Original title: Global LNG receiving station industry layout status and application demand outlook report 2024-2031.
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Docking personnel": [Zhou Wen].
Last revision date: [January 2024].
Table of Contents of Charts. Figure 1: Definition of LNG receiving station.
Figure 2: Layout of LNG receiving stations.
Figure 3: Significance of LNG terminal development.
Figure 4: Characteristics of the construction and operation of LNG terminals.
Figure 5: Categories of LNG Receiving Stations.
Figure 6: Comparison of major types of LNG receiving stations.
Exhibit 7: Industries in which the research areas of this report are located (1).
Exhibit 8: Industries in which the research areas of this report are located (2).
Figure 9: The structure of the LNG receiving station industry chain.
Figure 10: Schematic diagram of the procurement process of an overseas gas source upstream of the LNG import industry chain.
Figure 11: Schematic diagram of the downstream distribution model of the LNG terminal industry chain.
Figure 12: Ecological map of the LNG receiving station industry chain.
Figure 13: Regional heat map of the LNG receiving station industry chain.
Figure 14: Scoping of this report.
Exhibit 15: Summary of authoritative data from this report**.
Exhibit 16: Description of the main research methods and statistical criteria in this report.
Figure 17: Global LNG production from 2012 to 2024 (in 100 million tons).
Figure 18: Global LNG** scale from 2012 to 2024 (unit: 100 million cubic meters).
Figure 19: Global LNG regional development pattern.
Figure 20: Global liquefaction capacity distribution by the end of 2024 (in 10,000 tons, %)
Exhibit 21: Exports from the world's major LNG exporters (in billions of cubic meters).
Exhibit 22: Imports by the world's major LNG importers (in billions of cubic meters).
Exhibit 23: Analysis of the development history of LNG receiving stations around the world.
Figure 24: The number of LNG terminals in operation in the world from 2010 to 2024 (unit: seats).
Figure 25: Number of new LNG terminals in operation worldwide from 2010 to 2024 and** (unit: seats).
Figure 26: Global structure of LNG receiving stations in operation (unit: seats, %)
Figure 27: Regional distribution of the number of LNG terminals in operation (unit: seats, %)
Figure 28: Top 8 countries in the world by the number of LNG terminals in operation (unit: seats).
Figure 29: Regional distribution of berthing capacity of LNG terminals in operation (unit: seats) around the world
Figure 30: Changes in the receiving capacity of LNG terminals in operation around the world (unit: 100 million tons, 10,000 tons).
Figure 31: Changes in storage capacity of LNG terminals in operation worldwide (unit: 10,000 cubic meters).
Figure 32: Global LNG cold energy utilization rate and utilization mode.
Exhibit 33: Global Competitive Landscape of LNG Receiving Station Players by Volume (Unit: %)
Exhibit 34: Global LNG Receiving Station Competitive Landscape by Firms (Receiving Capacity by Year) (in %)
Exhibit 35: Global LNG Terminal Regional Competitive Landscape (by Annual Receiving Capacity) (in million tonnes, %)
Exhibit 36: Analysis of the development characteristics of LNG terminals in Japan.
Figure 37: Number of LNG terminals in operation in Japan (unit: seats).
Exhibit 38: Detailed list of LNG terminals in operation in Japan (in %, million tonnes).
Figure 39: Receiving capacity of LNG terminals in operation in Japan (unit: 100 million tons, 10,000 tons).
Exhibit 40: Competitive Landscape of LNG Terminals in Japan by Receiving Capacity (Unit: %)
Exhibit 41: Development of LNG terminals in Japan** in 2024 (unit: units, 100 million tons)
Figure 42: Number of LNG terminals in operation in South Korea from 2010 to 2024 (unit: seats).
Exhibit 43: Detailed list of LNG terminals in operation in South Korea (in %, million tonnes).
Figure 44: Receiving capacity of LNG terminals in operation in South Korea at the end of the year (unit: 100 million tons, million tons).
Exhibit 45: Competitive Landscape of South Korea's LNG Terminals by Receiving Capacity (Unit: million tons, %)
Exhibit 46: Analysis of the development characteristics of LNG terminals in the United States.
Exhibit 47: Detailed list of LNG terminals in operation in the United States (in %, million tonnes).
Figure 48: Receiving capacity of LNG terminals in operation in the United States (unit: million tons, million tons).
Exhibit 49: Competitive Landscape of U.S. LNG Terminals by Receiving Capacity (Unit: %)
Exhibit 50: Overview of LNG receiving stations in Pyeongtaek, South Korea.
Figure 51: Details of the construction and operation of the LNG terminal in Pyeongtaek, South Korea (unit: million tonnes-year, seats, 10,000 cubic meters, etc.).
Figure 52: Details of the construction and operation of the Sodeura LNG terminal in Japan (unit: million tonnes-year, seats, 10,000 cubic meters, etc.).
Exhibit 53: History of the Freeport LNG terminal in the United States.
Figure 54: Details of the construction and operation of the Freeport LNG terminal in the United States (unit: million tonnes-year, seats, 10,000 cubic meters, etc.).
Exhibit 55: Lessons learned from the development of LNG terminals abroad.
Exhibit 56: Number of LNG terminals** worldwide, 2024-2031
Exhibit 57: Global LNG terminal capacity** (in 100 million tons) 2024-2031
Exhibit 58: Global LNG terminal trends.
Figure 59: China's LNG production from 2012 to 2024 (unit: 10,000 tons).
Figure 60: China's LNG consumption from 2017 to 2024 (unit: 10,000 tons).
Figure 61: Changes in the scale of China's LNG imports from 2017 to 2024 (unit: 10,000 tons, 100 million yuan).
Exhibit 62: Distribution of China's LNG imports by country (by import volume) (unit: %), 2024
Exhibit 63: Regional distribution of China's LNG production in 2024 (unit: 10,000 tons, %)
Exhibit 64: Global LNG regional development pattern.
Exhibit 65: Analysis of the development of LNG terminals in China.
Exhibit 66: Brief analysis of LNG terminal business model - owner-owned model.
Exhibit 67: A brief analysis of LNG receiving station business models - third-party usage patterns.
Figure 68: A brief analysis of the LNG terminal business model - a combination of owner-owned and third-party use.
Exhibit 69: Composition of investors in China's LNG terminals (unit: %)
Exhibit 70: Analysis of the investment entry methods of each entity in China's LNG terminals.
Figure 71: Number of LNG receiving stations in Chinese mainland from 2010 to 2024 (unit: seats).
Figure 72: Number of new LNG terminals in Chinese mainland from 2006 to 2019 (unit: seats).
Figure 73: Distribution of LNG receiving stations in Chinese mainland (unit: seats, %)
Exhibit 74: List of newly started LNG terminal projects in Chinese mainland (unit: %, million tonnes).
Exhibit 75: Expansion plan of LNG terminal project in Chinese mainland (unit: %, million tonnes).
Exhibit 76: Detailed list of LNG terminals in operation in China (in %, million tonnes).
Figure 77: Changes in storage capacity of LNG terminals in operation in China (unit: 10,000 cubic meters, %)
Chart 78: Average outbound price trend of 16 imported LNG terminals in Chinese mainland (unit: yuan ton).
Exhibit 79: List of sales prices of selected LNG terminals in China (unit: yuan-tonne).
Exhibit 80: LNG Receiver Market Size Analysis.
Exhibit 81: Pain points and challenges in the development of LNG terminals in China.
Exhibit 82: LNG Receiver Competitor Entry Process.
Figure 83: Regional distribution heat map of LNG receiver competitors.
Exhibit 84: LNG Receiver Competitor Cluster Echelon.
Exhibit 85: LNG Receiver Competitive Landscape.
Exhibit 86: Competitive landscape of China's LNG terminals by number (unit: seats).
Exhibit 87: Competitive Landscape of China LNG Terminals (Receiving Capacity by Year) (Unit: %)
Exhibit 88: LNG Receiver Market Concentration.
Figure 89: Analysis of Porter's Five Forces Model at an LNG Receiving Station.
Exhibit 90: Analysis of Competitive Strategies of Overseas Companies in China.
Exhibit 91: Evaluation of the competitiveness of overseas companies in the Chinese market.
Exhibit 92: LNG Receiver Firms' Competitive Route Focus Summary.
Exhibit 93: Analysis of key success factors for China's leading LNG receiver companies.
Exhibit 94: Radar chart of the competitiveness of China's leading LNG receiver companies.
Exhibit 95: Competitiveness of Chinese firms in the global LNG terminal market.
Figure 96: Global Layout of LNG Receiving Station Enterprises Overseas Layout.
Exhibit 97: Capital investment in LNG terminal projects.
Figure 98: LNG terminal process system and LNG equipment input.
Exhibit 99: Impact on the industry.
Figure 100: Distribution of proven natural gas resources in China (unit: 100 million cubic meters).
Figure 101: New Proven Geological Reserves for Natural Gas Exploration in China (Unit: 100 million cubic meters).
Figure 102: China's investment in oil and gas exploration and development.
Exhibit 103: China's natural gas production and growth (unit: 100 million cubic meters, %)
Figure 104: Regional distribution of China's natural gas supply (unit: %)
Figure 105: Year-on-year growth rate of China's natural gas production and imports (unit: %)
Figure 106: China's natural gas supply scale** (unit: 100 million cubic meters) from 2024 to 2031
Figure 107: Growth trend of China's natural gas consumption (unit: 100 million cubic meters, %)
Exhibit 108: Structure of China's natural gas downstream consumption market (unit: %)
Exhibit 109: China's energy consumption structure (unit: %)
Figure 110: China's natural gas consumption** from 2024 to 2031 (in 100 million cubic meters).
Exhibit 111: China's natural gas imports (in 10,000 tons, %)
Exhibit 112: Changes in the structure of China's natural gas imports (unit: %)
Exhibit 113: China's dependence on natural gas imports (in %)
Figure 114: Comparison of China's natural gas production and sales volume and LNG import volume with average annual compound growth rate (unit: %)
Figure 115: Distribution of LNG Receiver Application Scenarios.
Exhibit 116: LNG Receiver Market Structure.
Exhibit 117: Overview of the development of natural gas power generation.
Exhibit 118: Natural Gas Power Generation Market Overview.
Figure 119: Landscape of natural gas power generation companies.
Exhibit 120: Application demand for LNG in natural gas power generation.