1. RESEARCH SCOPE
1.1. STUDY GOALS
1.2. SCOPE OF THE MARKET STUDY
1.3. WHO WILL FIND THIS REPORT USEFUL?
1.4. STUDY AND FORECASTING YEARS
2. RESEARCH METHODOLOGY
2.1. SOURCES OF DATA
2.1.1. SECONDARY DATA
2.1.2. PRIMARY DATA
2.2. TOP-DOWN APPROACH
2.3. BOTTOM-UP APPROACH
2.4. DATA TRIANGULATION
3. EXECUTIVE SUMMARY
3.1. MARKET SUMMARY
3.2. KEY FINDINGS
3.2.1. 5 -15 MW CAPACITY SEGMENT HOLDS THE LARGEST REVENUE CHUNK
3.2.2. 50 -100 MW CAPACITY SEGMENT IS PROJECTED TO GROW WITH HIGHEST CAGR
3.2.3. SURGE IN THE ELECTRICITY CONSUMPTION
3.2.4. INCREASING FOCUS ON RENEWABLE ELECTRICITY GENERATION
4. MARKET DYNAMICS
4.1. TIMELINE OF LIQUID AIR ENERGY STORAGE (LAES)
4.2. PARENT MARKET ANALYSIS: ENERGY STORAGE MARKET
4.3. MARKET SCOPE & DEFINITION
4.4. MARKET DRIVERS
4.4.1. GEOGRAPHICALLY UNCONSTRAINED COMPARED TO OTHER ENERGY STORAGE SYSTEMS
4.4.2. GOVERNMENT SUPPORT & TECHNOLOGICAL ADVANCEMENTS
4.4.3. LOW OPERATING & CAPITAL COST
4.4.4. SUSTAINABLE & CLEAN ENERGY STORAGE WITH LONG LIFESPAN
4.5. MARKET RESTRAINTS
4.5.1. COSTS ASSOCIATED WITH LAES SYSTEMS
4.5.2. PUMPED HYDRO STORAGE & OTHER ALTERNATIVE TECHNOLOGIES
4.6. MARKET OPPORTUNITIES
4.6.1. GROWING ADOPTION OF DISTRIBUTED ENERGY SYSTEMS
4.6.2. EXTENSIVE RESEARCH & DEVELOPMENT FOR NEW APPLICATION INTEGRATION IN LAES
4.7. MARKET CHALLENGES
4.7.1. DIFFICULTIES IN IMPLEMENTATION OF LAES ON LARGE SCALE
4.7.2. SHORTAGE OF LABOR COUPLED WITH LAND CONSTRAINTS
5. MARKET BY CAPACITY
5.1. 5 -15 MW
5.2. 16 – 50 MW
5.3. 50 -100 MW
5.4. 100 MW+
6. MARKET BY APPLICATION
6.1. POWER GENERATION
6.2. POWER TRANSMISSION
6.3. POWER DISTRIBUTION
6.4. RENEWABLE INTEGRATION
6.5. LNG TERMINALS
6.6. OTHER APPLICATIONS
7. KEY ANALYTICS
7.1. PORTER’S FIVE FORCE MODEL
7.1.1. THREAT OF NEW ENTRANTS
7.1.2. THREAT OF SUBSTITUTE
7.1.3. BARGAINING POWER OF SUPPLIERS
7.1.4. BARGAINING POWER OF BUYERS
7.1.5. THREAT OF COMPETITIVE RIVALRY
7.2. KEY BUYING CRITERIA
7.2.1. COST
7.2.2. EFFICIENCY
7.2.3. ADAPTABILITY & SYSTEM SCALABILITY
7.3. OPPORTUNITY MATRIX
7.4. VENDOR LANDSCAPE
7.5. VALUE CHAIN ANALYSIS
7.5.1. SUPPLIERS
7.5.2. INSTALLATION
7.5.3. CONTRACTING & MARKETING
7.5.4. END USERS
7.6. LEGAL, POLICY & REGULATORY FRAMEWORK
7.7. INVESTMENT ANALYSIS
7.7.1. BY CAPACITY
7.7.2. BY APPLICATION
8. GEOGRAPHICAL ANALYSIS – EUROPE
8.1. UNITED KINGDOM
8.2. GERMANY
8.3. FRANCE
8.4. REST OF EUROPE
9. COMPETITIVE LANDSCAPE
9.1. MARKET SHARE ANALYSIS
9.2. KEY COMPANY ANALYSIS
9.3. CORPORATE STRATEGIES
9.4. COMPANY PROFILES
9.4.1. CUSTOM METALCRAFT, INC.
9.4.2. GE OIL & GAS INC.
9.4.3. HEATRIC LIMITED
9.4.4. HIGHVIEW POWER
9.4.5. LINDE GROUP
9.4.6. MESSER GROUP GMBH
9.4.7. MITSUBISHI HITACHI POWER SYSTEMS, LTD
9.4.8. VIRIDOR LIMITED
LIST OF TABLES
TABLE 1: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY COUNTRY, 2018-2023 (IN $ THOUSAND)
TABLE 2: TIMELINE OF LIQUID AIR ENERGY STORAGE INDUSTRY
TABLE 3: COMPARISON BETWEEN LIQUID AIR ENERGY STORAGE (LAES) & OTHER STORAGE TECHNOLOGIES/SYSTEMS
TABLE 4: LIQUID AIR ENERGY STORAGE (LAES) EFFICIENCY COMPARISON WITH OTHER STORAGE TECHNOLOGIES.
TABLE 5: ENERGY DENSITY OF DIFFERENT ENERGY STORAGE TECHNOLOGY
TABLE 6: FEATURES OF DIFFERENT ENERGY STORAGE SYSTEMS USED IN DISTRIBUTED ENERGY GENERATION AND STORAGE SYSTEM.
TABLE 7: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY CAPACITY, 2018-2023, (IN $ THOUSAND)
TABLE 8: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY APPLICATION, 2018-2023, (IN $ THOUSAND)
TABLE 9: OPPORTUNITY MATRIX
TABLE 10: VENDOR LANDSCAPE
TABLE 11: ALL-IN INSTALLED COST RANGE OF LAES 4H SYSTEM
TABLE 12: LEGAL, POLICY & REGULATORY FRAMEWORK
TABLE 13: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY COUNTRY, 2018-2023 (IN $ THOUSAND)
TABLE 14: LIST OF KEY STRATEGIES
LIST OF FIGURES
FIGURE 1: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY TYPE, 2017 & 2023 (IN %)
FIGURE 2: ELECTRICITY DEMAND PROJECTION IN KEY GEOGRAPHIES, 2016-2040F (IN TWH)
FIGURE 3: AVERAGE ANNUAL NET CAPACITY ADDITION ESTIMATES, 2010-2040 (IN GW)
FIGURE 4: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY 5 -15 MW, 2018-2023 (IN $ THOUSAND)
FIGURE 5: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY 16 – 50 MW, 2018-2023 (IN $ THOUSAND)
FIGURE 6: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY 50 -100 MW, 2018-2023 (IN $ THOUSAND)
FIGURE 7: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY 100 MW+, 2018-2023 (IN $ THOUSAND)
FIGURE 8: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY POWER GENERATION, 2018-2023 (IN $ THOUSAND)
FIGURE 9: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY POWER TRANSMISSION, 2018-2023 (IN $ THOUSAND)
FIGURE 10: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY POWER DISTRIBUTION, 2018-2023 (IN $ THOUSAND)
FIGURE 11: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY RENEWABLE INTEGRATION, 2018-2023 (IN $ THOUSAND)
FIGURE 12: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY LNG TERMINALS, 2018-2023 (IN $ THOUSAND)
FIGURE 13: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY OTHER APPLICATIONS, 2018-2023 (IN $ THOUSAND)
FIGURE 14: PORTER’S FIVE FORCE ANALYSIS
FIGURE 15: KEY BUYING IMPACT ANALYSIS
FIGURE 16: VALUE CHAIN ANALYSIS
FIGURE 17: WORLDWIDE TREND OF ENERGY CONSUMPTION, 1970-2040 (IN BILLION TOE)
FIGURE 18: INVESTMENT ANALYSIS OF LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY CAPACITY, IN 2018
FIGURE 19: INVESTMENT ANALYSIS OF LIQUID AIR ENERGY STORAGE (LAES) MARKET, BY APPLICATION, IN 2018
FIGURE 20: EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, REGIONAL OUTLOOK, 2017 & 2023 (IN %)
FIGURE 21: UNITED KINGDOM LIQUID AIR ENERGY STORAGE (LAES) MARKET, 2018-2023 (IN $ THOUSAND)
FIGURE 22: GERMANY LIQUID AIR ENERGY STORAGE (LAES) MARKET, 2018-2023 (IN $ THOUSAND)
FIGURE 23: FRANCE LIQUID AIR ENERGY STORAGE (LAES) MARKET, 2018-2023 (IN $ THOUSAND)
FIGURE 24: REST OF EUROPE LIQUID AIR ENERGY STORAGE (LAES) MARKET, 2018-2023 (IN $ THOUSAND)
FIGURE 25: MARKET SHARE ANALYSIS OF KEY PLAYERS IN 2018 (IN %)
【レポートのキーワード】
液体空気エネルギー貯蔵(LAES)
【免責事項】
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