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【CBC Recommendation】Comparative Analysis of Cost Differences and Advantages between Domestic Sodium Battery and Lithium Battery

CBCIE Time:Aug 01, 2024 11:31 Source:cbcie

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CBCComparative Analysis of Cost Differences and Advantages between Domestic Sodium Battery and Lithium Battery, In-depth Research and Analysis of Market Conditions, Research on the Overall Operation and Profit Model of the Large-scale Storage Industry, and Industry Medium and Long-term Strategic Development Forecast Report

Report content introduction

"CBCComparative Analysis of Cost Differences and Advantages between Domestic Sodium Battery and Lithium Battery, In-depth Research and Analysis of Market Conditions, Research on the Overall Operation and Profit Model of the Large-scale Storage Industry, and Industry Medium and Long-term Strategic Development Forecast Report" is a medium and long-term research report based on in-depth professional market analysis and price prediction of lithium battery and its industrial chain products.

CBC is equipped with a team of professional analysts, through first-hand research and industry market communication, real-time tracking of core value data, professional collection of the latest data of the industrial chain, detailed and reliable. Using the advantages of long-term and timely tracking of product market dynamics, combined with upstream and downstream domestic and foreign data, in-depth analysis of market changes, interpretation of hot events, summary of development rules, and prediction of future market trends.

The report will comprehensively and systematically record and inventory the multidimensional information of lithium battery industrial chain products such as the production and supply, import and export, consumption, market price, overall cost and price influencing factors, and conduct in-depth comparative analysis; The main domestic lithium battery industrial chain products enterprises are tracked and monitored, and the production, trade and capacity planning of enterprises is systematically reflected; It will also collect and sort out important industry policies, important industry information, enterprise dynamics and other news information in the lithium battery industrial chain products, and summarize and analyze various matters affecting the market.

Comprehensive consideration: changes in market supply and demand, development comparison between the two sides of the supply side, policies, costs and other influential factors, in-depth research, scientific analysis, quantitative model, accurate prediction, the price of lithium battery industrial chain products in the next period forecast and outlook; At the same time, it puts forward strategic suggestions on the production and sales rhythm and inventory adjustment of the industry enterprises, evaluates and analyzes the competitiveness of the profitability and return ability of the investment in the fields related to lithium battery industrial chain products, and puts forward reasonable and scientific suggestions and instructions.

In short: the report can help enterprises to deeply understand the production and marketing dynamics and supply and demand structure, grasp comprehensive information, understand the industry market, see the market situation, grasp the industry trend, and make the right decision. At the same time, for institutions in the investment field, accurately calculate the average cost of the industry, analyze the profitability change, and obtain the best return on investment!

Core content of the report:

1. Market analysis of lithium battery industrial chain products: detailed price trend of each product, price rise and fall, industrial chain price comparison correlation analysis;

2. Lithium battery industrial chain products supply and production, import and export trade and consumption application and supply and demand comparison performance;

3. Monitoring of domestic leading enterprises of lithium battery industrial chain products: enterprise production and marketing, industrial chain material supply chain structure configuration, enterprise strategic resource guarantee and stable purchase and marketing channel model construction and development dynamic monitoring analysis;

4. Comprehensively and deeply analyze market influencing factors such as policy development, environment and dual-carbon strategy, domestic and foreign economic development, application of new materials, and global supply chain situation;

5. Combined with the market supply and demand comparison and the forecast of the next production capacity, forecast the future market conditions;

At the same time, the report will also provide suggestions and decision-making references for enterprises and institutions investing in this field to obtain the best investment returns and optimal competitive opportunities, such as product positioning, strategic supply chain configuration and deployment, cost reduction and efficiency increase, and expansion of operating profits, according to the investment dynamics of leading enterprises, the trend of market supply and demand, price analysis and prediction.

Report research dimension analysis

For this set of research reports, we will conduct research and analysis from three dimensions:

Ø  Dimension 1: Comprehensive analysis of sodium battery and lithium battery industrial chain products industry status quo, major consumer applications, industrial production, industry chain supply and demand, and market price.

²  Industrial chain structure, industry status, application consumption field, traditional application and emerging material application analysis

²  Industrial market and price comparison

²  Current situation of industrial supply and demand and structure of consumption terminal

²  Through this dimension, you can have a comprehensive understanding, profound insight and professional understanding of the sodium battery and lithium battery industrial chain products market at home and abroad.

Ø  Dimension 2: Ecological investigation of production and operation of sodium battery and lithium battery industrial chain products enterprises and supply chain structure analysis of consumer procurement enterprises

²  Make a detailed survey of the global leading representative production enterprises, and provide the list of enterprises and detailed survey index information of enterprises; Including the basic situation of the enterprise resources, production and processing scale, product grade index, enterprise supply chain structure and dynamic monitoring of capacity development information

²  Investigate the main domestic sodium battery and lithium battery industrial chain products consumption and application fields and representative enterprises, and provide the list of purchasing enterprises and detailed survey index information of enterprises; It includes basic information of enterprises, products purchased by enterprises, current supply chain structure of enterprises and dynamic monitoring of production capacity development

²  Through this dimension, you can have a comprehensive understanding of the layout of domestic and foreign production and consumption application enterprises, their supply chain structure, and their profitability.

Ø  Dimension 3: Sodium battery and lithium battery industrial chain products application consumption pattern future trend, price market forecast and production and operation enterprise investment competitiveness and profitability assessment

²  Sodium battery and lithium battery industrial chain products market influencing factors inventory, supply and demand comparison, future development of main application fields, national macro policies and study on new opportunities for industrial development in the context of the development of new materials in science and technology

²  Production line layout and production plan, raw material procurement, product sales channels, branding and strategic supply chain relationship configuration of domestic leading enterprises, cost control and profitability evaluation

²  Study the qualitative trend and quantitative model of sodium battery and lithium battery industrial chain products, and predicts the future market of sodium battery and lithium battery industrial chain products based on first-hand enterprise research and in-depth industry analysis

²  Through this dimension, you can comprehensively understand the industry strategy development, consumption and application trend, the late market and price situation, make a clear judgment on the future development of the industry, and calculate the profitability and return rate of the products invested in entering or expanding sodium battery and lithium battery industrial chain products.

Report characteristics

Authoritative and true data information: CBC is equipped with a team of professional analysts, who track core value data in real time through first-hand research and industry market communication, and professionally collect the latest information on the industry chain, which is detailed and reliable;

Long-term continuous tracking of data: long-term continuous tracking of the market dynamics of production, sales and transactions of enterprises in different markets of lithium battery industrial chain products;

Comprehensive depth of content: Combining upstream and downstream core data at home and abroad, such as price, production, import and export trade, consumption and other indicators, in-depth analysis of product market changes in all dimensions, interpretation of hot events, summarize the development of the law, according to the domestic and international industry end-use applications and consumer demand status, etc., in-depth from the demand side of the exclusive analysis, based on the supply and demand pattern of the market, scientific and objective forecasts of the future market trend, to provide the development of the industry and investment advice and other conclusions.

Introduction of key indicators of research report information

Ø  Product research and industrial chain scope of sodium battery

²  Core products: sodium battery

²  Product raw materials: cathode material, anode material, electrolyte, fluid collector and separator

²  Products classification: high temperature sodium-ion battery and room temperature sodium-ion battery

²  Terminal application: power and energy storage

Ø  Product research and industrial chain scope of lithium battery

²  Core products: lithium battery

²  Product raw materials: cathode material, anode material, electrolyte, separator, auxiliary materials (copper foil, aluminum foil), etc.

²  Products classification: ternary lithium battery, lithium iron phosphate battery, lithium cobaltate battery, lithium manganate battery, etc.

²  Terminal application: new energy field, energy storage field, 3C field, other fields

Ø  Industry research information and data indicators in the report

²  Industry development background: industrial chain structure, industry status, application consumption field, traditional application and emerging material application analysis, etc.

²  Price research and monitoring: product price, historical market, price fluctuation and market analysis, price industry chain comparison, price forecast, etc.

²  Industrial chain supply and demand research: production capacity, output, import and export, supply, consumption demand, cost, profit, process technology, etc.

²  Research and mapping of practicing enterprises: enterprises list, production situation of enterprises, analysis of supply chain of enterprises, future development plans, assessment of production costs, operating revenues and profits of enterprises, etc.

²  Cost and profit: production cost, cost subjects, cost analysis, operating profit, profitability evaluation, market space, competitive evaluation and future prediction, etc.

²  Procurement enterprise research and mapping: enterprise information, purchased products, grade indicators, application fields, procurement channels, payment and settlement requirements, import and China domestic procurement ratio, etc.

²  Industry development prospect forecast: market influence factor analysis, industry development, production capacity development, supply and demand forecast, terminal material development, product grade index and applied consumption research, future strategy development, policy environment, supply and demand impact, new industry regulations and new policies, alternative material development, market trend and price forecast, etc.

²  Enterprise product positioning, investment and profit return analysis: enterprise product positioning, supply chain deployment suggestions, enterprise cost, enterprise automation information development and cost control space, operating profit, investment opportunities, strategic development decision suggestions, etc.

Ø  Report analysis time

²  Historical data: 2021~2023, a total of 3 years

²  Forecast data: 2024~2026, a total of 3 years

CBCComparative Analysis of Cost Differences and Advantages between Domestic Sodium Battery and Lithium Battery, In-depth Research and Analysis of Market Conditions, Research on the Overall Operation and Profit Model of the Large-scale Storage Industry, and Industry Medium and Long-term Strategic Development Forecast Report

Report structure and outline introduction:

Module 1: Sodium-based battery and lithium-based battery comparison difference and full mode competitiveness research and in-depth research report

Part 1: Sodium battery industry overview, process status, cost and profit, production and marketing trade research and analysis

1 Sodium battery industry overview and battery industry chain structure product introduction

1.1 Sodium battery industry basis

1.2 Sodium battery industry chain structure diagram and introduction

1.2.1 Cathode

1.2.2 Anode

1.2.3...

1.3 Development status of sodium battery at home and abroad

2 Comparative analysis of sodium-based resource endowment background and domestic development characteristics for the development of sodium battery

2.1 Distribution and comparative analysis of sodium resources

2.1.1 Analysis of global sodium resource distribution

2.1.2 Analysis of the distribution of sodium resources in China

2.1.3 Comparative advantage analysis of domestic and foreign resources

2.2 Development and exploitation and comparative analysis of sodium resources

2.2.1 Analysis of global sodium development and exploitation

2.2.2 Analysis of domestic sodium development and exploitation

2.2.3 Comparative advantage analysis of domestic and foreign resource libraries

2.3 Sodium resource utilization and comparative analysis

2.3.1 Analysis of global sodium resource utilization

2.3.2 Analysis of utilization of sodium resources in China

2.3.3 Comparative advantage analysis of sodium resources utilization at home and abroad

3 Sodium battery performance in-depth study

3.1 Study on energy density of sodium-ion battery

3.1.1 Overview of sodium-ion energy density

3.1.2 Space for improving the energy density of sodium-ion battery

3.1.3 Energy density range of current commercial products

3.2 Research on weather resistance and rate performance of sodium-ion battery

3.3 Study and analysis of safety performance of sodium-ion battery

4 Sodium battery production process status and analysis

4.1 Sodium battery production process research and introduction of main product specifications

4.2 Research and development of sodium battery production process

4.3 Current main products of sodium battery materials

4.4 Sodium battery technology advanced introduction characteristic analysis

4.5 Study on technology comparison and competitiveness of sodium battery

4.6 Breakthrough situation and ceiling of sodium battery energy density

4.7 Space for improvement of energy density of sodium battery by sodium battery material formula

5 Research and analysis of sodium battery technology innovation

5.1 In-depth research on technical innovation of cathode materials for sodium battery

5.2 In-depth research on technical innovation of anode materials for sodium battery

5.3 In-depth research on electrolyte and sodium battery technology innovation

5.4 In-depth research on battery management system and system integration innovation

6 Sodium battery industry chain product price in-depth analysis and comparative analysis research

6.1 Sodium battery cathode material market review

6.1.1 Prussian blue cathode material market review

6.1.2 Sodium nickel-ferromanganate cathode material market review

6.1.3 Sodium vanadium phosphate anode material market review

6.2 Sodium battery anode material market review

6.2.1 Review of the market of carbon-based anode materials

6.2.2 ...

6.3 Sodium battery electrolyte market review

6.4 Sodium battery fluid collector market review

6.4.1 Copper foil market review

6.4.2 Aluminum foil market review

6.5 Sodium battery separator market review

6.6 Sodium battery tab market review

6.7 Sodium battery finished products market review

6.7.1 High temperature sodium battery market review

6.7.2 Room temperature sodium battery market review

6.8 Analysis of price linkage of upstream and downstream products in the sodium battery industry chain

6.8.1 Analysis of price linkage between cathode materials and sodium battery

6.8.2 Analysis of price linkage between anode materials and sodium battery

6.8.3...

7 Sodium battery processing link introduction and cost in-depth deconstruction analysis

7.1 Cost assessment of sodium battery processing

7.1.1 Main production technology and processing flow classification

7.1.2 Process characteristics and comparison introduction

7.2 Sodium battery production cost subdivision cost account deconstruction

7.2.1 Direct materials

7.2.1.1 Raw material cost

7.2.1.2 Cost of auxiliary materials

7.2.2 Fuel power cost

7.2.3 Direct labor

7.2.4 Manufacturing expenses

7.2.4.1 Management expenses

7.2.4.2 Selling expenses

7.2.4.3 Financial expenses

7.2.5 Cost of various taxes and fees

7.3 Study on cost and profit of sodium battery

7.3.1 Overall cost study

7.3.2 Composition of each cost item

7.3.3 Overall profit research

7.4 Analysis and prediction of factors affecting future cost and profit

8 Analysis of production, supply and recycling of sodium battery

8.1 Analysis of production and supply of cathode materials for sodium battery

8.1.1 Current situation of main cathode materials: analysis of formula types and advantages and disadvantages

8.1.2 Analysis of the production of cathode materials for sodium battery

8.2 Analysis of production and supply of anode materials for sodium battery

8.2.1 Current situation of main anode materials: analysis of formula types and advantages and disadvantages

8.2.2 Analysis of the production of anode materials for sodium battery

8.3 Analysis of production and supply of sodium battery electrolyte

8.3.1 Current situation of main electrolyte: analysis of formula types and advantages and disadvantages

8.3.2 Analysis of the production of sodium battery electrolyte

8.4 Analysis of production and supply of other materials for sodium battery

8.4.1 Current situation of main materials: analysis of formula types and advantages and disadvantages

8.4.2 Analysis of the production of other materials for sodium battery

8.5 Analysis of production and supply of sodium battery

8.5.1 Current situation of main sodium battery: analysis of types, advantages and disadvantages

8.5.2 Analysis of sodium battery production

9 Analysis of domestic trade and supply chain structure of sodium battery

9.1 Introduction to the main trading forms of sodium battery product sales

9.2 Analysis of advantages and disadvantages of different trade forms

9.3 Analysis of domestic supply chain structure of sodium battery

10 Sodium battery application field and end consumption demand analysis

10.1 Small power battery product introduction and demand pattern analysis

10.1.1 Overview of small power battery product development

10.1.2 Consumption and application of small power battery products to sodium battery industry

10.1.3 Analysis of future consumption demand trend of sodium battery for small power battery products

10.2 Product introduction and demand pattern analysis of electric two-wheelers/three-wheelers

10.2.1 Overview of the development of electric two-wheelers/electric three-wheelers

10.2.2 Consumption application of electric two-wheelers/electric three-wheelers to sodium battery industry

10.2.3 Analysis of future consumption demand trend of sodium battery for electric two-wheelers/electric three-wheelers

10.3 Starter battery products introduction and requirement analysis

10.3.1 Overview of starter battery product development

10.3.2 Consumption application of starter battery products to the sodium battery industry

10.3.3 Analysis of future consumption demand trend of sodium battery for starter battery products

10.4 Introduction and demand pattern analysis of energy storage battery products

10.4.1 Overview of energy storage battery product development

10.4.2 Consumption and application of energy storage battery products to sodium battery industry

10.4.3 Analysis of future consumption demand trend of sodium battery for energy storage battery products

10.5 Introduction to other battery products and demand pattern analysis

10.5.1 Overview of other battery products

10.5.2 Consumption and application of other battery products to sodium battery industry

10.5.3 Analysis of future consumption demand trend of sodium battery for other battery products

11 Sodium battery mainstream supply enterprises production and marketing dynamic monitoring comparative analysis

11.1 Summary of the latest trends of sodium battery supply enterprises

11.2 Regional distribution and scale of sodium battery supply enterprises

11.2.1 Regional distribution of enterprises

11.2.2 Scale of production company

11.2.3 Production process characteristics of enterprises

11.2.4 Characteristics of industrial chain and supply chain structure configuration

11.3 Sodium battery mainstream supply enterprise inventory

11.4 Inventory analysis of mainstream sodium battery manufacturers

11.4.1 In-depth research of enterprise 1

11.4.1.1 Overview of the enterprise

11.4.1.2 Production and production line of the enterprise

11.4.1.3 Product sales and market share

11.4.1.4 Sales price and price trend of each enterprise

11.4.1.5 Sales channels and major purchasing customers

11.4.1.6 Industrial chain material supply chain structure configuration

11.4.1.7 Introduction of strategic resource guarantee and stable purchase and marketing channel mode

11.4.1.8 Enterprise capacity development planning and foreign investment projects

11.4.2 Enterprise 2

11.4.2.1...

12 The impact of sodium battery development policy background on the industry

12.1 Analysis of the impact of global policy environment on the sodium battery industry

12.1.1 Governments' policy support for new energy technologies

12.1.2 Policy orientation and incentives for sodium battery on a global scale

12.2 Analysis of the impact of China's policy environment on the sodium battery industry

13 Study on environmental protection of sodium battery and its impact on the industry

13.1 Analysis of environmental protection characteristics of sodium battery

13.2 Impact of sodium battery environmental protection on the industry

14 Sodium battery development necessity and strategic development opportunities summary

14.1 Research and analysis of development opportunities for sodium battery

14.2 Research on the application of sodium battery

14.3 International trend and competitive pattern of sodium battery development

Part 2: Lithium battery industry overview, process status, cost and profit, production and marketing trade research and analysis

15 Lithium battery industry overview and battery industry chain structure product introduction

15.1 Lithium battery industry basis

15.2 Lithium battery industry chain structure diagram and introduction

15.2.1 Cathode

15.2.2 Anode

15.2.3...

15.3 Overview of development status of lithium battery at home and abroad

16 Lithium battery development lithium based resource endowment background and comparative analysis of domestic development characteristics

16.1 Distribution and comparative analysis of lithium resources

16.1.1 Analysis of global lithium resource distribution

16.1.2 Analysis of the distribution of domestic lithium resources

16.1.3 Comparative advantage analysis of domestic and foreign resources

16.2 Development and exploitation of lithium resources and comparative analysis

16.2.1 Analysis of global lithium development and exploitation

16.2.2 Analysis of domestic lithium development and exploitation

16.2.3 Comparative advantage analysis of domestic and foreign resource libraries

16.3 Lithium resource utilization and comparative analysis

16.3.1 Analysis of global lithium resource utilization

16.3.2 Analysis of domestic lithium resource utilization

16.3.3 Comparative advantage analysis of lithium resource utilization at home and abroad

17 Lithium battery performance in-depth study

17.1 Research on energy density of lithium-ion battery

17.1.1 Overview of lithium ion energy density

17.1.2 Space for improvement of energy density of lithium-ion battery

17.1.3 Energy density range of current commercial products

17.2 Research on weather resistance and rate performance of lithium-ion battery

17.3 Research and analysis of safety performance of lithium-ion battery

18 Lithium battery production process status and analysis

18.1 Research on lithium battery production process and introduction of main product specifications

18.2 Research and development of lithium battery production process routes

18.3 Current main products of lithium battery materials

18.4 Analysis of the characteristics of advanced lithium battery processes

18.5 Research on the comparison and competitiveness of lithium battery processes

18.6 Lithium battery energy density breakthrough and ceiling

18.7 Space for improvement of energy density of lithium battery by lithium battery material formula

19 Research and analysis of lithium battery technology innovation

19.1 In-depth research on technological innovation of cathode materials for lithium battery

19.2 In-depth research on technological innovation of anode materials for lithium battery

19.3 In-depth research on technological innovation of electrolyte and separator for lithium battery

19.4 In-depth research on battery management system and system integration innovation

20 Lithium battery industry chain product price in-depth analysis and comparative analysis

20.1 Lithium battery cathode material market review

20.1.1 Ternary cathode material market review

20.1.2 Lithium iron phosphate cathode material market review

20.1.3 Other cathode materials market review

20.2 Lithium battery anode material market review

20.2.1 Natural graphite anode material market review

20.2.2...

20.3 Lithium battery electrolyte market review

20.4 Lithium battery accessories market review

20.4.1 Copper foil market review

20.4.2 Aluminum foil market review

20.4.3...

20.5 Lithium battery separator market review

20.6 Lithium battery tab market review

20.7 Lithium battery finished products market review

20.7.1 Ternary lithium battery market review

20.7.2...

20.8 Analysis of the price linkage of upstream and downstream products in the lithium battery industry chain

20.8.1 Analysis of price linkage between cathode materials and lithium battery

20.8.2 Analysis of price linkage between anode materials and lithium battery

20.8.3...

21 Lithium battery processing link introduction and cost in-depth deconstruction analysis

21.1 Cost assessment of lithium battery processing

21.1.1 Main production technology and processing flow classification

21.1.2 Process characteristics and comparison

21.2 Lithium battery production cost subdivision cost account deconstruction

21.2.1 Direct materials

21.2.1.1 Raw material cost

21.2.1.2 Cost of auxiliary materials

21.2.2 Fuel power cost

21.2.3 Direct labor

21.2.4 Manufacturing expenses

21.2.4.1 Administrative expenses

21.2.4.2 Selling expenses

21.2.4.3 Financial expenses

21.2.5 Cost of various taxes and fees

21.3 Research on the cost and profit of lithium battery

21.3.1 Overall cost study

21.3.2 Composition of each cost item

21.3.3 Overall profit study

21.4 Analysis and prediction of future cost and profit influencing factors

22 Lithium battery production supply and recycling analysis

22.1 Analysis of production and supply of cathode materials for lithium battery

22.1.1 Current situation of main cathode materials: analysis of formula types and advantages and disadvantages

22.1.2 Analysis of the production of cathode materials for lithium battery

22.2 Analysis of production and supply of anode materials for lithium battery

22.2.1 Current situation of main anode materials: analysis of formula types and advantages and disadvantages

22.2.2 Analysis of the production of anode materials for lithium battery

22.3 Analysis of production and supply of lithium battery electrolyte

22.3.1 Current situation of main electrolyte: analysis of formula types and advantages and disadvantages

22.3.2 Analysis of lithium battery electrolyte production

22.4 Analysis of production and supply of other materials for lithium battery

22.4.1 Current situation of main materials: analysis of formula types and advantages and disadvantages

22.4.2 Analysis of production of other materials for lithium battery

22.5 Analysis of production and supply of lithium battery

22.5.1 The current situation of main lithium battery: analysis of types and advantages and disadvantages

22.5.2 Analysis of lithium battery production

23 Lithium battery domestic trade and supply chain structure analysis

23.1 Introduction to the main trade forms of lithium battery product sales

23.2 Analysis of advantages and disadvantages of different trade forms

23.3 Analysis of domestic supply chain structure of lithium battery

24 Lithium battery application field and end consumption demand analysis

24.1 Introduction to the energy storage field and analysis of demand pattern

24.1.1 Overview of the development of energy storage

24.1.2 Consumption and application of lithium battery industry in energy storage field

24.1.3 Analysis of future lithium battery consumption demand trend in the field of energy storage

24.2 Introduction of new energy field and analysis of demand pattern

24.2.1 Overview of development in the field of new energy

24.2.2 Consumption and application of lithium battery industry in the field of new energy

24.2.3 Analysis of future lithium battery consumption demand trend in the field of new energy

24.3 3C field introduction and demand pattern analysis

24.3.1 Overview of development in 3C field

24.3.2 Consumption and application of lithium battery industry in 3C field

24.3.3 Analysis of future lithium battery consumption demand trend in 3C field

24.4 Introduction to other fields and analysis of demand pattern

24.4.1 Overview of developments in other areas

24.4.2 Consumption and application of lithium battery industry in other fields

24.4.3 Analysis of future lithium battery consumption demand trend in other fields

25 Lithium battery mainstream supply enterprises production and marketing dynamic monitoring comparative analysis

25.1 Summary of the latest trends of lithium battery supply enterprises

25.2 Regional distribution and scale of lithium battery supply enterprises

25.2.1 Regional distribution of enterprises

25.2.2 Size of the production company

25.2.3 Production process characteristics of the enterprise

25.2.4 Characteristics of industrial chain and supply chain structure configuration

25.3 Lithium battery mainstream supplier inventory table

25.4 Inventory analysis of mainstream lithium battery manufacturers

25.4.1 In-depth research of enterprise 1

25.4.1.1 Overview of the enterprise

25.4.1.2 Production and production line of the enterprise

25.4.1.3 Product sales and market share

25.4.1.4 Sales price and price trend of each enterprise

25.4.1.5 Sales channels and major purchasing customers

25.4.1.6 Industrial chain material supply chain structure configuration

25.4.1.7 Introduction to the mode of enterprise strategic resource guarantee and stable purchase and marketing channel

25.4.1.8 Enterprise capacity development planning and foreign investment projects

25.4.2 Enterprise 2

25.4.2.1...

26 The impact of the policy background of lithium battery development on the industry

26.1 Analysis of the impact of global policy environment on the lithium battery industry

26.1.1 Governments' policy support for new energy technologies

26.1.2 Policy orientation and incentives for lithium battery on a global scale

26.2 Analysis of the impact of China's policy environment on the lithium battery industry

27 Research on environmental protection of lithium battery and its impact on the industry

27.1 Analysis of environmental protection characteristics of lithium battery

27.2 Impact of lithium battery environmental protection on the industry

28 Summary of the necessity and strategic development opportunities of lithium battery development

28.1 Research and analysis of development opportunities for lithium battery

28.2 Lithium battery application field research

28.3 International trend and competitive pattern of lithium battery development

Part 3: Difference analysis and development relationship research of sodium battery and lithium battery

29 Difference and competitiveness analysis based on the current situation of sodium battery and lithium battery

29.1 Difference and competitive analysis of technical performance between sodium battery and lithium battery

29.2 Difference and competitive analysis of cost between sodium battery and lithium battery

29.3 Difference and competitive analysis of market application between sodium battery and lithium battery

30 Comparative analysis of the competitiveness of sodium battery and lithium battery in different periods in the future

30.1 Comparative analysis of the competitiveness of sodium battery and lithium battery in the next 3 years

30.2 Comparative analysis of the competitiveness of sodium battery and lithium battery in the next 5 years

30.3 Comparative analysis of the competitiveness of sodium battery and lithium battery in the next 10 years

31 Prediction and analysis of future development opportunities and relationships between sodium battery and lithium battery in the field of energy storage

31.1 Prediction of the market size of different products in the future energy storage field

31.2 Relationship between sodium battery and lithium battery in the future energy storage field

31.3 Analysis and research on future development of sodium battery and lithium battery in the world

31.4 Analysis and research on the future development of sodium and lithium battery in China

Part 4: Suggestions and Strategic Guidance for Sodium and Lithium Battery Business Investment and Expansion Field Development

32 Research on investment suggestions and strategies of enterprises in the field of sodium and lithium battery

32.1 Research on suggestions and strategies of financial investment enterprises in choosing sodium battery and lithium battery industries

32.1.1 Suggestions and strategies of financial investment enterprises in choosing to invest in the field of sodium and lithium battery

32.1.2 Suggestions and strategies of financial investment enterprises in choosing to invest in sodium battery and lithium battery products

32.1.3 Suggestions and strategies of financial investment enterprises in choosing to invest in sodium battery and lithium battery enterprises

32.2 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the production and operation cycle of enterprises

32.2.1 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the R & D stage of enterprises

32.2.2 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the production stage of enterprises

32.2.3 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the trade sales stage of enterprises

32.2.4 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the stage of enterprise globalization

32.2.5 Research on suggestions and strategies of financial investment enterprises in terms of return on investment

33 Suggestions and strategies for enterprises to enter the field of production and construction of sodium battery and lithium battery

33.1 Domestic mainstream sodium battery and lithium battery enterprises production and management and strategic supply chain security assessment

33.2 Competitiveness evaluation of enterprises entering the field of sodium battery and lithium battery

33.3 Strategic configuration and deployment steps and suggestions of supply chain and trade chain for enterprises to enter or expand the material field of sodium battery and lithium battery industry chain

33.4 Comparative analysis of the best routes of detailed products and technical processes

33.5 Product profit opportunity evaluation and best investment advice

33.6 Strategic trend of industry development and long-term strategic thinking and decision-making suggestions of enterprises

Module 2: Overall operation and profit model of the global large-scale storage industry and the medium and long-term strategic development forecast report

Part 1: Overview and analysis of the development of global large-scale storage industry

1 Overview of the development of global large-scale storage industry

2 Global energy structure transformation and the importance of large-scale energy storage

3 Composition and analysis of large-scale energy storage industry chain

3.1 Upstream raw materials and equipment supply

3.2 Midstream battery manufacturing and system integration

3.3 Terminal applications and services

4 Research on main types and technical routes of large-scale energy storage

4.1 Overview of the main types of large-scale energy storage

4.1.1 Overview of electrochemical energy storage types

4.1.2 Overview of physical energy storage types

4.1.3 Overview of other energy storage types

4.2 Research on the main technical routes of large-scale energy storage

5 Current situation and development trend of large-scale energy storage markets at home and abroad

5.1 Development status and characteristics of the global energy storage industry

5.2 Development status and characteristics of China's energy storage industry

Part 2: In-depth research and analysis of the overall operation mode of large-scale energy storage

6 Overview of operation models in different scenarios of large-scale energy storage

6.1 Introduction to the energy storage operation mode on the power generation side

6.2 Introduction to the energy storage operation mode on the power grid

6.3 Introduction to operation modes of other application scenarios

7 Case study of operation mode of large-scale storage industries

7.1 Typical items introduction and analysis

7.2 Analysis of advantages and disadvantages of different operation modes

8 Large-scale storage industry's current operating model innovation and challenges

Part 3: In-depth research and analysis of large-scale energy storage profit model

9 Overview of profit model of large-scale storage industries

9.1 Introduction to the profit model of energy storage on the power generation side

9.2 Introduction to the profit model of energy storage on the grid side

9.3 Profit Models of Other Application Scenarios

10 Detailed explanation of the profit model of large-scale storage industries

10.1 Detailed explanation of peak-valley spread arbitrage mode

10.2 Detailed explanation of auxiliary service revenue (frequency modulation, peak regulation, etc.) mode

10.3 Capacity lease and shared energy storage mode

10.4 Detailed explanation of subsidies and preferential policies

Part 4: Market status and competition pattern of large-scale storage industry research and analysis

11 Large-scale storage industry market competition pattern analysis

11.1 Description of market competition situation of large-scale storage industry

11.2 Market share and concentration analysis of large-scale storage industry

12 Monitoring and market analysis of large-scale storage shipments

12.1 Analysis of the overall shipments of global large-scale storage

12.2 Analysis of shipments of large-scale storage in major countries

12.2.1 Analysis of shipments of US large-scale storage

12.2.2 Analysis of shipments of China's large-scale storage

13 Large-scale storage capacity monitoring and market analysis

13.1 Analysis of the overall installed capacity of global large-scale storage

13.2 Analysis of large-scale storage capacity in major countries

13.2.1 Analysis of US large-scale storage capacity

13.2.2 Analysis of China's large-scale storage capacity

Part 5: Deep research and analysis of major supply enterprises

14 Inventory table of major global energy storage suppliers

15 Regional distribution and scale of major global energy storage suppliers

15.1 Regional distribution characteristics of enterprises

15.2 Production capacity and scale of enterprises

15.3 Production process characteristics of enterprises

15.4 Characteristics of industrial chain and supply chain structure configuration

Part 6: Development trend and prospect forecast of large-scale storage industry

16 Large-scale storage industry development market influencing factors analysis

16.1 Background influencing factors

16.1.1 Analysis of the influence of macro factors on the development of large-scale storage industry

16.1.2 Analysis of the influence of policy factors on the development of large-scale storage industry

16.1.3 Analysis of the influence of environmental factors on the development of large-scale storage industry

16.1.4 Analysis of the impact of the current situation of global production/consumer countries on the development of large-scale storage industry

16.1.5 Analysis of the influence of emotional factors of industry insiders on the development of large-scale storage industry

16.2 Influencing factors of related products

16.2.1 Analysis of the impact of upstream product cost on the development of large-scale storage industry

16.2.2 Analysis of the impact of technological development and iterative products on the future development of large-scale storage industry

16.2.3 Analysis of the impact of traditional consumption applications on the future development of large-scale storage industry

16.2.4 Analysis on the impact of emerging application consumption demand triggered by the development of new materials on the future development of large-scale storage industry

17 Large-scale storage industry supply forecast analysis

17.1 Analysis of the overall shipments of global large-scale storage by 2029

17.1.1 Analysis of the overall shipments of global large-scale storage by 2029

17.1.2 Analysis of the overall shipments of US large-scale storage by 2029

17.1.3 Analysis of the overall shipments of China's large-scale storage by 2029

17.2 Analysis of the overall installed capacity of global large-scale storage by 2029

17.2.1 Analysis of the overall installed capacity of global large-scale storage by 2029

17.2.2 Analysis of the overall installed capacity of US large-scale storage by 2029

17.2.3 Analysis of the overall installed capacity of China's large-scale storage by 2029

18 Large-scale storage industry demand forecast

18.1 Development of direct downstream products and analysis and prediction of large-scale storage industry demand

18.2 Terminal field development for large-scale storage industry demand analysis and prediction

Part 7: Suggestions and strategic guidance for the development of enterprise investment and expansion in the field of large-scale storage

19 Research on investment suggestions and strategies in the field of large-scale storage for enterprise investment

19.1 Research on suggestions and strategies of financial investment enterprises in investment selection of large-scale storage industries

19.1.1 Suggestions and strategies for financial investment enterprises in selecting investment areas of large-scale storages

19.1.2 Suggestions and strategies for financial investment enterprises in selecting investment products of large-scale storages

19.1.3 Suggestions and strategies for financial investment enterprises in selecting investment large-scale storage enterprises

19.2 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the production and operation cycle of enterprises

19.2.1 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the R & D stage of enterprises

19.2.2 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the production stage of enterprises

19.2.3 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the trade sales stage of enterprises

19.2.4 Suggestions and strategies for financial investment enterprises to grasp the investment rhythm according to the stage of enterprise globalization

19.3 Research on suggestions and strategies of financial investment enterprises in terms of return on investment

20 Suggestions and strategies for enterprises to enter the field of production and construction of large-scale storage

20.1 Domestic mainstream large-scale storage enterprises production and operation and strategic supply chain security assessment

20.2 Competitiveness evaluation of enterprises entering the field of large-scale storage

20.3 Steps and suggestions for strategic allocation and deployment of supply chain and trade chain for enterprises to enter or expand the material field of large-scale storage industry chain

20.4 Comparison and analysis of the best routes of refined products and technical processes

20.5 Product profit opportunity evaluation and best investment advice

20.6 Strategic trends of industry development and long-term strategic thinking and decision-making suggestions of enterprises

Results of the report provided to you

²  Detailed industry research reports and underlying EXCEL data package, intuitive data charts;

²  Underlying data package will include: all visualization charts in the report, all underlying data bearers for the analytical study;

²  In the report, all data citations and research sources and reference materials will be introduced in detail; If there is any evaluation data, the evaluation method and the evaluation basis will be introduced in detail; For reference;

²  Reports are submitted by offline email, which can be downloaded and viewed locally

Ø  Report Trial Readings:

Part of the report (selected)

1       Overview of the development of global large-scale storage industry

Ø  Early stages of germination and technology research (late 20th century to early 2010s):

At this stage, energy storage technology is still in the early stage of research and development, with low technology maturity and high cost, which limits its commercialization and large-scale application. Scientific research institutions and enterprises in various countries began to invest resources in the research and development and innovation of energy storage technology. Due to technical limitations and cost issues, the energy storage industry has low awareness in the market and limited market demand, mainly concentrated in some specific areas or experimental projects.

Ø  Technology breakthrough and demonstration application stage (mid-2010s to early 2020s):

At this stage, key energy storage technologies such as lithium-ion battery have made major breakthroughs, the cost has been significantly reduced, and the efficiency has been improved, laying the foundation for the commercial application of energy storage. Countries are starting to build energy storage demonstration projects to verify the feasibility and economics of energy storage technology. These projects have played an important role in peaking the power grid and connecting renewable energy to the grid.

Ø  Scale development and market expansion stage (2020s to now):

With the strengthening of technological progress and policy support, the global large-scale storage industry has entered a period of rapid development, and the market size has expanded rapidly. Hundred-megawatt and gigawatt energy storage projects have been launched successively, becoming a new highlight in the development of the industry. The application scenarios of energy storage are gradually diversified, expanding from the power grid side to the power generation side, the user side and other fields. On the power side, energy storage is used to support the grid connection of renewable energy and provide auxiliary services; On the grid side, energy storage is used to improve the stability and reliability of the grid. On the user side, energy storage is used to meet the individual needs of users and improve energy efficiency.

2       Global energy structure transformation and the importance of large-scale energy storage

The global energy structure transition refers to the process of shifting from the traditional energy system dominated by fossil fuels to the energy system dominated by clean energy (such as solar, wind, water, etc.). The main drivers of this transformation include technological progress, economic development, policy guidance, and the need for environmental protection.

The importance of large-scale energy storage is mainly analyzed from the following five aspects:

Ø  To ensure the stability of the power grid

As the proportion of new energy generation continues to increase, the randomness, intermittency and volatility of renewable energy generation such as wind power and photovoltaic power generation have brought challenges to the stability of the power grid. The large energy storage system can store excess electric energy at the peak of new energy generation and release electric energy at power generation trough or peak of power consumption, thus playing the role of peak cutting and valley filling and stabilizing the grid.

Ø  Improve energy efficiency

The energy storage system can store the surplus clean energy and release it when needed, thereby improving the utilization rate of energy. This is of great significance for improving the absorption capacity of renewable energy and reducing the phenomenon of wind and light abandonment.

Ø  Promote the development of new energy

The construction of large-scale energy storage systems can promote the rapid development of the new energy industry. Through the application of energy storage technology, new energy generation can be more stable and reliable, reduce the impact on the power grid, so as to attract more investment into the field of new energy.

Ø  Remarkable economic benefits

The energy storage system can not only provide stable and reliable power supply for the power system, but also obtain economic benefits by participating in the power market trading and providing auxiliary services. With the continuous maturity of energy storage technology and the further reduction of costs, the economic benefits of energy storage systems will be more significant.

Ø  Addressing the energy crisis and climate change

The global energy crisis and climate change are one of the major challenges facing the world today. The construction of large-scale energy storage systems can mitigate the impact of the energy crisis to a certain extent, while reducing carbon emissions, improving environmental quality, and contributing to the response to climate change.

3       Composition and analysis of large-scale energy storage industry chain

3.1      Upstream raw materials and equipment supply

It mainly includes energy storage material manufacturers and energy storage equipment manufacturers. Energy storage materials include key raw materials such as cathode and anode materials, electrolyte and separator of lithium-ion battery; Energy storage devices include energy storage batteries, energy storage controllers, energy storage inverters and other core devices. Upstream enterprises are mainly responsible for the production and supply of these materials and equipment, and provide the necessary raw materials and production equipment for midstream and downstream enterprises.

3.2      Midstream battery manufacturing and system integration

Battery manufacturing is the core part of the midstream of the large-scale energy storage industry chain, mainly involving the production and assembly of energy storage batteries. As the core component of the energy storage system, the performance and quality of the energy storage battery directly affect the efficiency and reliability of the entire energy storage system. At present, the battery types widely used in large-scale energy storage systems mainly include lithium-ion battery, lead-acid batteries, and flow batteries. Among them, lithium-ion battery has gradually become the mainstream choice because of their advantages such as high energy density, long cycle life and environmental performance.

System integration is another important link in the middle of the large-scale energy storage industry chain, mainly responsible for integrating key equipment such as batteries, controllers, inverters into the energy storage system, and ensuring the safe, stable and efficient operation of the system. The energy storage system usually consists of a battery pack, a battery management system (BMS), an energy storage converter (PCS), and an energy management system (EMS). Among them, BMS is responsible for monitoring battery status and protecting battery safety; PCS is responsible for converting the battery's direct current to alternating current or reverse conversion; EMS is responsible for the energy scheduling and optimal management of the entire energy storage system.

3.3      Terminal application and service.

The terminal applications of large-scale energy storage industry chain mainly include three categories: power generation side, power grid side and user side.

Ø  Power generation side

The energy storage on the power generation side is mainly used to balance the intermittent output of renewable energy sources (such as wind and solar energy), improve energy utilization efficiency, and ensure the stable operation of the power grid.

Ø  Power grid side

Grid side energy storage is mainly used for power grid regulation and security, such as frequency modulation, backup, load balancing, etc.

Ø  User side

User-side energy storage is mainly used in industrial and commercial and residential households to meet the specific needs of users, such as demand response, backup power, peak cutting, and so on.

Selected graphical presentations in the report

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For detailed report content browsing, please contact us

Annexes

Part 1: CBC Price Sources and Collection Criteria

Price sources

The price is collected by dedicated price collectors every working day through telephone, communication software, email and other means to collect quotations and other transaction data from bidding companies. In order to ensure the accuracy and comprehensiveness of the data collected, the price collectors try to collect as much information as possible from manufacturers, buyers and traders of the products, from multiple perspectives.

Collection Criteria

²  Criteria for determining effective values: If the collected price parameters (including the product's indicators, origin, trading place, transaction price, trading volume, trading method and other factors that can affect the product pricing) are correct, clear and complete, the data will be judged valid and can be entered into the sample database.

²  Price calculation: The collected sample data were standardized according to the CBC price calculation model. In this model, various variables such as price type, trading volume, trading pattern and enterprise influence of data will be converted or weighted accordingly, and finally the mainstream price that is most in line with the current trading situation of the market will be calculated.

²  Handling outliers: After standardization of the sample data, the data deviating from the mainstream price by more than 10% will be reviewed and analyzed. If there are errors in the process of data collection and calculation, the corrected data will be re-entered into the sample database for standardized processing again, and finally the corrected mainstream market price will be obtained. If the data collection and calculation process is correct, the data will be removed after review and indicating the cause of the anomaly.

²  Method of setting prices in inactive periods: In some periods, the spot market may be inactive, resulting in actual transaction data collected less than the minimum amount of data required for CBC's calculation. In this case, CBC will supplement the data by collecting the quotation or valuation spot from price-collecting enterprises (including producers, purchasers and traders) that have signed bid purchasing agreements.

²  Price review: Before the price is released, the price must be fully reviewed by senior members of the analyst team. If there is any deviation, the price will be rejected for recalculation. If it is correct, it must be signed by the reviewer before it can be released.

²  Price release: Only the approved price can be released. At the same time, all data involved in the entire process of calculating, reviewing and publishing this price will be stored in the CBC back office system so that it can be accessed and reviewed by the research team for this product at any time.

Part 2: Introduction to CBC Research Data Sources and Methodology

Ø  Principles of research indicators design

1       Based on the research needs and characteristics of the research, the design of the research indicators is scientific and perfect.

2       Indicators include: primary indicators: verification indicators; prediction evaluation indicators; historical evaluation indicators;

2.1 Basic indicators of the enterprise: that is, the basic information of the enterprise, the indicators checked by external data and researchers

2.2 Primary indicators: the information indicators directly investigated by researchers

2.3 Verification indicators: including two categories:

2.3.1 Category 1: that is, through the research of different enterprises on the same content, such as price, trade, pricing mechanism and other indicators, the research data can be verified through two-way or multi-direction, multi-channel research, so as to achieve the purpose of more real research information.

2.3.2 Category 2: that is, for the same research enterprise, by designing different indicators to verify the same research content; such as: capacity index, output index and capacity utilization index; (the capacity utilization index is the verification index)

2.4 Reference comment category, including two categories:

2.4.1 Category 1: Predictive evaluation indicators: Since this project needs to forecast the next five years, the project team designed research indicators by analyzing various influencing factors and establishing parameter indicators, including qualitative and quantitative research requirements, in order to obtain more information for prediction evaluation through research.

2.4.2 Category 2: Historical evaluation indicators: Since this project needs to conduct research on historical five-year data, the project team designs the research indicators based on historical evaluation. It is better if the primary historical data can be directly investigated; It is not possible to investigate directly, conduct research and evaluation through historical evaluation indicators.

Ø  Data research methods (three types)

1       Primary Survey: understand the basic information of the company, product business scope, supply chain situation and development information, etc.

2       Refinement: refined research and verification, divided into products, sources, regions, flow directions, methods, etc.

3       Monitoring and research: Based on research targets (ie. research indicators and goals), full-dimensional, full-chain research deployment:

3.1 Full dimension: refers to conducting research on personnel in different positions in the enterprise, including production, sales, procurement, management and other positions, and conducting research, communication and verification on data;

3.2 Full-chain: refers to the research on the upstream and downstream of the industrial chain and related full-chain enterprises in the surrounding area.

3.3 Multi-method data validation

3.3.1 Based on IT technology, develop a data model to eliminate systematic deviations and data early warning: set a reasonable deviation rate for each data (the basis of deviation rate parameters), and test each data in each period.

3.3.2 According to the current market and the overall performance of the industry, expert analysts will issue alarms and check instructions for individual changes in the company.

Part 3: Introduction to CBC's quantitative medium and long-term price forecasting methodology

Ø  Historical research:

[CBC Metal] Professional analysts conduct research on the reasons for the historical price changes of the underlying products, and select the driving factors with strong influence based on the following three research directions:

²  The degree and direction of influence on the target product

²  Historical trend and current situation, predict the long-term development trend

²  Change laws, including seasonal changes and other regular changes

Ø  Medium and long-term quantitative forecast:

Based on the changes in the supply and demand relationship, quantitative forecast of the long-term development direction trend and large change nodes, [CBC metal network] professional analysts adjust the quantitative trend according to the long-term development trend of related products and background factors

Ø  Description of influencing factors (not limited to the following aspects)

1.         Core influencing factors: supply and demand

²  Supply side:

ü  Direct impact: output, import volume

ü  Indirect impact: capacity, start-up equipment dynamics

²  Demand side:

ü  Directly reflects: demand, export volume

ü  Side reflects: apparent consumption, enterprise sales

2.         Influencing factors of related products

²  Upstream products (cost impact)

²  Alternatives

²  Technology development and iteration products

²  Downstream products (product demand impact)

3.         Background influencing factors

²  Macro

²  Policy

²  Environment

²  Global producer/consumer dynamics

²  Logistics and transportation

²  Industry sentiment

Part 4: CBC Platform Introduction

CBC Metal is based on the whole field of metals, basic materials and new materials, comprehensively tracking the industry development and technology frontier; it is committed to building a comprehensive and authoritative metal data platform, gathering domestic outstanding experts and scholars together to provide comprehensive data information services and decision support for metal industry research and practitioners, and is a famous industry data information service platform in China!

Its construction: 54 types of metal vertical portals and more than 18 types of new material industry chain platforms: including six base metals, 29 types of minor metals, eight precious metals, lithium new materials, photovoltaic, photoelectric materials, magnetic materials, catalytic materials, recycling, mining, new ceramics, refractory material industry, photoelectric material industry chain, rare earth industry network, ferroalloy industry chain, stainless steel industry chain, and other professional information service platforms.

Each type of platform is equipped with the corresponding research institute and data center; each field platform independently develops a large database system in the field, which is used for in-depth comprehensive system specialization for field content support and members' personalized needs and expanding specialized research.

It has a wide range of customer services and has a relatively high market share in government agencies, industry associations, listed companies, financial investment, industry research, the National Academy of Sciences, the Academy of Engineering and its branches and major colleges and universities at home and abroad, big data institutions, business strategy research institutions. The main domestic mineral enterprises, metals and related production and processing enterprises have been members of the site, while downstream users, trade services, equipment and technology and other business institutions members are also increasing.

Ø  Complete system: large in volume, complete in information, and precise in classification, it is the most complete metal data application system in China at present.

Ø  The data system includes six data modules. Each module is divided into several sub-modules, in order to meet the diverse information needs of customers. 

Part 5:CBC MetalPart of the recent CBC member companies list for reference

The current website membership of more than 300,000; daily visits to customers 30,000 ~ 50,000 IP; daily fixed browsing website high-frequency information, has established strategic cooperation with tens of thousands of professional institutions, enterprise groups, to provide timely and detailed and accurate industry information, relied on by customers!

CBC member customer classification

Ø  Metal and material industry chain upstream and downstream enterprises; including mineral resources development, production and supply enterprises, internal and external trade enterprises, downstream purchasing user enterprises, technical service material enterprises, etc.

Ø  Research institutions: including national, college-level, professional research institutions, professional research institutions in the field of metal materials, etc.

Ø  Government agencies: national development planning, environmental protection, regional-level economic development, special park development service agencies, etc.

Ø  Financial and investment institutions: including various securities, funds, banks, insurance institutions; various capital investment management institutions, etc.

Ø  Big data service platforms and other classifications:

The proportion of customers of various services (schematic diagram)

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Part 6: Introduction of Information Data Operation and Maintenance Organization System

The closed-loop organizational department structure enables scientifically detailed, accurate and professional data from research and development, construction, architecture, information access, daily collection, classification, validation, de-noising, de-cluttering, to systematic and logical publishing and external services.

Core business departments:

1.       Enterprise Research Department

Provide a solid foundation for information collection and build a comprehensive and systematic information channels. Daily real-time communication with enterprises, obtain first-hand enterprise intelligence, comprehensive analysis and forecast of the market.

2.       Analysts Department

Comprehensive understanding of the industry and the industry chain, forecasting and analysis of market conditions and prices.

3.       Metal Research Institute and Data Center

Build metal data center, conduct professional and in-depth market research; Use scientific system industry big data base and global perspective to improve the overall industry development; Compile industry research report, provide enterprise personalized project services.

4.       Business Department

Enterprise trade service, business matchmaking, enterprise publicity. One-to-one precise service, exclusive business manager provides manual trade matching services, 24 hours online, real-time monitoring of market dynamics, massive corporate database, global customer objectives, find the best customers for customers, to obtain excellent business opportunities.

5.       Customer Service Center and After-sales Department

Serving customers, understanding their needs, providing professional services and targeted website products, answering and feeding back customers' after-sales questions in a timely manner.

6.       Technical Department

Independently developed all kinds of database systems, chart systems, GIS systems, websites, APP and media platforms based on industry big data.

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+86 18135172048 to apply for authorisation. CBCIE reserves the right to pursue any infringement and citation contrary to the original intent.

Disclaimer:CBCIE is committed to building a comprehensive and authoritative metal information platform, and strives to provide a full range of data and information services and decision-making support for metal industry researchers and practitioners. However, the information on this website is for reference only and is not intended as direct advice for investors' decision-making. Any investment, purchase, sale or operation based on the information on this website should be at your own risk and is not related to CBCIE.

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