation means, and an expected arrival time of the transportation means.
- the charging station management unit may automatically generate order information regarding the transportation of the fuel based on the demand prediction information regarding the fuel of the charging station.
- the shipment management unit allocates a shipping center capable of transporting the fuel to each of the charging stations based on the operation information of the charging station, the operation information of the shipping center, and the demand forecast information of the charging station.
- the shipment management unit may generate a schedule related to transportation of the fuel.
- the schedule for transporting the fuel may include information about the allocation and dispatch schedule of transport means for transporting the fuel.
- the shipment management unit may generate charging schedule information regarding the transportation means of the fuel provided in the shipment center.
- the shipment management unit may provide information about at least one of a consumption amount, a residual amount, a demand forecast amount, and a replacement time of the fuel for each charging station to the shipping center.
- the shipment management unit may generate settlement information regarding the transportation of the fuel based on the actual transportation information of the fuel.
- the shipment management unit may provide information on a movement route of a transportation means for transporting the fuel calculated based on real-time traffic information to the shipment center.
- the shipment management unit may monitor a state of charge of the fuel transportation means provided in the shipment center.
- the operation information of the charging station may include at least one of the usage of the fuel for each period, the remaining amount of the fuel, the replacement history of the fuel, the operating time of the charging station, and location information.
- the operation information of the shipping center may include at least one of a supply amount for each period of the shipping center, operating information about the fuel transportation means, a supply period for each charging station, and location information of the shipping center.
- the shipping management unit is based on the supply amount of the fuel in the shipping center, the number of filling nozzles provided in the shipping center, the pressure of the filling nozzle, the number of transport means of the fuel, and the capacity of the transport means.
- the transportation schedule may be generated based on the information about the charging station, the operating time of the charging station, the distance from the shipping center, and the information about the average travel time to the shipping center.
- the fuel may include hydrogen having at least one of gaseous, liquid, and liquid organic hydrogen carriers (LOHC).
- LOHC liquid organic hydrogen carriers
- a fuel supply chain management method includes acquiring operation information of a charging station and operation information of a shipping center, monitoring the charging station based on the operation information of the charging station, and providing the charging station Predicting a demand for fuel, and managing a fuel supply chain between the charging station and the shipping center based on at least one of operation information of the charging station, operation information of the shipping center, and demand prediction information of the charging station can do.
- a fuel supply chain management system and a method related thereto monitor the entire area of the hydrogen supply chain and implement an optimization system through application of optimal logic, such as consumption amount, supply cycle, remaining amount, predicted demand, etc. of a charging station can be monitored in real time, transportation information is easy to access, so stable operation and supply and demand management are possible. can do.
- FIG. 1 is a view for explaining that a fuel supply chain management system according to an embodiment disclosed in this document operates with a charging station and a shipping center.
- FIG. 2 is a block diagram illustrating a configuration of a fuel supply chain management system according to an embodiment disclosed in this document.
- FIG. 3 is a view for explaining an operation process of the fuel supply chain management system according to an embodiment disclosed in this document.
- FIG. 4 is a view for explaining an order management operation of the fuel supply chain management system according to an embodiment disclosed in this document.
- FIG. 5 is a view for explaining a vehicle dispatch management operation of the fuel supply chain management system according to an embodiment disclosed in this document.
- FIG. 6 is a diagram for exemplarily explaining a matching operation between a charging station and a shipping center of a fuel supply chain management system according to an embodiment disclosed in this document.
- FIG. 7 is a flowchart illustrating a fuel supply chain management method according to an embodiment disclosed in this document.
- first, second, first, or second used in various embodiments can modify various components regardless of order and/or importance, do not limit
- a first component may be referred to as a second component, and similarly, the second component may also be renamed as a first component.
- FIG. 1 is a view for explaining that a fuel supply chain management system according to an embodiment disclosed in this document operates with a charging station and a shipping center.
- the fuel supply chain management system 100 may communicate with charging stations 200 and shipping centers 300 located in various locations.
- the fuel supply chain management system 100 may communicate directly with the charging station 200 and the shipping center 300 through a network, or may communicate through an intermediary server (not shown).
- the fuel supply chain management system 100 collects various data from the charging station 200 and the shipping center 300, and performs overall monitoring and management tasks through an operation algorithm based on the collected data. can be done
- the fuel supply chain management system 100 may predict a demand for fuel based on the fuel consumption pattern of the charging station 200 and perform an automatic order.
- the charging scheduling of the shipping center 300 may be generated to calculate the required shipment amount (eg, the number of tube trailers required for shipment) by day/time.
- the fuel supply chain management system 100 selects a charging station 200 requiring fuel replacement, and the time and location data required for replacement of the charging station 200 , etc., and the tube trailer buffering and standby state of the shipping center 300 , the quantity , it is possible to create an optimal matching and dispatch schedule between the charging station 200 and the shipping center 300 based on the available shipping time and location data.
- the fuel supply chain management system 100 may perform operation and inventory management of the tube trailer.
- the fuel supply chain management system 100 performs inventory management for each state (eg, charging, standby, moving) and location (vehicle, charging station 200, shipping center 300, etc.) of the tube trailer and , assigning an empty tube trailer to the shipping center 300 or managing a key value of the tube trailer can be performed.
- the fuel supply chain management system 100 is the tube trailer charging status of the shipping center 300, fuel consumption by each charging station 200, remaining amount, predicted consumption, order status, transportation vehicle dispatch status, vehicle location, tube trailer Monitoring of status such as inventory, location, and status can be performed.
- the fuel supply chain management system 100 may perform basic information management such as information on the charging station 200 , information on the shipping center 300 , and information on transportation vehicles and drivers.
- the fuel supply chain management system 100 manages the shipping center 300 such as charging scheduling of the tube trailer of the shipping center 300, tube trailer inventory management (buffering, charging, waiting), and tube trailer entry/exit management. can be performed.
- the fuel supply chain management system 100 performs dispatch scheduling and routing of transport vehicles (eg, the locations of the charging stations 200 and shipping centers 300 within the region, the buffering time of the tube trailer, and the charging stations 200 ). It can perform transportation management functions such as matching and dispatching between vehicles and tube trailers considering replacement time), tracking the location of vehicles and tube trailers in real time, and managing the collection of tube trailers.
- the fuel supply chain management system 100 is an automatic order in consideration of the remaining amount, consumption amount, and replacement time of the charging station 200, automatic order rule management, order status management and demand prediction based on the consumption pattern of the charging station 200, tube trailer It is possible to perform the order and overall management functions of the charging station 200, such as warehouse storage and replacement history management (ie, replacement between the buffer tube trailer and the empty tube trailer).
- the fuel supply chain management system 100 performs aggregation and settlement of order types of the charging station 200 (eg, transportation, distribution, transportation/distribution), sales settlement management, settlement transmission and sales transaction statement issuance, purchase settlement transmission, Settlement management tasks such as issuance of purchase transaction statements can also be performed.
- order types of the charging station 200 eg, transportation, distribution, transportation/distribution
- sales settlement management e.g., settlement transmission and sales transaction statement issuance
- purchase settlement transmission e.g., purchase settlement transmission
- Settlement management tasks such as issuance of purchase transaction statements can also be performed.
- the fuel supply chain management system 100 provides the transport vehicle location and status (eg, driving, waiting), the location and status of the tube trailer (eg, charging, moving), real-time traffic information, and average movement of the vehicle.
- the transport vehicle location and status eg, driving, waiting
- the location and status of the tube trailer eg, charging, moving
- real-time traffic information e.g.
- the fuel supply chain management system 100 may link the GPS to track the location of the transport vehicle and the tube trailer in real time, and perform comprehensive control monitoring.
- the charging station 200 may transmit various data related to the fuel demand to the fuel supply chain management system 100 .
- the charging station 200 may include daily/weekly/monthly fuel usage (or sales volume), fuel remaining in real-time tube trailer, operating hours (eg, peak time, vehicle waiting time, etc.), tube trailer replacement history ( Period, number of months, etc.) and location information for each charging station 200 may be transmitted to the fuel supply chain management system 100 .
- the fuel supply chain management system 100 predicts demand (or replacement timing) based on consumption patterns, automatic ordering according to the remaining amount of fuel/lead time/replacement time, and transport vehicle It is possible to perform monitoring and management functions such as dispatch status, real-time vehicle location information, and expected arrival time information.
- the shipping center 300 may transmit various data regarding the shipping status of fuel to the fuel supply chain management system 100 .
- the shipping center 300 includes daily/weekly/monthly shipment (or supply amount), tube trailer operation information (charging, standby), tube trailer charging time, supply cycle for each charging station 200 and shipping center (300) Star location information and the like may be transmitted to the fuel supply chain management system 100 .
- the fuel supply chain management system 100 monitors the charging status of the tube trailer provided in the shipping center 300 , and predicts the supply amount and supply time for each charging station 200 , forecast information It is possible to perform functions such as scheduling based charging operation (eg, tube trailer information required for charging and shipping by day/time) and generating data based on actual transport volume.
- scheduling based charging operation eg, tube trailer information required for charging and shipping by day/time
- FIG. 2 is a block diagram illustrating a configuration of a fuel supply chain management system according to an embodiment disclosed in this document.
- the fuel supply chain management system 100 may include an information acquisition unit 110 , a charging station management unit 120 , and a shipment management unit 130 .
- the information acquisition unit 110 may acquire operation information of the charging station 200 and operation information of the shipping center 300 .
- the operation information of the charging station 200 may include fuel usage by period, the remaining amount of fuel, a fuel replacement history, operating time and location information of the charging station 200 , and the like.
- the operation information of the shipping center 300 may include a supply amount for each period of the shipping center 300 , operation information about a fuel transportation means, a supply cycle for each charging station, location information of the shipping center 300 , and the like.
- the fuel may include hydrogen in forms such as gaseous, liquid and liquid organic hydrogen carriers (LOHC).
- the charging station management unit 120 may monitor the charging station based on the operation information of the charging station 200 and predict the demand for fuel provided by the charging station 200 . Specifically, the charging station management unit 120 may predict the demand for fuel of the charging station 200 based on a consumption pattern related to the fuel of the charging station 200 . In addition, the charging station management unit 120 may provide the charging station 200 with information on the dispatch status of the transportation means for transporting fuel, the real-time location of the transportation means, and the expected arrival time of the transportation means.
- the charging station management unit 120 may automatically generate order information regarding the transportation of fuel based on the demand prediction information regarding the fuel of the charging station 200 . That is, the fuel supply chain management system 100 according to an embodiment disclosed in this document estimates the replacement time and quantity according to the demand forecast information calculated by the charging station management unit 120 based on the fuel usage, remaining amount, etc. of the charging station 200 . And, even if the operator of the charging station 200 does not directly place an order, the order can be automatically performed.
- the shipment management unit 130 is based on at least one of the operation information of the charging station 200 , the operation information of the shipping center 300 , and the demand forecast information of the charging station 200 , the fuel between the charging station 200 and the shipping center 300 . You can manage the supply chain. For example, the shipment management unit 130 may transport fuel to each of the charging stations 200 based on the operation information of the charging station 200 , the operation information of the shipping center 300 , and the demand forecast information of the charging station 200 . It is possible to allocate a possible shipping center 300 .
- the shipment management unit 130 may generate a schedule related to transportation of fuel.
- the schedule for transporting fuel may include information on the allocation and dispatch schedule of transport means for transporting fuel.
- the shipment management unit 130 relates to the amount of fuel supplied to the shipping center 300 , the number of filling nozzles provided in the shipping center 300 , the pressure of the filling nozzles, the number of fuel transportation means, and the capacity of the transportation means.
- a fuel transportation schedule may be generated based on the information, the operating time of the charging station 200 , the distance from the shipping center 300 , and information on the average travel time to the shipping center.
- the shipment management unit 130 may generate charging schedule information regarding the transportation means of the fuel provided in the shipment center 300 . Accordingly, the manager of the shipping center 300 may allow the transportation means (eg, tube trailer) to be filled according to the filling schedule information.
- the transportation means eg, tube trailer
- the shipment management unit 130 may provide information about fuel consumption, remaining amount, demand forecast amount, replacement time, and the like for each charging station 200 to the shipping center 300 .
- the shipment management unit 130 may provide information about the movement route of the transportation means calculated based on real-time traffic information to the shipping center 300 .
- the shipment management unit 130 may monitor the charging state of the fuel transportation means provided in the shipment center 300 .
- the shipment management unit 130 may generate settlement information regarding the transportation of fuel based on actual transportation information of the fuel.
- the shipment management unit 130 may include fuel supply amount, transportation means usage fee, and the like, and generate settlement information for the corresponding transportation case.
- the fuel supply chain management system 100 monitors the entire area of the hydrogen supply chain, and implements an optimization system through application of optimal logic to determine the consumption amount of the charging station 200, the supply cycle, It is possible to monitor the remaining amount and predicted demand in real time, and easy access to transportation information enables stable operation and supply and demand management, and is based on information such as consumption of each charging station 200, predicted demand, and tube trailer operation status. This enables efficient charging and discharging tasks.
- FIG. 3 is a view for explaining an operation process of a fuel supply chain management system according to an embodiment disclosed in this document.
- the fuel supply network management system 100 collects data on operation information of the charging station 200 from the charging stations 200 provided in each region, and the Monitoring may be performed (S101).
- the fuel supply chain management system 100 may perform demand forecasting management for each charging station 200 based on the operation information of the charging station 200 ( S102 ).
- the fuel supply chain management system 100 may automatically perform an order even if the operator of the charging station 200 does not directly order based on the fuel consumption amount, remaining amount, predicted demand, etc. for each charging station 200 ( S103 ).
- the fuel supply chain management system 100 includes the location of the charging station 200 , the location of the shipping center 300 , location information of tube trailers and transport vehicles, and the predicted demand for the charging station 200 and the charging status of the shipping center 300 .
- An optimal shipping center 300 may be allocated for each charging station 200 based on the same (S104).
- the fuel supply chain management system 100 may perform the order management function M1 for the charging station 200 through steps S101 to S104 described above.
- the fuel supply chain management system 100 may transmit a transport instruction to the charging station 200 to the assigned shipping center 300 (S105). In addition, the fuel supply chain management system 100 may allocate and dispatch the vehicle and the tube trailer in consideration of the location and charging status of each transport vehicle and the tube trailer (S106). And, the fuel supply chain management system 100 may perform an introductory management task for the transport vehicle and the tube trailer (S107).
- the fuel supply chain management system 100 may perform the allocation and dispatch management function M2 regarding the transportation means for the charging station 200 through steps S105 to S106 described above. there is.
- charging scheduling of the shipping center 300 may be performed ( S108 ). That is, the fuel supply chain management system 100 monitors the charging status (eg, fully charged, charged, uncharged) for each of the tube trailers provided in the shipping center 300 to generate a charging schedule for each tube trailer. can (M3).
- the charging status eg, fully charged, charged, uncharged
- the fuel supply chain management system 100 allocates an empty tube trailer that is not charged, transmits a charging instruction (S109), and can be buffered for all tube trailers (S110).
- the fuel supply chain management system 100 may manage inventory according to the state of the tube trailer provided in the shipping center 300 based on the charging status (buffered/charging/unfilled) of each tube trailer (S111) .
- the shipping center 300 may allocate a buffered tube trailer.
- the shipping center 300 loads (joins) the assigned tube trailer to the transport vehicle (S114), and when shipment preparation is completed, shipment can be confirmed (S115). As such, when the shipment is confirmed, the fuel supply chain management system 100 may perform settlement of the distribution of the corresponding fuel (S116).
- the fuel supply chain management system 100 may manage whether the shipment is confirmed and the transport vehicle and the tube trailer depart from the shipping center 300 and arrive at the charging station 200 ( S117 ).
- the fuel supply chain management system 100 may provide information such as a real-time location or an expected arrival time to the charging station 200 and the shipping center 300 by identifying real-time locations of transportation vehicles and tube trailers.
- the tube trailer is replaced with the corresponding tube trailer and the used tube trailer can be recovered ( S118 ).
- settlement of the corresponding transport case may be performed (S119).
- the fuel supply chain management system 100 allocates the shipping center 300 for warehousing the recovered tube trailer (S120), waits at the waiting area of the corresponding tube trailer, and instructs the loading when ready for loading can be transmitted (S121). In this way, the fuel supply chain management system 100 may manage to refill the recovered tube trailer by scheduling the charging after putting the recovered tube trailer back into the shipping center 300 .
- FIG. 4 is a view for explaining an order management operation of the fuel supply chain management system according to an embodiment disclosed in this document.
- the fuel supply chain management system 100 may first monitor the operation information data of the charging station 200 during order management ( S201 ). At this time, the fuel supply chain management system 100 may monitor the hydrogen demand amount for each charging station 200 . For example, the fuel supply chain management system 100 may perform monitoring based on hydrogen charging time and consumption per unit sales, and the remaining amount of hydrogen in the tube trailer of the current charging station 200 .
- the fuel supply chain management system 100 may predict the demand for hydrogen for each charging station ( S202 ). For example, the fuel supply chain management system 100 may predict the replacement time based on the past performance of the corresponding charging station, or may predict the replacement time of hydrogen for each charging station 200 through a separate algorithm. In addition, the fuel supply chain management system 100 may check whether there is a tube trailer needing replacement (ie, a tube trailer to be recovered) in the current charging station 200 ( S203 ).
- a tube trailer needing replacement ie, a tube trailer to be recovered
- the fuel supply chain management system 100 may generate the target charging station and charging amount information requiring replacement of the tube trailer (S204). For example, the fuel supply chain management system 100 may generate location information of the charging station 200 requiring replacement of the tube trailer and information on the amount of charging required according to the capacity of each tube trailer.
- the charging station 200 may receive information on a replacement target charging station and a charging amount by the fuel supply chain management system 100 , and confirm an order regarding the corresponding charging station and charging amount ( S205 ). For example, when the manager of the charging station 200 finally confirms the order for charging, it may be set to proceed to the next process.
- the fuel supply chain management system 100 may check whether charging of the charging station 200 is possible for each shipping center 300 (S206) . In this case, the fuel supply chain management system 100 may select a place where the tube trailer can be buffered in the shipping centers 300 located in each region, and check the number of nozzles for charging of the corresponding shipping center 300 .
- the fuel supply chain management system 100 may allocate a shipping center 300 capable of charging for the replacement target charging station 200 ( S207 ). At this time, the fuel supply chain management system 100 is the optimal shipping center 300 matched with each charging station 200 based on data such as the location of the charging station 200 and the shipping center 300 and the charging status of the tube trailer. ) can be assigned.
- the fuel supply chain management system 100 may perform the charging scheduling of the tube trailer for the assigned shipping center 300 (S208). For example, the fuel supply chain management system 100 may determine the total amount of hydrogen supplied to the shipping center 300 (pressure) at the time of filling scheduling, the number of filling nozzles in the shipping center 300, the pressure of each nozzle, and the number of connected tube trailers. Quantity, etc. may be considered, and in the case of tube trailers, the storage capacity (pressure) of each tube trailer, and the number of tube trailers operated may be considered.
- the fuel supply chain management system 100 determines the operating hours of the charging station 200 (the consumer) at the charging station 200 (the consumer) during charging scheduling, the distance from the shipping center 300, the average travel time of the transport vehicle, and the Charging scheduling may be performed in consideration of factors such as failure or the like.
- the fuel supply chain management system 100 may check the work schedule for each shipping center 300 (S209). For example, the fuel supply chain management system 100 may check whether the buffer tube trailer is in stock and available for shipment, etc. for each shipping center 300 . In addition, the fuel supply chain management system 100 may allocate the shipping center 300 to transport the tube trailer used and recovered at each charging station 200 in consideration of the work schedule of each shipping center 300 ( S210 ). .
- the fuel supply chain management system 100 allocates the shipping center 300 for charging in step S207 or allocates the shipping center 300 to collect the tube trailer in step S210, and then places an order for the transport case. It can be created and settled (S211).
- FIG. 5 is a view for explaining a vehicle dispatch management operation of the fuel supply chain management system according to an embodiment disclosed in this document.
- the fuel supply chain management system 100 generates order information of the charging station 200 as described in FIG. 4 and allocates the order to the shipping center 300 for the order. After that, the order can be confirmed by inquiring the generated order information (S301).
- the fuel supply chain management system 100 may allocate a transport company 410 for transporting the tube trailer from the matched shipping center 300 to the charging station 200 ( S302 ). In this case, the fuel supply chain management system 100 may automatically allocate in consideration of sales, moving distance, location, etc. based on the past performance of each transport company 410 .
- the transport company 410 checks whether transport is possible to the transport driver 420 , and then it is possible on the system of the transport company 410 . It can be registered with respect to whether or not (S303). For example, the transport company 410 may register whether transport is possible according to a reply from the transport driver 420 after transmitting a message confirming whether transport is possible to the terminal of the transport driver 420 .
- the fuel supply chain management system 100 and the transport company 410 may check the assignment order (S304).
- the fuel supply chain management system 100 and the transport company 410 may check whether a transport vehicle is available (S305), and then dispatch a transportable vehicle (S306).
- the transportation vehicle may be automatically allocated in consideration of sales, distance traveled, number of transportation, etc. based on past performance.
- the fuel supply chain management system 100 or the transport company 410 may transmit a dispatch and order confirmation message to the transport driver 420 of the case (S307).
- the dispatch and order confirmation message may be transmitted through an app stored in the terminal of the transport driver 420 or may be delivered by outputting a separate transport instruction when offline.
- FIG. 5 it has been described that the dispatch management operation of the fuel supply chain management system 100 is performed by communicating with the transport company 410 , but the fuel supply chain management system 100 disclosed in this document is not limited thereto, and shipping It is also possible to perform the dispatch operation of the transport company in the center 300 .
- FIG. 6 is a diagram for exemplarily explaining a matching operation between a charging station and a shipping center of a fuel supply chain management system according to an embodiment disclosed in this document.
- the fuel supply chain management system 100 first predicts the demand for each charging station 200 to estimate the replacement required time, and places an order according to the corresponding demand forecast information. It is confirmed (S410). For example, in FIG. 6 , the replacement required date and time of each charging station 200 are shown.
- the fuel supply chain management system 100 may allocate the shipping center 300 according to the predicted demand and replacement time of each charging station 200 (S420). For example, in FIG. 6 , based on the time when the buffer tube trailer should arrive at the charging station 200, the tube trailer for charging stations 1, 4, 7 and 10 requiring replacement at 13:00 on April 15, 2021 4 tube trailers are required for stations 2, 5, 8 and 11 requiring replacement at 19:00 on April 16, 2021 4 tube trailers for , 6, 9 and 12.
- the fuel supply chain management system 100 buffers 4 tube trailers for shipment center A by 08 o'clock on April 15, 2021 for arrival at 13:00 on April 15, 2021, and 2021 Two tube trailers can be fully charged by 13:00 on 16 April 2021 for a 19:00 arrival on 16 April 2021.
- the fuel supply chain management system 100 buffers two tube trailers by 13:00 on April 16, 2021 for arrival at 19:00 on April 16, 2021 for shipping center B, and on April 17, 2021 4 tube trailers can be fully charged by 08:00 on 17 April 2021 for a 13:00 arrival.
- the fuel supply chain management system 100 considers factors such as the number of recovered tube trailers, whether pre-charging is possible, a short distance, and the number of movable nozzles in the shipping center 300 (including failure). to allocate the shipping center 300 .
- the fuel supply chain management system 100 may perform scheduling for the assigned shipping center 300 (S430).
- the fuel supply chain management system 100 schedules for the shipping center A to buffer 4 tube trailers by 08:00 on April 15, 2021, and to buffer 2 tube trailers by 13:00 on April 16, 2021 can do.
- the fuel supply chain management system 100 is scheduled to buffer two tube trailers by 13:00 on April 16, 2021 for shipping center B, and to buffer four tube trailers by 13:00 on April 17, 2021. can
- step S430 in consideration of the operating time of the charging station 200, the distance from the shipping center 300, the average moving time of the transport vehicle, the charging time of the tube trailer during simultaneous charging at the shipping center 300, etc.
- Shipment scheduling can be performed.
- shipment scheduling may be performed for each nozzle in consideration of the time required for simultaneous charging (eg, 1-2 hours each) for buffering each tube trailer.
- the fuel supply chain management system 100 may dispatch a transport vehicle to the assigned shipping center 300 and supply the transport vehicle and tube trailer from the shipping center 300 to each matched charging station 200 . (S440). For example, in FIG. 6 , the fuel supply chain management system 100 dispatches transportation vehicles to charging stations 1, 4, 7 and 10 based on arrival at 13:00 on April 15, 2021 (dispatched at 8:00 am) for shipping center A. In addition, transportation vehicles can be dispatched to charging stations 2 and 5 as of 19:00 arrival on April 16, 2021 (dispatched at 13:00 pm).
- the fuel supply chain management system 100 dispatches transportation vehicles to charging stations 8 and 11 as of 19:00 arrival on April 16, 2021 (delivery at 13:00 pm) for shipping center B, and dispatches transportation vehicles to charging stations 8 and 11 on April 17, 2021 13 Delivery vehicles can be dispatched to charging stations 3, 6, 9 and 12 based on city arrival (delivery at 8 am).
- the fuel to be charged is hydrogen in FIGS. 1 to 6 above
- the fuel supply chain management system 100 disclosed in this document is not limited only to fuel, and in addition, supply chain management for various types of fuel can be performed. there is.
- FIG. 7 is a flowchart illustrating a fuel supply chain management method according to an embodiment disclosed in this document.
- the fuel supply chain management method may first acquire operation information of the charging station 200 and operation information of the shipping center 300 ( S510 ).
- the operation information of the charging station 200 may include fuel usage by period, the remaining amount of fuel, a fuel replacement history, operating time and location information of the charging station 200 , and the like.
- the operation information of the shipping center 300 may include the supply amount by period of the shipping center 300 , operation information on the transportation means of fuel, the supply cycle for each charging station 200 , and location information of the shipping center 300 , etc. there is.
- the fuel may include hydrogen in the form of gases, liquids, and LOHCs.
- the charging station 200 may be monitored based on the operation information of the charging station 200 , and the demand for fuel provided by the charging station 200 may be predicted ( S520 ). Specifically, in step S520 , the fuel demand of the charging station 200 may be predicted based on the consumption pattern of the fuel of the charging station 200 . In addition, in step S520, information on the dispatch status of the transportation means for transporting fuel, the real-time location of the transportation means, and the expected arrival time of the transportation means may be provided to the charging station.
- order information regarding fuel transportation may also be automatically generated based on the fuel demand prediction information of the charging station 200 . That is, the fuel supply chain management method according to an embodiment disclosed in this document estimates the replacement time and quantity according to the demand forecast information calculated based on the fuel usage and remaining amount of the charging station 200 , and the operator of the charging station 200 Even if you do not place an order yourself, you can automatically place an order.
- the fuel supply chain between the charging station 200 and the shipping center 300 is managed You can (S530). For example, based on the operation information of the charging station 200 , the operation information of the shipping center 300 , and the demand forecast information of the charging station 200 , the shipping center 300 capable of transporting fuel to each of the charging stations 200 . ) can be assigned.
- a schedule related to fuel transportation may be generated.
- the schedule for transporting fuel may include information on the allocation and dispatch schedule of transport means for transporting fuel. For example, information on the amount of fuel supplied to the shipping center 300 , the number of filling nozzles provided in the shipping center 300 , the pressure of the filling nozzles, the number of fuel transport means, and the capacity of the transport means and the charging station 200 .
- a fuel transportation schedule may be generated based on information on the operating time of the , the distance from the shipping center 300 and the average travel time to the shipping center 300 .
- step S530 the charging schedule information regarding the transportation means of the fuel provided in the shipping center 300 may be generated. Accordingly, the manager of the shipping center 300 may allow the transportation means (eg, tube trailer) to be filled according to the filling schedule information.
- the transportation means eg, tube trailer
- step S530 the method may further include providing information on fuel consumption, residual amount, demand forecast amount, replacement time, and the like for each charging station 200 to the shipping center 300 .
- step S530 may further include the step of providing information on the movement route of the transportation means calculated based on real-time traffic information to the shipping center 300 .
- step S530 may further include the step of monitoring the charging state of the fuel transport means provided in the shipping center (300).
- step S530 based on the actual transportation information of the fuel, it is possible to generate settlement information on the transportation of fuel. For example, it may include fuel supply amount, transportation means usage fee, and the like, and generate settlement information for the corresponding transportation case.
- the fuel supply chain management method monitors the entire area of the hydrogen supply chain and implements an optimization system through application of optimal logic to predict consumption, supply cycle, remaining amount, and prediction of the charging station 200 .
- Demand can be monitored in real time, transportation information is easy to access, so stable operation and supply and demand management are possible. and dispatch work.
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Abstract
Description
Claims (17)
- 충전소의 운영 정보와 출하 센터의 운영 정보를 획득하는 정보 획득부;상기 충전소의 운영 정보에 기초하여 상기 충전소에 대한 모니터링을 수행하고, 상기 충전소가 제공하는 연료에 관한 수요를 예측하는 충전소 관리부; 및상기 충전소의 운영 정보, 상기 출하 센터의 운영 정보 및 상기 충전소의 수요 예측 정보 중 적어도 하나에 기초하여, 상기 충전소와 상기 출하 센터 간의 연료 공급망을 관리하는 출하 관리부를 포함하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 충전소 관리부는 상기 충전소의 상기 연료에 관한 소비 패턴에 기반하여 상기 충전소의 상기 연료에 관한 수요를 예측하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 충전소 관리부는 상기 연료를 운송하는 운송 수단의 배차 현황, 상기 운송 수단의 실시간 위치 및 상기 운송 수단의 예상 도착 시간에 관한 정보 중 적어도 하나를 상기 충전소에 제공하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 충전소 관리부는 상기 충전소의 상기 연료에 관한 수요 예측 정보에 기반하여 상기 연료의 운송에 관한 주문 정보를 자동으로 생성하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 충전소의 운영 정보, 상기 출하 센터의 운영 정보 및 상기 충전소의 수요 예측 정보에 기초하여, 상기 충전소 각각에 대하여 상기 연료를 운송할 수 있는 출하 센터를 할당하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 연료의 운송에 관한 스케줄을 생성하는 연료 공급망 관리 시스템.
- 청구항 6에 있어서,상기 연료의 운송에 관한 스케줄은 상기 연료를 운송하는 운송 수단의 배정 및 배차 스케줄에 관한 정보를 포함하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 출하 센터에 마련된 상기 연료의 운송 수단에 관한 충전 스케줄 정보를 생성하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 충전소 별로 상기 연료의 소비량, 잔량, 수요 예측량 및 교체 시점 중 적어도 하나에 관한 정보를 상기 출하 센터로 제공하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 연료의 실제 운송 정보에 기반하여 상기 연료의 운송에 관한 정산 정보를 생성하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 실시간 교통 정보에 기반하여 산출된 상기 연료를 운송하는 운송 수단의 이동 경로에 관한 정보를 상기 출하 센터에 제공하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 출하 센터에 마련된 상기 연료의 운송 수단의 충전 상태에 관한 모니터링을 수행하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 충전소의 운영 정보는 상기 연료의 기간별 사용량, 상기 연료의 잔량, 상기 연료의 교체 이력, 상기 충전소의 운영 시간 및 위치 정보 중 적어도 하나를 포함하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 센터의 운영 정보는 상기 출하 센터의 기간별 공급량, 상기 연료의 운송 수단에 관한 운영 정보, 상기 충전소 별 공급 주기 및 상기 출하 센터 위치 정보 중 적어도 하나를 포함하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 출하 관리부는 상기 출하 센터의 상기 연료의 공급량, 상기 출하 센터에 구비된 충전 노즐의 수, 상기 충전 노즐의 압력, 상기 연료의 운송 수단의 수 및 상기 운송 수단의 용량에 관한 정보와, 상기 충전소의 운영 시간, 출하 센터와의 거리 및 상기 출하 센터까지의 평균 이동 시간에 관한 정보에 기반하여, 상기 운송 스케줄을 생성하는 연료 공급망 관리 시스템.
- 청구항 1에 있어서,상기 연료는 기체, 액체 및 LOHC(Liquid organic hydrogen carriers) 중 적어도 하나의 형태를 갖는 수소를 포함하는 연료 공급망 관리 시스템.
- 충전소의 운영 정보와 출하 센터의 운영 정보를 획득하는 단계;상기 충전소의 운영 정보에 기초하여 상기 충전소에 대한 모니터링을 수행하고, 상기 충전소가 제공하는 연료에 관한 수요를 예측하는 단계; 및상기 충전소의 운영 정보, 상기 출하 센터의 운영 정보 및 상기 충전소의 수요 예측 정보 중 적어도 하나에 기초하여, 상기 충전소와 상기 출하 센터 간의 연료 공급망을 관리하는 단계를 포함하는 연료 공급망 관리 시스템.
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JP2017009069A (ja) * | 2015-06-24 | 2017-01-12 | Jxエネルギー株式会社 | 水素ステーションの集中管理システム、及び、水素製造出荷システム |
JP6698411B2 (ja) * | 2016-04-18 | 2020-05-27 | Jxtgエネルギー株式会社 | 移動式水素ステーションの配置計画作成方法、配置計画情報提供方法、及び、配置管理方法 |
KR102057649B1 (ko) * | 2018-12-13 | 2019-12-19 | 주식회사 알고리고 | 상위계층 인공신경망을 이용한 전기차 충전소 점유 예측 장치 및 방법 |
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US11875371B1 (en) | 2017-04-24 | 2024-01-16 | Skyline Products, Inc. | Price optimization system |
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US20230078287A1 (en) | 2023-03-16 |
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