KR20190004166A - System and Method for Providing business consulting for LNG supply solutions - Google Patents

Abstract

The present invention relates to a system and a method for providing business consulting for an LNG supply solution, which can quickly provide, to a customer, a reliable estimate together with a customized LNG supply solution in an LNG power plant engineering connection business process, and which enable an equipment company to easily access new project information to calculate an estimate simply. The system includes: a basic LNG plant information management unit managing basic LNG plant information including performance requirement conditions of a client, and cost, delivery date, installation and operation conditions; a basic design system receiving the basic LNG plant information from the basic LNG plant information management unit to generate a LNG supply scenario, deriving a basic LNG design plan according to scenarios, and deriving a design plan for each equipment item according to the basic design plan; an estimate system monitoring and updating price information for each company based on standard information, producing an estimate for each equipment item by using a database for each equipment item based on the design plan for each equipment item derived from the basic design system, and requesting the LNG equipment company for feedback for estimate validity; and an optimal design system analyzing information on the various design plans according to the scenarios and the estimates of the scenarios to derive a customized solution in which the conditions are reflected.

Description

{System and method for providing business consulting for LNG supply solution}

The present invention relates to LNG power plant engineering-linked business. Specifically, it provides customers with a customized LNG supply solution and a reliable estimate quickly, and the equipment maker can easily access the new project information, To a system and method for providing business consulting for an LNG supply solution.

In recent years, convergence and hybrid researches have been actively carried out in order to create new added value and market through the convergence of advanced IT and traditional industries in all industrial fields, and the government is determined to improve the poor plant environment in Korea.

Until now, the plant industry has been too biased toward petroleum gas and petrochemicals, labor shortage due to imbalance in orders among companies, and various technological and cost problems. In order to solve these problems, it is required to establish management strategies through analysis of accurate market environment.

In response, demand for elemental technologies such as liquefied natural gas (LNG) plant business management has increased, and the application of cutting-edge IT technology to the plant industry is increasing.

In particular, LNG is emerging as a new energy source, and as LNG market continues to increase in demand, large-scale LNG plant orders are increasing in natural gas-producing countries.

In the LNG plant market, there is a desire to secure competitiveness through minimizing construction costs, to improve productivity through technology development and to analyze its effect. In terms of customers, it is necessary to shorten the air and generate profit through early production and minimize investment capital And early withdrawal of investment funds.

In addition, LNG construction companies are striving to enhance their competitiveness, minimize risks and maximize profits when carrying out similar projects by accumulating know-how and procurement ability for efficiency in business management. There is a need to secure competitiveness compared to competitors.

As with other large-scale construction projects, the LNG plant construction business is a project that performs all the tasks of planning, designing, purchasing and procurement, construction and commissioning, operation and maintenance in a lump sum, It is essential to acquire systematic technical standards and procedures related to the project, accumulation of construction experience and know-how, and management techniques.

Therefore, it is required to develop new LNG power plant engineering business-related business tools to improve the competitiveness of small shipyards and LNG equipment makers.

Korean Patent Publication No. 10-2014-0102039 Korean Patent Publication No. 10-2013-0088452 Korean Patent Publication No. 10-2011-0076699

The present invention solves the problem of the conventional LNG power generation plant engineering business, and it can provide a reliable LNG supply solution to the customer in a business process of LNG power generation plant engineering business, And to provide a business consulting providing system and method for an LNG supply solution.

An object of the present invention is to provide a business consulting providing system and method for an LNG supply solution in which equipment companies can easily access new project information in the business process of LNG power plant engineering business and make estimates easy to calculate.

The present invention aims to provide a business consulting providing system and method for an LNG supply solution that can effectively provide business consulting of a small to medium sized LNG supply solution by using quoted price information of domestic LNG equipment manufacturers.

The present invention provides a basic design system that derives basic design information of LNG CCS (Cargo Containment System) and CHS (Cargo Handling System) by receiving basic design information of plant to receive LNG from customer, To provide a business consulting providing system and method for an LNG supply solution.

The present invention relates to a LNG supply solution that can provide an LNG supply solution by constructing an estimation system that calculates a quotation based on the derived basic design plan and a derived basic design plan and an optimum design system that comprehensively estimates the quotation information And to provide a business consulting providing system and method.

The present invention provides customers with a customized LNG supply solution as well as promptly providing reliable estimates, and the equipment manufacturers can easily access the new project information to facilitate the estimation of estimates, thereby improving the competitiveness of domestic small shipyards and LNG equipment makers The present invention provides a business consulting providing system and method for an LNG supply solution.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, there is provided a business consulting providing system for an LNG supply solution according to the present invention, comprising: an LNG plant basic information managing unit for managing LNG plant basic information including a performance requirement and cost, a delivery date, LNG plant basic information management system to receive LNG plant basic information, generate LNG supply scenario, derive LNG basic design according to scenario, and basic design system to derive design item according to basic design, Estimation system that monitors and updates unit price information, calculates estimates for each equipment item using database for each equipment item based on the design plan for each equipment item derived from the basic design system, and requests feedback on the validity of the estimate to the LNG equipment manufacturer; The design of several scenarios and And an optimal design system for comprehensively analyzing the estimation information of the scenario and deriving a customized solution reflecting the constraint condition.

Here, the basic design system includes an LNG plant basic information processing module for managing LNG plant basic information, an LNG supply scenario generation module for generating LNG supply scenarios for each LNG supply route, each supply cycle, and storage tank type, A basic design module for each equipment item to derive a basic design plan for each equipment item according to the LNG supply scenario generated by the LNG supply scenario generation module and a basic design module for each LNG supply scenario based on the constraint information And a final basic design module for each item of equipment to derive a final basic design for each item of equipment considering a scenario based on constraint condition information of the constraint condition determination module, do.

The basic information managed by the LNG plant basic information processing module includes LNG plant generation capacity, LNG plant location information, LNG plant stockpile days, LNG supply facility supply amount, LNG supply facility sea area information, LNG bunkering vessel (bunkering) vessel size limit, LNG bunker speed limit item.

In order to derive the basic design for each equipment item according to the LNG supply scenario in the basic design module for each equipment item, LNG plant storage tank design pressure / size / weight / quantity, LNG plant regulator capacity, LNG bunker vessel bunkering vessel storage tank size / weight / volume LNG bunker vessel hull structure size / weight / volume LNG bunker vessel liquefaction capacity LNG bunkering bunkering vessel loading / unloading rate, It is characterized by including the LNG bunkering vessel P & ID (Piping and Instrument diagram), LNG bunkering vessel main engine output, loading arm capacity, ISO tank size / weight / quantity and onshore LNG tank size / do.

The constraint condition determination module makes a determination with constraints including an LNG bunkering vessel size limitation, an LNG bunkering vessel speed restriction, an LNG bunkering vessel draft restriction, and an ISO tank quantity restriction item. .

The estimating system includes an estimating reference information conversion determining module for determining whether estimating reference information conversion is necessary when the basic information of the equipment items extracted by the basic designing system is inputted, A quote calculating module for calculating a quote for each item of the equipment with the quote reference information converted through the quote reference information converting module; A quotation information validity evaluation module for requesting and confirming quotation information feedback for each equipment company when the quotation for each equipment item is calculated in the quotation module for each equipment item and analyzing financial information for each equipment company to evaluate the validity of the quotation information for each equipment company; Estimate from Evaluation Module Once validation is complete, view the selected equipment vendors, and to include the supplier selection and confirmation module that estimates the equipment itemized estimate calculated considering the scenarios feature.

The quotation criterion information conversion module calculates the CCS quantity including the calculation of the storage tank quantity by type, the heat insulation quantity calculation by type, the support quantity calculation, and the welding quantity calculation for the estimation standard information conversion, And calculating a CHS quantity including an electric wiring quantity calculation, a pipe and a flange quantity calculation.

The optimal design system includes an additional cost calculation module for calculating an additional cost when a quotation is calculated for each item of equipment considering a scenario in a quotation system, a quotation for each item of equipment considering a scenario of a quotation system, A comprehensive estimating module for each scenario to calculate a total cost estimate for each scenario and a comprehensive estimating module for each scenario in the scenario estimating module to calculate a constraint condition for determining a constraining condition using the basic design information for each scenario of the basic designing system And an LNG supply solution providing module for deriving and providing an optimal LNG supply solution satisfying both the determination module and the constraint condition determining module constraint conditions.

The above-mentioned additional cost calculation module is an item for calculating the additional cost and is characterized by including an engineering cost, a local contents cost including a local civil engineering and pipe construction cost, an equipment test cost, and a classification approval cost item.

The constraint condition determination module includes a constraint condition item including a cost, a delivery date, and a local contents ratio item, and the constraint condition is determined by weighting the item by item.

According to another aspect of the present invention, there is provided a method of providing business consulting for an LNG supply solution, the method comprising: receiving basic LNG plant information including performance requirements and cost, The basic design stage is to generate the LNG supply scenario using the information, to derive the LNG basic design according to the scenario, and to derive the design item according to the basic design, to monitor and update the unit price information according to the standard information, Estimating the cost of each item by using the database for each item based on the design plan for each item, and asking for feedback on the validity of the estimate to the LNG equipment maker; estimating the design of the various scenarios and estimating the scenario Comprehensive analysis of the information, Characterized in that it comprises a; Optimization step of deriving a customized solutions.

The LNG bunkering vessel size limit, LNG bunkering capacity, LNG plant capacity, LNG plant location information, LNG plant storage days, LNG supply facility supply amount, LNG supply facility sea area information, The method comprising: receiving LNG plant basic information including a vessel speed limitation item; generating LNG supply scenarios for each LNG supply route, each supply cycle, and storage tank type by the LNG supply route; A step of determining a constraint at the time of deriving the basic design according to each item of the equipment according to the LNG supply scenario based on the constraint information, The final basic design stage for each item of equipment considered is included in the final basic design stage for each item of equipment. It is gong.

LNG plant storage tank design pressure / size / weight / quantity, LNG plant regeneration device capacity, LNG bunker vessel (LNG storage tank design capacity, bunkering vessel storage tank size / weight / volume LNG bunker vessel hull structure size / weight / volume LNG bunker vessel liquefaction capacity LNG bunkering bunkering vessel loading / unloading rate, It is characterized by including the LNG bunkering vessel P & ID (Piping and Instrument diagram), LNG bunkering vessel main engine output, loading arm capacity, ISO tank size / weight / quantity and onshore LNG tank size / do.

In determining the constraints at the time of deriving the basic design for each equipment item, judge with the constraints including the LNG bunkering vessel size limitation, LNG bunkering vessel speed limitation, LNG bunkering vessel draft limit, and ISO tank quantity restriction item. And the constraint condition is determined by making the weights different for each item.

The estimating step may include an estimating reference information conversion determining step of determining whether estimating reference information conversion is necessary when the basic equipment information of the case material derived through the basic designing step is input, Calculating a quotation for each item of the equipment with the estimated standard information converted through the step of converting the estimate standard information, calculating a quotation for each item of the equipment; And the evaluation of validity of each company's information by analyzing the financial information of each equipment company. When the evaluation of validity of the estimate information is completed, the suppliers are selected, and the estimates of each equipment item considering the scenario Including the step of calculating .

In order to convert the quotation criterion information in the above quotation reference information conversion step, the CCS quantity calculation including the calculation of the quantity of storage tank by type, the calculation of the quantity of heat insulation material by each type, the calculation of the support quantity and the calculation of the quantity of welding quantity are performed, And calculating a CHS quantity including an electric wiring quantity calculation, a pipe and a flange quantity calculation.

The optimum design stage includes an additional cost calculation step of calculating an additional cost when a quotation is calculated for each item of equipment considering a scenario in a quotation system and a calculation step of estimating the additional cost considering the scenario of the estimation system and the additional cost calculation step Determining a constraint condition by using the basic design information for each scenario of the basic design system when a comprehensive estimate for each scenario is calculated, and a step of determining a constraint condition, And providing and providing an LNG supply solution that satisfies all of the following constraints:

In order to calculate the additional cost in the additional cost calculation step, it includes an engineering cost, a local contents cost including a local civil engineering work and a pipe construction cost, an equipment test cost, and a classification approval cost item.

In the step of determining the constraint condition, the constraint condition item includes the cost, delivery time, and local contents ratio items, and the constraint condition is determined by changing the weight for each item.

The system and method for providing business consulting for the LNG supply solution according to the present invention has the following effects.

First, it enables customers to quickly provide reliable estimates along with customized LNG supply solutions in the LNG power plant engineering business process.

Second, equipment companies can easily access new project information in the business process of LNG power plant engineering.

Third, we can provide business consulting of small and medium sized LNG supply solution effectively by using quoted price information of domestic LNG equipment manufacturers.

Fourth, by receiving the basic design information of the plant to receive LNG from the customer, a basic design system that derives the basic design of LNG CCS (Cargo Containment System) and CHS (Cargo Handling System) .

Fifth, it is possible to provide the LNG supply solution effectively by constructing the estimation system that calculates the estimates based on the derived basic design plan and the derived basic design plan and the optimum design system that comprehensively estimates the estimation information.

Sixth, we will provide customers with customized LNG supply solutions and reliable quotations quickly, and equipment manufacturers can easily access new project information and estimate quotes, helping them to secure competitiveness in small and mid-sized shipyards and LNG equipment makers. So that it can be improved.

FIG. 1 is a basic block diagram illustrating a business model consulting method for a small / mid-sized LNG supply solution
2 is a block diagram of a system for providing business consulting of an LNG supply solution according to the present invention
3A is a detailed configuration diagram of a basic design system according to the present invention
3B is a detailed configuration diagram of a quotation system according to the present invention
3C is a detailed configuration diagram of an optimum design system according to the present invention.
4 is a flowchart illustrating a method for providing business consulting of an LNG supply solution according to the present invention;
5A and 5B are a flowchart showing a basic design process and a basic design program screen configuration diagram
6A to 6C are flowcharts showing an estimation process and a configuration diagram showing an example of estimating reference information conversion
7 is a flowchart showing an optimum design process

Hereinafter, a preferred embodiment of a business consulting providing system and method for an LNG supply solution according to the present invention will be described in detail as follows.

The features and advantages of a system and method for providing business consulting for an LNG supply solution in accordance with the present invention will become apparent from the detailed description of each embodiment below.

FIG. 1 is a basic configuration diagram illustrating a business model consulting method for a small / medium LNG supply solution, and FIG. 2 is a configuration diagram of a system for providing business consulting of an LNG supply solution according to the present invention.

The present invention establishes a basic design system that derives basic design information of LNG CCS (Cargo Containment System) and CHS (Cargo Handling System) by receiving basic design information of plant to receive LNG from customer, Based on the design proposal, the estimation system that calculates the estimates and the derived basic design plan and the optimum design system that comprehensively judges the estimating information are constructed to provide the LNG supply solution effectively.

As shown in FIG. 1, the system and method for providing business consulting for the LNG supply solution according to the present invention receives basic design information of the LNG plant from the customer and optimally designs the LNG supply consulting system through a basic design and a quote, Requests for quotation validity feedback from the vendor, monitoring and updating information on the vendor quotation for each equipment, and providing engineering solutions and comprehensive quotation information to the customer.

Customers provide LNG plant basic design information to LNG supply consulting system.

Here, the customer orders the LNG plant as the main body of the LNG business, and the basic design information includes the constraint conditions of the order plant such as performance requirement (plant power generation capacity), cost, delivery time, installation / operation condition of the order plant.

Installation / operation conditions include transport distance, depth, river width, presence of legs, LNG supply cycle, and the number of days of equipment stockpiling.

The LNG supply consulting system includes the basic design system, the estimation system, and the optimum design system. The LNG supply consulting system requests the LNG equipment maker for the estimate validity feedback with the optimum design through the basic design and the estimate.

Here, the basic design system generates the LNG supply scenario, derives the LNG CCS / CHS basic (concept) design according to the scenario, and derives the design plan according to the basic design.

In addition, the estimation system monitors and updates price information for each company based on the preliminarily promised data type reference information, using a database for each equipment.

Here, the quotation information includes ① quantity (weight, volume, width, length, etc.) ② equipment specification (capacity, material, temperature, pressure, etc.)

In addition, the quotation system calculates estimates for each item of equipment, including material cost, production cost, shipping cost, delivery time information, and requests feedback on the estimation effectiveness of the LNG equipment manufacturer.

In addition, the optimal design system derives a comprehensive estimate by summing the scenarios, engineering and other costs, and comprehensively analyzes the design information of the various scenarios and the estimates of the corresponding scenarios to derive an optimal customized solution reflecting the constraints. .

LNG equipment companies can access the quotation system, update the quotation price information of the equipment, and feed back the validity of the quotation calculated from the quotation system.

As shown in FIG. 2, the business consulting providing system for the LNG supply solution according to the present invention includes an LNG plant basic information management unit for managing LNG plant basic information such as performance requirement and cost, delivery time, installation / The LNG plant basic information is received from the LNG plant basic information management unit 20 and the LNG plant basic information is generated to generate the LNG supply scenario and the LNG CCS / CHS basic (concept) design plan according to the scenario is derived. A basic design system (30) for deriving a design plan for each device, monitoring and updating price information of each company according to the preliminarily promised data type reference information, Estimates are calculated for each item by using a separate database, and the LNG equipment maker makes a request for quote validity feedback. And an optimal design system 50 for analyzing the design of the derived scenarios and the estimation information of the scenarios and deriving an optimal customized solution reflecting the constraints.

The detailed configuration of the business consulting providing system for the LNG supply solution according to the present invention having the above-described configuration will now be described.

FIG. 3A is a detailed configuration diagram of a basic design system according to the present invention, FIG. 3B is a detailed configuration diagram of a quote system according to the present invention, and FIG. 3C is a detailed configuration diagram of an optimum design system according to the present invention.

First, the detailed configuration of the basic design system includes, as shown in FIG. 3A, LNG plant generation capacity, LNG plant location information (sea / land route, plant distance, plant near sea area information), LNG plant stockpile days, LNG supply facility facility LNG plant basic information processing module (LNG plant basic information processing module 31) that manages LNG plant basic information such as supply (terminal, FSRU, FLNG, etc.), LNG supply facility sea area information, LNG bunkering vessel size limitation, LNG supply scenario generation module 32 for generating LNG supply scenarios for each LNG supply route, supply cycle, and storage tank type, LNG plant storage tank design pressure / size / weight / quantity, LNG plant re- Capacity, LNG bunkering vessel Storage tank size / weight / quantity, LNG bunkering vessel hull Structure size / weight / quantity, LNG bunker vessel Liquefaction capacity, LNG bunker LNG bunkering vessel main engine output, loading arm capacity, ISO tank size / weight / quantity, onshore (LNG bunkering vessel loading / unloading rate), LNG bunkering vessel P & A basic design module (33) for each equipment item to derive a basic design plan for each equipment item according to the LNG supply scenario for each item such as LNG tank size / weight / quantity, and a basic design module for each equipment item according to the LNG supply scenario A constraint condition determination module 34 for determining a constraint condition at the time of deriving the basic design intent, and a control unit 34 for determining a final basic design item for each item of the material considering the scenarios based on the constraint information of the constraint condition determination module 34 And a star final basic design module 35.

Here, the LNG supply scenario generation module 32 generates [LNG supply scenario generation module 32] [Case 1: route 1 + membrane tank + cycle 1 ... ], [Case 2: IMO Type B Tank + Period 1], [Case 3: Route 2 + IMO Type C Tank + Period 2] Cycle 3 ..] and so on.

The constraint determination module 34 determines and constrains the LNG bunkering vessel size limit, the LNG bunkering vessel rate limit, the LNG bunkering vessel draft limit, and the ISO tank quantity limit.

Here, the constraint condition of the constraint condition determination module 34 can be determined by weighting the item by item.

As shown in FIG. 3B, the detailed configuration of the quotation system includes a quotation criterion information conversion determination module 41 (FIG. 3) for determining whether quotation criterion information conversion is necessary when the basic information (input value) ) And a CCS including the calculation of the quantity of the insulation material (by type), the calculation of the amount of the support material, and the calculation of the quantity of the welding material when it is judged that the estimation reference information conversion is necessary in the estimation reference information conversion judgment module 41 A quotation reference information conversion module 42 for converting the quotation reference information by performing CHS quantity / spec calculation including the product spec / product quantity calculation, the electric wiring product quantity calculation, and the pipe / flange product quantity calculation, And the estimated standard information converted through the quotation reference information conversion module 42, and real time raw material price information, quantity per company / Spec. When a quotation for each item is calculated in the quotation calculation module 43 for each item and the quotation calculation module 43 for each item to calculate the quotation for each item, And evaluating the validity of the quotation information for each company by analyzing the financial information of each of the equipment companies, and when the evaluation information validity evaluation is completed in the quotation information validity evaluation module (44) and the estimating information validity evaluation module (44) And a vendor screening and quotation determination module 45 for calculating a quotation for each item of equipment considered.

As shown in FIG. 3C, the detailed design of the optimum design system is as follows. When the quotation is calculated for each equipment item considering the scenario in the estimation system, the engineering cost, local contents cost (local civil engineering / pipe construction cost, And an additional cost calculation module 51 for calculating additional costs such as costs and expenses, and an additional cost calculation module 51 for calculating the total cost estimates for each scenario, When a comprehensive estimate for each scenario is calculated in the estimation module 53 and the scenario-by-scenario estimation module 53, a constraint for determining constraints such as cost, delivery time, and local contents ratio is determined using basic design information for each scenario of the basic design system An optimum LNG supply solution that satisfies both the condition determination module 53 and the constraint condition determination module 53 And provides an LNG supply solution providing module 54 that derives and provides.

Here, the constraint condition of the constraint condition determination module 53 can be determined by weighting the item by item.

The method of providing business consulting for the LNG supply solution according to the present invention will be described in detail as follows.

4 is a flow chart illustrating a method for providing business consulting of an LNG supply solution according to the present invention.

As shown in FIG. 4, the method for providing business consulting of the LNG supply solution according to the present invention receives basic LNG plant information such as customer's performance requirement and cost, delivery date, installation / operation condition, etc. (S401)

When LNG plant basic information is input, LNG supply scenarios are created, LNG CCS / CHS basic (conceptual) design plans are derived according to the scenarios, and design plans are classified according to the basic design items (S402)

In the process of deriving the design plan for each equipment item according to the basic design, the constraint condition at the time of deriving the basic design plan for each equipment item according to the LNG supply scenario based on the installation area information and the facility operation information is determined and reflected (S403)

Next, the unit price information of each company is monitored and updated according to the preliminarily promised data type reference information, and a quotation for each item of equipment is calculated using the database for each equipment item based on the design item for each equipment item derived from the basic design system 30 , And sends a quote validity feedback request to the LNG equipment manufacturer (S404).

Then, constraint conditions such as cost, delivery date, and local contents ratio are determined using the basic design information of each scenario of the basic design system 30 (S406), and the design of the various scenarios and the corresponding scenarios (S405), and an optimal LNG supply solution satisfying all of the constraint conditions is derived and provided (S407)

Here, the process of deriving the LNG CCS / CHS basic (concept) design according to the scenario, and the design item according to the basic design will be described in detail as follows.

5A and 5B are a flow chart showing a basic design process and a basic design program screen configuration diagram.

First, the LNG plant power generation capacity, LNG plant location information (sea / land route, distance between plants, sea area near the plant), LNG plant stocking days, LNG supply facility supply (Terminal, FSRU, FLNG, etc.) LNG plant basic information such as supply facility area information, LNG bunkering vessel size limitation, LNG bunkering vessel speed limitation, etc. are inputted (S501)

When the basic information of the LNG plant is inputted, the constraint condition for deriving the basic design concept for each item of the equipment according to the LNG supply scenario based on the constraint information is determined (S502)

Next, the LNG supply scenario is generated for each LNG supply route, each supply cycle, and storage tank type (S503)

LNG bunkering vessel hull structure size / weight / volume, LNG plant storage tank design pressure / size / weight / quantity, LNG plant regeneration capacity, LNG bunkering vessel storage tank size / weight / LNG bunkering vessel main engine output, Loading arm capacity, LNG bunkering vessel liquefaction capacity, LNG bunkering vessel loading / unloading rate, LNG bunkering vessel P & ID (Piping and Instrument diagram) , ISO tank size / weight / quantity, OnShore LNG tank size / weight / quantity, etc., based on the scenario of the LNG supply scenario. The final basic design is derived. (504)

Here, the LNG supply scenario generation is [Case 1: Route 1 + Membrane tank + Period 1 ... ], [Case 2: IMO Type B Tank + Period 1], [Case 3: Route 2 + IMO Type C Tank + Period 2] Cycle 3 ..] and so on.

The constraint condition is determined by constraints such as LNG bunkering vessel size limit, LNG bunkering vessel speed limit, LNG bunkering vessel draft limit, ISO tank quantity limit, and so on.

Here, the constraint condition at the time of judging the constraint condition can be determined by making the weights different for each item.

The following is a detailed description of the process of calculating quotations for each item of equipment.

6A to 6C are block diagrams showing a flowchart showing the quotation process and a quote reference information conversion example.

As shown in FIG. 6A, the estimating process includes steps S601 to S601 of receiving basic equipment-item basic information derived through the basic design system, data processing step S602 through conversion of the estimation reference information, And a calculation step S603.

As shown in FIG. 6C, when the basic information (input value) of each equipment item extracted through the basic design system is inputted (S611), it is determined whether the estimate standard information conversion is necessary (S612)

If it is judged that the estimation reference information conversion is necessary, CCS quantity / spec calculation including calculation of storage tank quantity (by type), heat insulation quantity calculation (by type), support quantity calculation and welding quantity calculation is performed, The CHS quantity / spec calculation including the calculation of the quantity of electric wire, the calculation of quantity of electric wire, and the calculation of quantity of pipe / flange are performed to convert the quotation standard information (S613)

Then, the converted raw material price information, the quantity by company / Spec. Quot; per unit < / RTI > item < RTI ID = 0.0 >

When a quotation for each item of equipment is calculated, it requests and confirms estimation information feedback for each equipment company, analyzes the financial information of each equipment company, and evaluates the validity of the estimate information for each company (S615)

Then, when the evaluation of the estimate information is completed, the suppliers of the equipment are selected (S616), and a quotation is calculated for each equipment item considering the scenario (S617)

The optimal design process is described as follows.

7 is a flowchart showing an optimum design process.

First, when the quotation system calculates a quotation for each item of equipment considering the scenario (S702), additional costs such as engineering cost, local contents cost (local civil engineering / pipe construction cost), equipment test cost, and classification approval cost are calculated. (S703)

Then, the total estimate for each scenario is calculated based on the estimates of the equipment items and the additional cost calculation considering the scenario of the estimation system (S704).

When a comprehensive estimate for each scenario is calculated, basic design information for each scenario of the basic design system is received (S701), and constraints such as cost, delivery time, local contents ratio, etc. are determined (S705)

Next, an optimum LNG supply solution satisfying all of the constraint conditions is derived and provided (S706)

Here, the constraint condition can be determined by weighting items by item.

The system and method for providing business consulting for the LNG supply solution according to the present invention receives the basic design information of the plant to receive the LNG from the customer and provides the LNG CCS (Cargo Containment System) and CHS (Cargo Handling System) , We have constructed a basic design system that derives the basic design of the LNG supply system, and based on the derived basic design proposal system, And the like.

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

It is therefore to be understood that the specified embodiments are to be considered in an illustrative rather than a restrictive sense and that the scope of the invention is indicated by the appended claims rather than by the foregoing description and that all such differences falling within the scope of equivalents thereof are intended to be embraced therein It should be interpreted.

20. LNG Plant Basic Information Management Department
30. Basic Design System
40. Estimation System
50. Optimum Design System

Claims (19)

LNG plant basic information management department that manages LNG plant basic information including customer's performance requirement and cost, delivery time, installation operation condition;
LNG plant basic information management system to receive LNG plant basic information, to generate LNG supply scenario, to derive LNG basic design according to scenario, and to derive design item according to basic design;
Monitor and update price information for each company based on the standard information, calculate estimates for each equipment item by using the database for each equipment item based on the design items for each equipment item derived from the basic design system, and send a quote validity feedback request to the LNG equipment manufacturer Quotation system;
And an optimal design system for deriving a customized solution that reflects the constraints by comprehensively analyzing the design information of the derived scenarios and the estimation information of the scenarios and a business consulting providing system for the LNG supply solution. 2. The system as claimed in claim 1,
An LNG plant basic information processing module for performing LNG plant basic information management,
An LNG supply scenario generation module for generating LNG supply scenarios for each LNG supply route, each supply cycle, and storage tank type,
A basic design module for each equipment item to derive a basic design plan for each equipment item according to the LNG supply scenario generated by the LNG supply scenario creation module,
A constraint condition determination module for determining a constraint condition at the time of deriving the basic design concept for each item of the equipment according to the LNG supply scenario based on the constraint information,
And a final basic design module for each item of equipment for deriving a final basic design plan for each equipment item considering a scenario based on constraint condition information of the constraint condition determination module. The method of claim 2, wherein the basic information managed by the LNG plant basic information processing module includes:
LNG plant power generation capacity, LNG plant location information, LNG plant stockpiling days, LNG supply facility supply, LNG supply facility area information, LNG bunkering vessel size limit, LNG bunker speed limit items A business consulting provision system for LNG supply solutions characterized by. 3. The method according to claim 2, wherein the basic design module for each item of equipment is an item for deriving a basic design item for each item of equipment according to an LNG supply scenario,
LNG plant storage tank design pressure / size / weight / quantity, LNG plant regeneration capacity, LNG bunkering vessel storage tank size / weight / quantity, LNG bunkering vessel hull structure size / weight / quantity , LNG bunkering vessel liquefaction capacity, LNG bunkering vessel loading / unloading rate, LNG bunkering vessel P & ID (Piping and Instrument diagram), LNG bunkering vessel main engine output, Loading arm capacity, An ISO tank size / weight / quantity, and an onshore LNG tank size / weight / quantity item. 3. The apparatus of claim 2, wherein the constraint condition determination module comprises:
LNG bunkering vessel size limit, LNG bunkering vessel speed limit, LNG bunkering vessel draft limit, ISO tank quantity limitation item, and the constraint condition is determined by weighting each item. Business consulting delivery system for supply solutions. 2. The system of claim 1,
An estimating reference information conversion determining module for determining whether estimating reference information conversion is necessary when the basic information of equipment-specific items extracted through the basic designing system is input;
A quotation criterion information conversion module for performing quotation criterion information conversion when it is determined that the quotation criterion information conversion is necessary in the quotation criterion information conversion judgment module;
A quotation calculation module for each item of equipment to calculate a quotation for each item of equipment with the quotation criterion information converted through the quotation criterion information conversion module,
A quotation information validity evaluation module for requesting and confirming quotation information feedback for each equipment company when the quotation for each equipment item is calculated in the quotation calculation module for each equipment item and analyzing financial information for each equipment company,
And a module for screening and estimating a company for selecting a supplier of equipment and selecting a unit for calculating a quotation for each equipment item in consideration of a scenario when the evaluation information validity evaluation module is completed in the estimating information validity evaluation module Consulting delivery system. 7. The system of claim 6, wherein the quotation criterion information conversion module comprises:
Calculate the amount of CCS including calculation of quantity of storage tank by type, calculation of quantity of insulation according to each type, calculation of support quantity, calculation of welding quantity,
And a CHS quantity calculation including calculation of quantity of electric wiring, calculation of quantity of pipe and flange, and the like, and a business consulting providing system for LNG supply solution. 2. The system of claim 1,
An additional cost calculation module for estimating additional costs when the quotation system for each equipment item is calculated considering the scenario in the estimation system,
A comprehensive estimation module for each scenario that calculates an overall estimation for each scenario based on a quotation for each item of equipment considering the scenario of the estimation system and an additional cost of the additional cost calculation module,
A constraint condition determination module for determining a constraint condition using the basic design information for each scenario of the basic design system when the comprehensive estimate for each scenario is calculated in the scenario total estimate module,
And an LNG supply solution providing module for deriving and providing an optimal LNG supply solution satisfying all of the constraint conditions of the constraint condition determining module. 9. The method of claim 8, wherein the additional cost calculation module is for calculating an additional cost,
The cost of the equipment, the cost of the equipment, the cost of the local contents including the cost of the civil engineering work and the pipe construction, the equipment test cost, and the classification approval cost item. The method of claim 8, wherein the constraint condition determination module is a constraint condition item,
And the local contents ratio, and the constraints are determined by weighting the items according to the items. The system for providing business consulting for the LNG supply solution. Receiving basic LNG plant information including a customer's performance requirement and cost, delivery date, and installation operation condition;
The basic design stage is to generate the LNG supply scenario using the input LNG plant basic information, to derive the LNG basic design according to the scenario, and to derive the design item according to the basic design.
Monitoring and updating price information for each company according to the standard information, calculating estimates for each equipment item by using the database for each equipment item based on the plan for each equipment item derived from the basic design stage, and requesting estimation feedback from the LNG equipment manufacturer Estimation step;
And an optimal design step of deriving a customized solution that reflects constraints by comprehensively analyzing the design plan of the various derived scenarios and the estimation information of the corresponding scenarios, and a method of providing business consulting for the LNG supply solution. 12. The method according to claim 11,
LNG plants including LNG plant generation capacity, LNG plant location information, LNG plant stockpiling days, LNG supply facility supply, LNG supply facility watershed information, LNG bunkering vessel size limitations, LNG bunker vessel speed limit items Receiving plant basic information;
Generating LNG supply scenarios for each LNG supply route, each supply cycle, and storage tank type,
A basic design stage for each equipment item to derive a basic design plan for each equipment item according to the generated LNG supply scenario,
Determining a constraint condition at the time of deriving the basic design concept for each item of the equipment according to the LNG supply scenario based on the constraint information,
And a final basic design stage for each of the equipment items to derive the final basic design plan for each equipment item considering the scenario based on the constraint information. The method for providing business consulting for the LNG supply solution. 13. The method according to claim 12, wherein the basic design stage for each of the equipment items is an item for deriving a basic design plan for each equipment item according to the LNG supply scenario,
LNG plant storage tank design pressure / size / weight / quantity, LNG plant regeneration capacity, LNG bunkering vessel storage tank size / weight / quantity, LNG bunkering vessel hull structure size / weight / quantity , LNG bunkering vessel liquefaction capacity, LNG bunkering vessel loading / unloading rate, LNG bunkering vessel P & ID (Piping and Instrument diagram), LNG bunkering vessel main engine output, Loading arm capacity, An ISO tank size / weight / quantity, and an onshore LNG tank size / weight / quantity item. 13. The method according to claim 12, wherein, in the step of determining the constraint condition at the time of deriving the basic design concept for each item of the equipment,
LNG bunkering vessel size limit, LNG bunkering vessel speed limit, LNG bunkering vessel draft limit, ISO tank quantity limit,
Wherein the constraints are determined by weighting the items by item. 12. The method of claim 11,
An estimating reference information conversion judging step of judging whether estimating reference information conversion is necessary when basic information of equipment-specific items derived through the basic designing step is input;
A quote criterion information transforming step of transforming quote criterion information when it is determined that quote criterion information transformation is necessary in the estimating criterion information transforming determination step;
Calculating an estimate for each item of the equipment with the estimated standard information converted through the step of converting the estimate standard information;
When a quotation for each equipment item is calculated, requesting and checking the information of the quotation information for each equipment company, analyzing the financial information for each equipment company,
Selecting a vendor for supplying the equipment when the evaluation information is completed, and calculating a quotation for each equipment item considering the scenario. 16. The method of claim 15, wherein, in the step of converting the quotation criterion information,
Calculate the amount of CCS including calculation of quantity of storage tank by type, calculation of quantity of insulation according to each type, calculation of support quantity, calculation of welding quantity,
And calculating a quantity of CHS including the calculation of quantity of electric wiring, calculation of quantity of pipe and flange, and a method of providing business consulting for LNG supply solution. 12. The method of claim 11,
In the estimation system, an additional cost calculation step for calculating the additional cost when a quotation is calculated for each equipment item considering a scenario,
Calculating an overall estimate for each scenario by receiving a quote for each equipment item considering a scenario of the quote system and the additional cost information calculated in the additional cost calculating step,
Determining a constraint condition using basic design information for each scenario of the basic design system when a comprehensive estimate for each scenario is calculated,
And deriving and providing an LNG supply solution that satisfies all of the constraint conditions in the step of determining the constraint condition to provide the LNG supply solution. 18. The method of claim 17, further comprising:
Wherein the LNG supply solution includes an LNG supply cost, an engineering cost, a local contents cost including a local civil engineering and pipe construction cost, an equipment test cost, and a classification approval cost item. 18. The method according to claim 17, wherein, in the step of determining the constraint condition,
And the local contents ratio, and the constraints are determined by weighting the items by items. The method of providing business consulting for a LNG supply solution according to claim 1,

Images