Stationary Battery Storage Market Status and Trend Analysis 2017-2026 (COVID-19 Version)
Report Code: KNJ593575
Publisher: Date of Publish:
No. of Pages: 140 Category: Energy Publisher: Date of Publish:
Summary Further key aspects of the report indicate that: Chapter 1: Research Scope: Product Definition, Type, End-Use & Methodology Chapter 2: Global Industry Summary Chapter 3: Market Dynamics Chapter 4: Global Market Segmentation by region, type and End-Use Chapter 5: North America Market Segmentation by region, type and End-Use Chapter 6: Europe Market Segmentation by region, type and End-Use Chapter 7: Asia-Pacific Market Segmentation by region, type and End-Use Chapter 8: South America Market Segmentation by region, type and End-Use Chapter 9: Middle East and Africa Market Segmentation by region, type and End-Use. Chapter 10: Market Competition by Companies Chapter 11: Market forecast and environment forecast. Chapter 12: Industry Summary. The global Stationary Battery Storage market has the potential to grow with xx million USD with growing CAGR in the forecast period from 2021f to 2026f. Factors driving the market for @@@@@ are the significant development of demand and improvement of COVID-19 and geo-economics. Based on the type of product, the global Stationary Battery Storage market segmented into Lithium-ion Sodium Sulphur (NaS) Lead Acid Flow Battery Others Based on the end-use, the global Stationary Battery Storage market classified into Emergency Power Communication Base Station Local Energy Storage Remote Relay Stations Uninterrupted Power Supply Based on geography, the global Stationary Battery Storage market segmented into North America [U.S., Canada, Mexico] Europe [Germany, UK, France, Italy, Rest of Europe] Asia-Pacific [China, India, Japan, South Korea, Southeast Asia, Australia, Rest of Asia Pacific] South America [Brazil, Argentina, Rest of Latin America] Middle East & Africa [GCC, North Africa, South Africa, Rest of Middle East and Africa] And the major players included in the report are Toshiba Corporation Samsung SDI Koninklijke Philips Panasonic Corporation GS Yuasa International A123 systems Hitachi Chemical LG Chem Valence Technology Hitachi Maxell BYD Duracell Exide Technologies Johnson Controls Roofer Technology Uniper Durapower ACDelco
Table of Contents 1 RESEARCH SCOPE 1.1 Research Product Definition 1.2 Research Segmentation 1.2.1 Product Type 1.2.2 Main product Type of Major Players 1.3 Demand Overview 1.4 Research Methodology 2 GLOBAL STATIONARY BATTERY STORAGE INDUSTRY 2.1 Summary about Stationary Battery Storage Industry 2.2 Stationary Battery Storage Market Trends 2.2.1 Stationary Battery Storage Production & Consumption Trends 2.2.2 Stationary Battery Storage Demand Structure Trends 2.3 Stationary Battery Storage Cost & Price 3 MARKET DYNAMICS 3.1 Manufacturing & Purchasing Behavior in 2020 3.2 Market Development under the Impact of COVID-19 3.2.1 Drivers 3.2.2 Restraints 3.2.3 Opportunity 3.2.4 Risk 4 GLOBAL MARKET SEGMENTATION 4.1 Region Segmentation (2017 to 2021f) 4.1.1 North America (U.S., Canada and Mexico) 4.1.2 Europe (Germany, UK, France, Italy, Rest of Europe) 4.1.3 Asia-Pacific (China, India, Japan, South Korea, Southeast Asia, Australia, Rest of Asia Pacific) 4.1.4 South America (Brazil,, Argentina, Rest of Latin America) 4.1.5 Middle East and Africa (GCC, North Africa, South Africa, Rest of Middle East and Africa) 4.2 Product Type Segmentation (2017 to 2021f) 4.2.1 Lithium-ion 4.2.2 Sodium Sulphur (NaS) 4.2.3 Lead Acid 4.2.4 Flow Battery 4.2.5 Others 4.3 Consumption Segmentation (2017 to 2021f) 4.3.1 Emergency Power 4.3.2 Communication Base Station 4.3.3 Local Energy Storage 4.3.4 Remote Relay Stations 4.3.5 Uninterrupted Power Supply 5 NORTH AMERICA MARKET SEGMENT 5.1 Region Segmentation (2017 to 2021f) 5.1.1 U.S. 5.1.2 Canada 5.1.3 Mexico 5.2 Product Type Segmentation (2017 to 2021f) 5.2.1 Lithium-ion 5.2.2 Sodium Sulphur (NaS) 5.2.3 Lead Acid 5.2.4 Flow Battery 5.2.5 Others 5.3 Consumption Segmentation (2017 to 2021f) 5.3.1 Emergency Power 5.3.2 Communication Base Station 5.3.3 Local Energy Storage 5.3.4 Remote Relay Stations 5.3.5 Uninterrupted Power Supply 5.4 Impact of COVID-19 in North America 6 EUROPE MARKET SEGMENTATION 6.1 Region Segmentation (2017 to 2021f) 6.1.1 Germany 6.1.2 UK 6.1.3 France 6.1.4 Italy 6.1.5 Rest of Europe 6.2 Product Type Segmentation (2017 to 2021f) 6.2.1 Lithium-ion 6.2.2 Sodium Sulphur (NaS) 6.2.3 Lead Acid 6.2.4 Flow Battery 6.2.5 Others 6.3 Consumption Segmentation (2017 to 2021f) 6.3.1 Emergency Power 6.3.2 Communication Base Station 6.3.3 Local Energy Storage 6.3.4 Remote Relay Stations 6.3.5 Uninterrupted Power Supply 6.4 Impact of COVID-19 in Europe 7 ASIA-PACIFIC MARKET SEGMENTATION 7.1 Region Segmentation (2017 to 2021f) 7.1.1 China 7.1.2 India 7.1.3 Japan 7.1.4 South Korea 7.1.5 Southeast Asia 7.1.6 Australia 7.1.7 Rest of Asia Pacific 7.2 Product Type Segmentation (2017 to 2021f) 7.2.1 Lithium-ion 7.2.2 Sodium Sulphur (NaS) 7.2.3 Lead Acid 7.2.4 Flow Battery 7.2.5 Others 7.3 Consumption Segmentation (2017 to 2021f) 7.3.1 Emergency Power 7.3.2 Communication Base Station 7.3.3 Local Energy Storage 7.3.4 Remote Relay Stations 7.3.5 Uninterrupted Power Supply 7.4 Impact of COVID-19 in Europe 8 SOUTH AMERICA MARKET SEGMENTATION 8.1 Region Segmentation (2017 to 2021f) 8.1.1 Brazil 8.1.2 Argentina 8.1.3 Rest of Latin America 8.2 Product Type Segmentation (2017 to 2021f) 8.2.1 Lithium-ion 8.2.2 Sodium Sulphur (NaS) 8.2.3 Lead Acid 8.2.4 Flow Battery 8.2.5 Others 8.3 Consumption Segmentation (2017 to 2021f) 8.3.1 Emergency Power 8.3.2 Communication Base Station 8.3.3 Local Energy Storage 8.3.4 Remote Relay Stations 8.3.5 Uninterrupted Power Supply 8.4 Impact of COVID-19 in Europe 9 MIDDLE EAST AND AFRICA MARKET SEGMENTATION 9.1 Region Segmentation (2017 to 2021f) 9.1.1 GCC 9.1.2 North Africa 9.1.3 South Africa 9.1.4 Rest of Middle East and Africa 9.2 Product Type Segmentation (2017 to 2021f) 9.2.1 Lithium-ion 9.2.2 Sodium Sulphur (NaS) 9.2.3 Lead Acid 9.2.4 Flow Battery 9.2.5 Others 9.3 Consumption Segmentation (2017 to 2021f) 9.3.1 Emergency Power 9.3.2 Communication Base Station 9.3.3 Local Energy Storage 9.3.4 Remote Relay Stations 9.3.5 Uninterrupted Power Supply 9.4 Impact of COVID-19 in Europe 10 COMPETITION OF MAJOR PLAYERS 10.1 Brief Introduction of Major Players 10.1.1 Toshiba Corporation 10.1.2 Samsung SDI 10.1.3 Koninklijke Philips 10.1.4 Panasonic Corporation 10.1.5 GS Yuasa International 10.1.6 A123 systems 10.1.7 Hitachi Chemical 10.1.8 LG Chem 10.1.9 Valence Technology 10.1.10 Hitachi Maxell 10.1.11 BYD 10.1.12 Duracell 10.1.13 Exide Technologies 10.1.14 Johnson Controls 10.1.15 Roofer Technology 10.1.16 Uniper 10.1.17 Durapower 10.1.18 ACDelco 10.2 Stationary Battery Storage Sales Date of Major Players (2017-2020e) 10.2.1 Toshiba Corporation 10.2.2 Samsung SDI 10.2.3 Koninklijke Philips 10.2.4 Panasonic Corporation 10.2.5 GS Yuasa International 10.2.6 A123 systems 10.2.7 Hitachi Chemical 10.2.8 LG Chem 10.2.9 Valence Technology 10.2.10 Hitachi Maxell 10.2.11 BYD 10.2.12 Duracell 10.2.13 Exide Technologies 10.2.14 Johnson Controls 10.2.15 Roofer Technology 10.2.16 Uniper 10.2.17 Durapower 10.2.18 ACDelco 10.3 Market Distribution of Major Players 10.4 Global Competition Segmentation 11 MARKET FORECAST 11.1 Forecast by Region 11.2 Forecast by Demand 11.3 Environment Forecast 11.3.1 Impact of COVID-19 11.3.2 Geopolitics Overview 11.3.3 Economic Overview of Major Countries 12 REPORT SUMMARY STATEMENT
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