21
Tue, May

NEW YORK, May 20, 2019 /PRNewswire/ --

This report analyzes the worldwide markets for Ocean Energy in Kilowatts by the following Technology Segments: Wave Energy, and Others.

Read the full report: https://www.reportlinker.com/p05478520/?utm_source=PRN

The report provides separate comprehensive analytics for the US, Canada, Japan Europe, and Rest of World.

Annual estimates and forecasts are provided for the period 2015 through 2022. Market data and analytics are derived from primary and secondary research. Company profiles are primarily based on public domain information including company URLs.

The report profiles 61 companies including many key and niche players such as:
- Able Technologies, L.L.C
- Albatern Ltd.
- Applied Technologies Company, Ltd.
- AquaGen Technologies
- Aqua-Magnetics Inc.
- Atargis Energy Corporation

Read the full report: https://www.reportlinker.com/p05478520/?utm_source=PRN

OCEAN ENERGY MCP-6
MARKET ANALYSIS, TRENDS, AND FORECASTS, MAY 2
CONTENTS

1. INTRODUCTION, METHODOLOGY & PRODUCT DEFINITIONS

2. INDUSTRY OVERVIEW

Ocean Energy: Harnessing the Sheer Potential of Oceans & Seas for Meeting Future Energy Needs
Table 1: Theoretical Potential of Wave Energy by Geographic Region (includes corresponding Graph/Chart)
Table 2: Worldwide Major Locations with Mean Tidal Range >
Meters (includes corresponding Graph/Chart)
Table 3: Major Resources of Osmotic Energy Worldwide (includes corresponding Graph/Chart)
Important Factors Influencing the Global Ocean Energy Market
Growing Environmental Concerns
Increasing Regulations
Rising Electricity Consumption & Energy Prices
Shift to Renewable Sources of Energy: An Inevitable Reality
Table 4: Global Renewable Power Capacity (2017): Percentage Share Breakdown by Technology for Bio-power, Concentrating Solar Thermal Power, Geothermal Power, Hydropower, Ocean Power, Solar PV, and Wind Power (includes corresponding Graph/Chart)
Huge Untapped Kinetic Energy Potential of Oceans: A Fundamental Growth Driver
Fast Facts
Growth Drivers in a Nutshell
Key Market Inhibitors
Government Intervention Critical for Commercial Success of Ocean Energy
Domestic Targets for Greenhouse Gas Emissions of Select Regions/Countries
Technology Commercialization: Need of the Hour
Ocean Energy - A Review of Current Scenario
Global Market Outlook
Europe Leads the Global Ocean Energy Market
Europe: Focal Point for Ocean Energy Technologies R&D
Asia-Pacific: Frontrunner in Tidal Barrage Power Plants


3. MARKET TRENDS, ISSUES & DRIVERS

Growing Number of Wave Energy Projects Worldwide Drives Strong Market Growth
Major Wave Energy Projects Worldwide: Project Proponent, Technology, Location, Capacity (MW) and Development Stage
Table 5: Select Wave Power Stations Worldwide
Tidal Energy Gains Momentum
MeyGen - A Multi-Turbine Tidal Stream Project in Scotland
Tidal Energy Projects Worldwide
Major Tidal Projects (Existing & Proposed) Worldwide
Tidal Stream Projects Lends Traction to Market Growth
Tidal Range Projects to Face Challenges
Ocean Thermal Energy Conversion (OTEC) - A Niche Segment
OTEC Project on the South Pacific Ocean Obtains Bureau Veritas Approval
Other FOWT Projects
Major FOWT Projects Worldwide: Project Proponent, Technology, Location, Capacity (MW) and Development Stage
Rising Investments in Renewable Energy Sources Benefit Market Expansion
Table 6: Global New Investments (US$ Billion) in Renewable Energy by Source: 2005 & 2017 (includes corresponding Graph/Chart)
Superior Attributes of Tidal Energy Attract New Developers, Benefits Market Adoption
Horizontal Axis Turbines Grab Lion's Share of Tidal Energy Devices
Tidal Energy: Abundant Resources despite Technology Barriers
Despite Dominance of Tidal Energy, Wave Energy Garner Growing Attention and Investments
Small Islands Provide Big Push for Ocean Thermal Energy Conversion Plants
Surveys to Play a Vital Role in Project Developments
Robust Electric Power Consumption Drives the Need for Alternative Energy Sources
Table 7: Projected Global Demand for Primary Energy (Mtoe) and Electricity (MWh): 2015, 2020, 2025, 2030 & 2
(includes corresponding Graph/Chart)
Table 8: Global Delivered Energy Consumption (quadrillion Btu) by End-use Sector (2012, 2020, 2025, 2030, and 2035) (includes corresponding Graph/Chart)
Burgeoning Global Population Propels Demand for Electric Power
Table 9: Global Population Estimates (2000-2100) (includes corresponding Graph/Chart)
Key Challenges Hampering Ocean Energy Development
Financial Support and Markets
Administrative and Environmental Issues
Environmental Challenges
Administrative Issues
Social Acceptance Impediments
Availability of Grid Close to Projects
Grid Integration
Technology Advancements


4. INNOVATIONS AND ADVANCEMENTS

PLAT-O Driving Down Tidal Energy Costs
bioWAVE: The New Ocean Energy Harnessing Device Deployed off the Australian Coast
THWAT Turbine for Tidal Energy
HiWave: A Novel WEC Technology that Works on the Human Heart Blood Pumping Principle
Xenesys and Saga University to Develop OTEC Technology
Japan Houses the State-of-the-Art OTEC Center
Technology Developments to Harness Salt Power


5. CONCEPT OF OCEAN ENERGY

Ocean Energy
Ocean Energy Extraction
Mechanical Energy
Thermal Energy
Wave Energy
Availability of Wave Energy
Major Resources
Potential of Wave Power
Advantages of Wave Energy
Challenges Faced by Wave Energy Power Facilities
Technology Overview
Oscillating Water Column (OWC)
Point Absorption Devices
Attenuator
Overtopping Devices
Tidal Energy
Methods of Energy Conversion
Tidal Barrage
Tidal Streams
Potential of Tidal Power
Advantages
Inexhaustible and Highly Reliable
Less Conspicuous
Predictability
Environmental Concerns
Floating Offshore Wind Turbine (FOWT)
Ocean Thermal Energy
Salt Power
Resources


6. COMPETITIVE LANDSCAPE

Ocean Energy: A Highly Fragmented Market
Untapped Growth Potential Luring Players
Select Wave Energy Technology Developers and Devices in the US
Table 10: Global Wave Energy Devices Breakdown (%) by Application: 2017 (includes corresponding Graph/Chart)
Table 11: Global Wave Energy Device Breakdown (%) by Installation: 2017 (includes corresponding Graph/Chart)
Table 12: Total Number of Patents Filed for Marine Energy Technology Worldwide for the Years 2000, 2005, 2010, 2015 & 2016 (includes corresponding Graph/Chart)
6.1 Focus on Select Global Players
Able Technologies, L.L.C. (USA)
Albatern Ltd. (UK)
Applied Technologies Company, Ltd. (Russia)
AquaGen Technologies (Australia)
Aqua-Magnetics Inc. (USA)
Atargis Energy Corporation (USA)
Atlantis Resources Ltd. (UK)
BioPower Systems Pty. Ltd. (Australia)
Blue Energy Canada Inc. (Canada)
Carnegie Clean Energy Limited (Australia)
Minesto AB (Sweden)
Nova Innovation Ltd. (UK)
Ocean Power Technologies Inc. (USA)
Ocean Renewable Power Company, LLC (USA)
OpenHydro Group Limited (Ireland)
Scotrenewables Tidal Power Ltd. (Scotland)
Tocardo International BV (Netherlands)
Verdant Power, Inc. (USA)
6.2 Product Launches
Scotrenewables Tidal Power Unveils 2MW SR2000 Tidal Turbine
Kepler Energy Develops Transverse Horizontal Axis Water Turbine (THAWT) Technology
Makai Ocean Engineering Unveils OTEC Power Plant
6.3 Recent Industry Activity
Atlantis Signs MoU with Xodus
Atlantis Collaborates with LM Nagasaki University
Atlantis to Divest Stake in Atlantis Operations Canada
Minesto Completes First Offshore Installation Phase
Seabased to Build Two 20-MW Wave Power Plants in the Caribbean
DCNS Announces the Formation of DCNS Energies
Wärtsilä Inks Global Co-Operation Agreement with AW-Energy
Subsea 7 Collaborates with Flumill
Tribute Resources to Acquire Outstanding Share of Tocardo International
TenneT Enters into a Grid Connection Agreement with DONG Energy
Atlantis Signs Strategic Partnership Agreement with Hyundai Engineering & Construction
Ocean Thermal Energy Completes Reverse Merger with TetriDyn Solutions
Ocean Power Technologies Inks Lease Agreement with Mitsui Engineering and Shipbuilding
Carnegie Clean Energy Wins $15.7 Million State-Government Grant
Scotrenewables Tidal Power Deploys SR2000 Floating Tidal Turbine for Testing at the EMEC
Atlantis Resources Inks Preferred Supplier Agreement with SBS International
DCNS Energies Signs LOI with PT AIR
Ormat Technologies Acquires Viridity Energy
TU Delft Inks Agreement with Japan
Nine Companies Join Forces to Form Australian Marine Energy Taskforce
General Electric Suspends Oceade Tidal Energy Turbine Development
MacArtney Underwater Technology Acquires Majority Holding in ASME
Atlantis Acquires Scottish Tidal Project Assets from ScottishPower Renewables
Tribute Resources Takes Over Stake in Tocardo International
Atlantis' MeyGen Project Inks Agreement with Lochend Wind Energy
Atlantis Resources Enters into a MoU with SBS Intl
PT AIR and OpenHydro Signs MoU
Carnegie Wave Energy signs a Deal with Energy Made Clean
Verdant Power and Belleville Duggan Renewables to Form Verdant Isles
Carnegie Wave Energy to Develop Biggest Wave Energy Project in the UK
Carnegie Wave Energy to Construct Renewable Energy Microgrid
Carnegie Wave Energy Signs MoU with Lanka Energy Conservation
OpenHydro to Supply Tidal Turbine System for Japan
Atlantis Commences the MeyGen Project
Sotenäs Wave Power Plant Starts Generating Electric Power to Nordic Electricity Grid
KRISO Receives Bureau Veritas Approval for Ocean Thermal Energy Converter Project
Tocardo to Deploy T2 Bi-Directional Turbines in the Minas Passage
Tocardo to Install Eight T2 Turbines at EMEC's Grid-Connected Tidal Test Site
Carnegie Wave Energy Bags Grant from European Regional Development Fund
US DOE to Offer US$ 40 Million for Wave Energy Test Facility
EIB to Invest €10 Million in AW-Energy
Thane Municipal Corporation to Establish a Tidal Energy Plant
Karnataka Government Strikes a Deal with Tar Kovacs Systems
Carnegie Wave Energy to Rename as Carnegie Clean Energy
Ocean Power Technologies Changes PowerBuoy Device Name to PB3
GE Acquires Alstom's Power and Grid Businesses
Atlantis Acquires Marine Current Turbines from Siemens
British Columbia and Nova Scotia Enters into a Partnership
SABELLA, and H and WB Asia Pacific Sign Memorandum of Agreement
Alstom Selects Moventas as Sole Gearbox Development Partner
European Marine Energy Centre and FloWave Ocean Energy Enter into Collaboration
WERPO Signs Partnership Agreement with ACEP
Tocardo Tidal Turbines and Huisman Install Tidal Turbines in Eastern Scheldt Storm Surge Barrier
SCHOTTEL HYDRO to Supply Variable Pitch Hub for MeyGen Tidal Energy Project
Swedish Energy Agency Grants €2 Million to Corpower Ocean
Indian Navy to Establish OTEC Project in Andaman and Nicobar Islands
Apple to Invest £1 Million in Irish Wave Energy Project
Seabased Industry Installs First Wave Power Plant in Ghana
NEDO Selects IHI and Toshiba for Tidal Energy Turbine System
Atlantis Receives Approval for MeyGen tidal project in Scotland


7. GLOBAL MARKET PERSPECTIVE

Table 13: World Recent Past, Current & Future Analysis for Ocean Energy by Geographic Region - US, Canada, Japan, Europe and Rest of World Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2
(includes corresponding Graph/Chart)
Table 14: World 5-Year Perspective for Ocean Energy by Geographic Region - Percentage Breakdown of Installed Capacity for US, Canada, Japan, Europe and Rest of World Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
Table 15: World Recent Past, Current & Future Analysis for Wave Energy Technology by Geographic Region - US, Canada, Japan, Europe and Rest of World Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 16: World 5-Year Perspective for Wave Energy Technology by Geographic Region - Percentage Breakdown of Installed Capacity for US, Canada, Japan, Europe and Rest of World Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
Table 17: World Recent Past, Current & Future Analysis for Other Ocean Energy Technologies by Geographic Region - US, Canada, Japan, Europe and Rest of World Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2
through 2022 (includes corresponding Graph/Chart)
Table 18: World 5-Year Perspective for Other Ocean Energy Technologies by Geographic Region - Percentage Breakdown of Installed Capacity for US, Canada, Japan, Europe and Rest of World Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)


8. REGIONAL MARKET PERSPECTIVE


8.1 The United States
A.Market Analysis
Vast Shoreline and Favorable Regulations Drive Strong Market Growth
Major Wave Energy and FOWT Projects in the US: Project Proponent, Technology, Location, Capacity (MW) and Development Stage
Huge Potential for Power Generation Drive Federal Government Funding in Ocean Energy
Table 19: US Ocean Energy Market by Technology (2008-2017): Percentage Share Breakdown of Total Funding for Wave, Crosscutting, Tidal and Current, and OTEC (includes corresponding Graph/Chart)
US Open Sea Test Sites
Hawaii Powering the US Ocean Energy Market
Wave Energy
Table 20: Potential Wave Energy Available and Recoverable Fraction by State and Region: 2016 (includes corresponding Graph/Chart)
Ocean Thermal Energy
The WETS Location in Hawaii: A Major Testing Location
B.Market Analytics
Table 21: US Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 22: US 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.2 Canada
A.Market Analysis
Canada: A Key Proponent of Ocean Energy Worldwide with Significant Market Potential
Provinces with Potential Tidal Stream Energy
Provinces with Potential Wave Energy
Major Marine Research Centers
Major Tidal Stream and Wave Energy Projects in Canada: Project Proponent, Technology, Location, Capacity (MW) and Launch Year
Canada Reinforces its Position in Tidal and Wave Energy Sector
Canadian Open Sea Test Sites
Major Developments in the Canadian Ocean Energy Terrain
Canada to Tap Tidal Power Generation Capacity in Bay of Fundy
B.Market Analytics
Table 23: Canadian Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 24: Canadian 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.3 Japan
A.Market Analysis
Japan Offers Significant Opportunities in Marine Energy Generation
Potential Opportunities
Government Funding Promotes Tidal Technology Development
Nagasaki to Emerge as Hub for Ocean Energy
Development of Ocean Energy Gains Traction in Japan Following the Natural Disaster
Major Tidal Stream and Wave Energy Projects in Japan: Project Proponent, Technology, Capacity (MW), Location and Development Stage
Major Other Ocean Energy Projects in Japan: Project Proponent, Technology, Location, Capacity (MW) and Development Stage
B.Market Analytics
Table 25: Japanese Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 26: Japanese 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.4 Europe
A.Market Analysis
Europe Moves Ahead to Tap Tidal and Wave Energy
Major Tidal and Wave Energy Projects in Europe
Ocean Energy Capacity to Grow Substantially
Myriad Benefits of Ocean Energy Promote Sustainable Energy Development
Mitigates Carbon Emissions and Climate Change
Supports Grid Stability and Lowers Systems Cost
Benefits Associated Sectors
Reduces Dependence on Diesel Generation
Supports Economy
European Policy for Ocean Energy
Industry and EU Funds Support Ocean Energy RD&D Efforts
Ocean Energy to Gather More Steam with Public Support
Major Policy Initiatives Aid in Commercialization of Ocean Energy Technologies
Pre-commercial Projects Under NER300 Programme
EIB to Support Innovative Pioneering Demonstration Projects
B.Market Analytics
Table 27: European Recent Past, Current & Future Analysis for Ocean Energy by Geographic Region - France, UK, Spain, Portugal and Rest of Europe Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 28: European 5-Year Perspective for Ocean Energy by Geographic Region - Percentage Breakdown of Installed Capacity for France, UK, Spain, Portugal and Rest of Europe Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
Table 29: European Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 30: European 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.4.1 France
A.Market Analysis
Major Tidal Stream and Wave Energy Projects in France: Project Proponent, Technology, Location, and Capacity (MW)
France Announces Major Plans to Harness Ocean Energy
French Open Sea Test Sites
French Government Supports Tidal Energy Projects
B.Market Analytics
Table 31: French Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 32: French 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.4.2 The United Kingdom
A.Market Analysis
The UK Set to Take Center Stage in European Wave Energy Market
The UK to Replace France as the Leading Ocean Energy Market in Europe
New Project to Support Ocean Energy
The UK Scouring Depths of Ocean for Power
UK Open Sea Test Sites
Rising Investments in Tidal Energy Projects Benefits Country's Ocean Energy Sector
Scotts and Irish Collaborate on Ocean Energy
Despite Brexit, British Ocean Energy Market Firmly on the Growth Trajectory
Brexit Not Casting Gloom over Committed Investments
Consistent Funding Despite Political Uncertainties
Major Challenges to Surmount for the UK Ocean Energy Market
Commercialization
Reduced Production Costs
Stability and Continuity in Policies
Contracts for Difference
Industry and Government Collaboration: Need of the Hour
B.Market Analytics
Table 33: UK Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 34: UK 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.4.3 Spain
A.Market Analysis
Spanish Open Sea Test Sites
B.Market Analytics
Table 35: Spanish Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
8.4.4 Portugal
Market Analysis
Table 36: Portuguese Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 37: Portuguese 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.4.5 Rest of Europe
A.Market Analysis
Open Sea Test Sites
Overview of Select Countries
Netherlands
Tocardo Announces Various Tidal Projects
Norway
Major Tidal and Wave Energy Projects in Norway: Project Proponent, Technology, Capacity (MW) and Development Stage
B.Market Analytics
Table 38: Rest of Europe Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 39: Rest of Europe 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)
8.5 Rest of World
A.Market Analysis
Asia-Pacific
Tidal Power Closing Gap with Solar and Wind Energy
Pacific Islands to Ride on Ocean Wave Energy
Vast Potential in the Pacific Waters
Slow Rate of Technological Advancements Hampering Progress
Many Challenges to Surmount Before Success
British Firms Keen to Tap Rich Ocean Energy Potential of Filipino Waters
Select Regional Markets
Australia
Table 40: Power Generation from Ocean Energy Plants in Australia: Breakdown of Investment, and Operation & Maintenance Costs for the Years 2015, 2020, 2030, 2040 & 2050 (includes corresponding Graph/Chart)
Major Ocean Energy Projects in Australia: Project Proponent, Description, Location, and Development Stage
Australia Funds Project to Understand and Unlock Potential of Tidal Energy
China
Major Ocean Energy Projects in China: Project Proponent, Location, Capacity (MW) and Year of Operation
Chinese Open Sea Test Sites
Technology Advancements in Tidal Power Harnessing
India
India Marches Ahead to Harness Ocean Renewable Energy
Indonesia
Major Ocean Energy Projects in Indonesia: Project Proponent, Technology, Capacity (MW), and Location
South Korea
Major Wave and Tidal Energy Projects in South Korea: Project Proponent, Technology, Capacity (MW) and Project Period
Major OTEC, Salinity Gradient & Other Ocean Energy R&D Projects in South Korea: Project Proponent, Technology, and Project Period
South Korean Open Sea Test Sites
Philippines
Major Ocean Energy Projects in the Philippines: Project Proponent, Technology, Capacity (MW) and Location
B.Market Analytics
Table 41: Rest of World Recent Past, Current & Future Analysis for Ocean Energy by Technology - Wave and Other Ocean Energy Technologies Markets Independently Analyzed with Installed Capacity in Kilowatts for Years 2015 through 2022 (includes corresponding Graph/Chart)
Table 42: Rest of World 5-Year Perspective for Ocean Energy by Technology - Percentage Breakdown of Installed Capacity for Wave and Other Ocean Energy Technologies Markets for Years 2018 & 2022 (includes corresponding Graph/Chart)


9. COMPANY PROFILES

Total Companies Profiled: 61 (including Divisions/Subsidiaries - 61) The United States (10) Canada (4) Europe (39) - France (2) - Germany (2) - The United Kingdom (17) - Spain (1) - Rest of Europe (17) Asia-Pacific (Excluding Japan) (7) Middle East (1)
Read the full report: https://www.reportlinker.com/p05478520/?utm_source=PRN

About Reportlinker
ReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.

__________________________
Contact Clare: This email address is being protected from spambots. You need JavaScript enabled to view it.
US: (339)-368-6001
Intl: +1 339-368-6001

SOURCE Reportlinker

Related Links

http://www.reportlinker.com

Read more: Global Ocean Energy Industry

NEW YORK, May 20, 2019 /PRNewswire/ -- This report analyzes the worldwide markets for Lithium in Metric Tons by the following End-Use Segments: Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries, and Others.

Read the full report: https://www.reportlinker.com/p05478488/?utm_source=PRN

The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, China, Asia-Pacific, Middle East & Africa, and Latin America.

Annual estimates and forecasts are provided for the period 2016 through 2024. Also, a five-year historic analysis is provided for these markets. Market data and analytics are derived from primary and secondary research. Company profiles are primarily based on public domain information including company URLs.

The report profiles 39 companies including many key and niche players such as:
- Albemarle Corporation
- Altura Mining Ltd.
- FMC Lithium
- Galaxy Resources Limited
- Jiangxi Ganfeng Lithium Co., Ltd.
- Lithium Americas Corporation

Read the full report: https://www.reportlinker.com/p05478488/?utm_source=PRN

LITHIUM MCP-2
MARKET ANALYSIS, TRENDS, AND FORECASTS, MAY 2
CONTENTS

1. INTRODUCTION, METHODOLOGY & PRODUCT DEFINITIONS

2. INDUSTRY OVERVIEW

Lithium: Demand Shifts from Traditional Sectors towards High- Growth Battery-based Emerging Applications
China Continues to Spearhead Growth in the Lithium Market


3. AN OVERVIEW OF LITHIUM RESERVES, RESOURCES & PRODUCTION

Worldwide Reserves and Resources of Lithium
Table 1: Global Lithium Reserves in Thousand Metric Tons by Select Countries for 2017 (includes corresponding Graph/Chart)
Table 2: Identified Lithium Resources in Thousand Tons for Select Countries (As of 2017) (includes corresponding Graph/Chart)
Salt Lake Brine Deposits Vs Hard Rock Mineral Deposits
Brine Deposits
Major Brine Deposits Worldwide
Hard Rock Spodumene Deposits
Major Spodumene Mines Worldwide
Other Types of Mineral Deposits
Lithium Production Scenario
Table 3: Global Lithium Mine Production in Metric Tons by Country for 2016 and 2017 (includes corresponding Graph/Chart)
Table 4: Global Lithium Market by Type of Compound (2017): Percentage Breakdown of Production Volume for Butyl Lithium, Lithium Carbonate, Lithium Chloride, Lithium Concentrate, Lithium Hydroxide, Lithium Metal and Others (includes corresponding Graph/Chart)
Table 5: A Glance at Major Lithium Resource Projects Worldwide
Pros and Cons of Lithium Production from Brine Deposits
China's Lithium Deals Compel Asian Companies to Secure Stable Supplies from South America
China Makes Aggressive Moves to Acquire Lithium Reserves
Anticipated Capacity Additions to Position Argentina and Chile as Leading Lithium Producers
Lithium Pricing: Rising Demand Leads to a Surge in Lithium Prices
Table 6: Spot Prices of Lithium Hydroxide and Lithium Carbonate in China (US$ per Tonne) for the Period Jun 2015 to Dec 2017 (includes corresponding Graph/Chart)


4. A REVIEW OF MAJOR END-USE MARKETS OF LITHIUM

Constantly Evolving Applications of Lithium
Batteries: The Largest End-Use Market for Lithium
Major Applications of Lithium-ion Battery
Table 7: Lithium-ion Battery Density by Chemistry (Wh/kg) (includes corresponding Graph/Chart)
Table 8: Breakdown of Cost for Lithium-ion Materials - Percentage Breakdown of Cost for Anode Materials, Cathode Materials, Depreciation, Electrolytes, Energy Management & Casing, Labor, R&D & Overhead and Separators (includes corresponding Graph/Chart)
Table 9: Global Rechargeable Batteries Market by Battery Chemistry (2018) - Percentage Breakdown of Dollar Sales for Lithium-Ion Batteries, Nickel- Cadmium Batteries, and Nickel-Metal Hydride Batteries (includes corresponding Graph/Chart)
Table 10: Global Lithium-ion Batteries Market (2016 & 2020): Percentage Breakdown of Production Capacity by Country (includes corresponding Graph/Chart)
Investments into Li-Ion Batteries Continues to Increase
Table 11: Investments in Li-ion Battery Production by Company for the Period 2009-2015 (includes corresponding Graph/Chart)
EVs Continue to Provide Growth Opportunities for Lithium Market
Table 12: Global Sales of Electric Vehicles in Thousand Units by Region/Country for the Years 2015, 2017, 2019, 2021 and 2023 (includes corresponding Graph/Chart)
Table 13: EV Sales as % of New Car Sales by Region/Country for the Years 2015, 2020 and 2025 (includes corresponding Graph/Chart)
Table 14: Penetration Rate (%) of BEVs and PHEVs Worldwide for the Years 2016 and 2021 (includes corresponding Graph/Chart)
Sustained Declines in the Cost of Li-ion Battery Drives Growth
Table 15: Battery Production Capacity Projects of Select Companies for the Period 2016-2020 (includes corresponding Graph/Chart)
Table 16: Global Production Capacity (In GWh) of Electric Vehicle-Grade Lithium-ion Battery GWh by Status (includes corresponding Graph/Chart)
Persistent Policy Support for Clean Energy Augurs Well for the Market
Table 17: Electric Vehicles Target Stock (in Million Vehicles) for Select Countries by 2020 (includes corresponding Graph/Chart)
Table 18: Electric Vehicle (EV) Sales Targets of Major Automotive OEMs Worldwide
Targets Promoting EV Sales in Select Countries
E-Bicycles and E-Tricycles: Potential for Li-ion Batteries Market
Table 19: E-Bikes Market in China - Sales in Million Units and Share of Li-ion Batteries in E-Bikes for the Years 2012, 2014, 2016 and 2018 (includes corresponding Graph/Chart)
New Batteries for Transport Sector to Involve Use of Lithium
Table 20: Battery Usage in Transport Sector (2030) - Percentage Market Share Breakdown by Battery Type for Advanced Li-ion Battery, Li-ion Battery, Lithium-Sulfur Battery, and Solid State Battery (includes corresponding Graph/Chart)
Portable Electronics Equipment to Drive Growth in Li-ion Batteries
Table 21: Estimated Lithium Usage in Batteries of Select Portable Electronic Equipment (in Grams LCE per Unit) (includes corresponding Graph/Chart)
Mobile Phones and Smartphones: A Power Packed Opportunity for Li-ion batteries
Table 22: World Market for Smartphones: Shipments in Million Units for the Years 2015, 2017, 2019 and 2021 (includes corresponding Graph/Chart)
Use of Li-ion Batteries in Laptops and Netbooks Drives Lithium Consumption
Table 23: Global Shipments of Desktop PCs, Laptops and Tablets in Million Units for the Years 2015, 2017, 2019 and 2021 (includes corresponding Graph/Chart)
Battery Technologies to Transform Future of Renewable Energy
Decentralized Energy Storage: A Game Changing Grid Storage Technology to Fuel Demand for Lithium
Table 24: Global Energy Storage Market by Technology (2017): Percentage Breakdown of Installed Capacity for Compressed Air Energy Storage (CAES), Flywheel Storage, Lithium-ion Battery, Pumped Hydro Storage and Others (includes corresponding Graph/Chart)
Table 25: Comparison of Battery Cost in US$ per kWh for Select Energy Storage Batteries for the Years 2014 and 2
(includes corresponding Graph/Chart)
Peak Shifting Application Promises High Demand Scenario for Li-ion Batteries
Table 26: Installed Peak Shifting Battery Power in MWh for the Years 2015, 2017, 2019 and 2021 (includes corresponding Graph/Chart)
Lithium-ion Solar Batteries Hold an Edge over Lead Acid Batteries for Residential Solar Customers
Primary Lithium Batteries: Sustained Demand from End-Use Markets Bolsters Li Demand
Table 27: Specific Energy Density (Wh/Kg) of Non-Chargeable (Primary) and Rechargeable (Secondary) Batteries (includes corresponding Graph/Chart)
Primary Lithium Batteries Vs Alkaline and Zinc-Carbon Batteries
Comparison of Characteristics of Primary Lithium Batteries
Traditional Markets for Lithium: A Review
Glass and Ceramics
Greases
Table 28: Global Lithium Demand in Lithium Greases (2018E) - Percentage Breakdown of Lithium Consumption Volume for Automotive and Industrial Sectors (includes corresponding Graph/Chart)
Casting Powders
Table 29: Global Output of Continuously Cast Steel by Region: Production in Million Tonnes and As % of Crude Steel Output for the Years 2014, 2015 & 2016 (includes corresponding Graph/Chart)
Air Treatment
Medical
Table 30: Number of People Suffering from Depressive Disorders (In Millions) Worldwide for the Year 2
(includes corresponding Graph/Chart)
Table 31: Global Prevalence of Depressive Disorders for 2015 - Percentage of Male and Female Population Suffering from Depressive Disorders by Region (includes corresponding Graph/Chart)
Table 32: Prevalence of Depressive Disorders - Percentage of Population Suffering from Depressive Disorders by Age Group and Gender (includes corresponding Graph/Chart)
Polymers
Table 33: Global Lithium Demand in Polymers (2018E): Percentage Breakdown of Lithium Consumption by Segment - Catalyst for Rubber Tires and Others (includes corresponding Graph/Chart)
Aluminum Smelting & Aluminum Alloys
Other Applications
Positive Global Economy Buoys Lithium Consumption in Traditional End-Use Markets
Table 34: World Real GDP Growth Rates in % by Country/Region for the Period 2016-2019 (includes corresponding Graph/Chart)


5. PRODUCT OVERVIEW

Product Definition
Product History
Substitutes
Lithium Products
A Glance at Major Lithium Compounds
End-Uses of Lithium
Batteries
Glass and Ceramics
Greases
Air Treatment & Pharmaceutical
Metallurgical Powders
Other End-Use Markets


6. COMPETITIVE LANDSCAPE

An Intensely Competitive Marketplace
Table 35: Leading Producers of Lithium Worldwide (2018E): Percentage Breakdown of Production Volume for Albemarle, Chinese Companies (excluding Talison), FMC, Orocobre, SQM, Talison Lithium and Others (includes corresponding Graph/Chart)
Table 36: Annual Production of Lithium in Tonnes LCE for Albemarle, SQM, FMC Corp. and Tianqi Lithium Industries for 2016 (includes corresponding Graph/Chart)
Lithium Players Focus on Capacity Expansions
6.1 Focus on Select Players
Albemarle Corporation (USA)
Altura Mining Ltd. (Australia)
FMC Lithium (USA)
Galaxy Resources Limited (Australia)
Jiangxi Ganfeng Lithium Co., Ltd. (China)
Lithium Americas Corporation (USA)
Millennial Lithium Corp. (Canada)
Nemaska Lithium, Inc. (Canada)
Neometals Ltd. (Australia)
Orocobre Limited (Australia)
Pilbara Minerals Ltd. (Australia)
Sichuan Tianqi Lithium Industries (China)
Sociedad Química y Minera de Chile S.A (Chile)
6.2 Recent Industry Activity
Nemaska Lithium and Northvolt Enter into Supply Agreement for Lithium Hydroxide
SoftBank Announces Investment in Nemaska Lithium
Prospect Resources and Sinomine Resources Exploration to Develop Arcadia Lithium Project in Zimbabwe
Desert Lion Energy Inks Transfer Agreements for Acquisition of Lithium Mine Licenses
Toyota Tsusho to Take Over Stake in Orocobre
FMC Revises Operating Agreements in Argentina
Lithium Australia Gains Exploration License in Germany's Lithium Tungsten Region
Bacanora Minerals Wins Exploration Licence for Falkenhain Lithium Deposit in Germany
Bolivian Government Selects ACI Systems for Industrialization of Bolivian Lithium
Albemarle Receives CORFO Approval to Increase Lithium Quota in Chile
POSCO Inks Long-term Agreement for Lithium Supply from Pilbara
Lithium Chile Discovers Brine Target Areas at Atacama and Ollague Lithium Projects
SQM Australia to Acquire 50% Assets of Mount Holland Lithium Project
Voltaic Minerals Terminates Agreement with Lithium Selective Technologies
Nextview to Take Over Lithium X Energy
Iconic Minerals Inks Exclusive Licensing Agreement with St- Georges Platinum and Base Metals
Albemarle Develops Novel Technology to Expand Lithium Production in Chile
SQM and Kidman Resources to Jointly Develop Mt. Holland Lithium Project
Ultra Lithium to Take Over La Borita Brine Lithium Property in Argentina
FMC Makes Payment to Nemaska as Per Lithium Carbonate Supply Deal
AMG Signs Multi-Year Contract for Lithium Concentrate Supply
Savannah Resources Acquires Lithium Prospects in Portugal
SolarWorld to Sell Share in German Lithium Mining Operations to Bacanora to Form JV


7. GLOBAL MARKET PERSPECTIVE

Table 37: World Recent Past, Current & Future Analysis for Lithium by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 38: World Historic Review for Lithium by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 39: World 14-Year Perspective for Lithium by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
Lithium Market by End-Use Segment
Table 40: World Recent Past, Current & Future Analysis for Lithium in Glass & Ceramics by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 41: World Historic Review for Lithium in Glass & Ceramics by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 42: World 14-Year Perspective for Lithium in Glass & Ceramics by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
Table 43: World Recent Past, Current & Future Analysis for Lithium in Air Treatment & Pharmaceuticals by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 44: World Historic Review for Lithium in Air Treatment & Pharmaceuticals by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 45: World 14-Year Perspective for Lithium in Air Treatment & Pharmaceuticals by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2
(includes corresponding Graph/Chart)
Table 46: World Recent Past, Current & Future Analysis for Lithium in Metallurgical Powders by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2024 (includes corresponding Graph/Chart)
Table 47: World Historic Review for Lithium in Metallurgical Powders by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 48: World 14-Year Perspective for Lithium in Metallurgical Powders by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2
(includes corresponding Graph/Chart)
Table 49: World Recent Past, Current & Future Analysis for Lithium in Greases by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 50: World Historic Review for Lithium in Greases by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 51: World 14-Year Perspective for Lithium in Greases by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
Table 52: World Recent Past, Current & Future Analysis for Lithium in Batteries by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 53: World Historic Review for Lithium in Batteries by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 54: World 14-Year Perspective for Lithium in Batteries by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
Table 55: World Recent Past, Current & Future Analysis for Lithium in Others by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 56: World Historic Review for Lithium in Others by Geographic Region - US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 57: World 14-Year Perspective for Lithium in Others by Geographic Region - Percentage Breakdown of Volume Consumption for US, Canada, Japan, Europe, China, Asia-Pacific (excluding Japan & China), Middle East & Africa and Latin America Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)


8. REGIONAL MARKET PERSPECTIVE


8.1 The United States
A.Market Analysis
Current and Future Analysis
Market Overview
Table 58: US Exports and Imports of Lithium in Metric Tons for the Years 2013 through 2017 (includes corresponding Graph/Chart)
Table 59: US Imports of Lithium (2013-2016): Percentage Breakdown of Import Volume by Country of Origin (includes corresponding Graph/Chart)
B.Market Analytics
Table 60: US Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 61: US Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 62: US 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.2 Canada
Market Analysis
Table 63: Canadian Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 64: Canadian Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 65: Canadian 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.3 Japan
A.Market Analysis
Current and Future Analysis
Increasing Li-ion Battery Manufacturing Activity Spurs Demand for Lithium Supplies
Table 66: Sales (in Billions) of Rechargeable Li-ion Batteries in Japan for the Years 2010, 2012, 2014 and 2
(includes corresponding Graph/Chart)
Table 67: Batteries Production in Japan (2016E): Percentage Breakdown of Volume Production by Battery Type (includes corresponding Graph/Chart)
B.Market Analytics
Table 68: Japanese Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 69: Japanese Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 70: Japanese 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4 Europe
A.Market Analysis
Current and Future Analysis
Surging Demand for Lithium Revives Interest in European Mines
Funding Support from EC for Scale Up of Lithium Batteries Manufacture in Europe
B.Market Analytics
Table 71: European Recent Past, Current & Future Analysis for Lithium by Geographic Region - France, Germany, Italy, UK, Spain, Russia, and Rest of Europe Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 72: European Historic Review for Lithium by Geographic Region - France, Germany, Italy, UK, Spain, Russia, and Rest of Europe Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 73: European 14-Year Perspective for Lithium by Geographic Region - Percentage Breakdown of Volume Consumption for France, Germany, Italy, UK, Spain, Russia, and Rest of Europe Markets for Years 2011, 2018 & 2
(includes corresponding Graph/Chart)
Table 74: European Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 75: European Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 76: European 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.1 France
Market Analysis
Table 77: French Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 78: French Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 79: French 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.2 Germany
A.Market Analysis
Current and Future Analysis
Market Overview
B.Market Analytics
Table 80: German Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 81: German Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 82: German 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.3 Italy
Market Analysis
Table 83: Italian Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 84: Italian Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 85: Italian 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.4 The United Kingdom
Market Analysis
Table 86: UK Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includescorresponding Graph/Chart)
Table 87: UK Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 88: UK 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.5 Spain
Market Analysis
Table 89: Spanish Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 90: Spanish Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 91: Spanish 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.6 Russia
Market Analysis
Table 92: Russian Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 93: Russian Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 94: Russian 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.4.7 Rest of Europe
A.Market Analysis
Current and Future Analysis
Focus on Select Regional Markets
Czech Republic
Finland
B.Market Analytics
Table 95: Rest of Europe Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2
(includes corresponding Graph/Chart)
Table 96: Rest of Europe Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 97: Rest of Europe 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.5 China
A.Market Analysis
Current and Future Analysis
China - A Major Consumer and Supplier of Lithium
Table 98: Mine Nameplate Capacity in LCE for Select Companies in China for 2017 (includes corresponding Graph/Chart)
High Growth Potential of Li-ion Battery Industry Augurs Well for Lithium Market
Repurposing of Li-ion Batteries: A New Life for Old Batteries with Useful Capacity
China Makes Aggressive Moves to Acquire Lithium Reserves
China's Lithium Deals Compel Asian Companies to Secure Stable Supplies from South America
B.Market Analytics
Table 99: Chinese Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 100: Chinese Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2015 (includes corresponding Graph/Chart)
Table 101: Chinese 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.6 Asia-Pacific (excluding China)
Market Analysis
Table 102: Asia-Pacific (excluding China) Recent Past, Current & Future Analysis for Lithium by Geographic Region - South Korea and Rest of Asia-Pacific Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 103: Asia-Pacific (excluding China) Historic Review for Lithium by Geographic Region - South Korea and Rest of Asia-Pacific Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 104: Asia-Pacific (excluding China) 14-Year Perspective for Lithium by Geographic Region - Percentage Breakdown of Volume Consumption for South Korea and Rest of Asia-Pacific Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
Table 105: Asia-Pacific (excluding China) Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2024 (includes corresponding Graph/Chart)
Table 106: Asia-Pacific (excluding China) Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 107: Asia-Pacific (excluding China) 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2
(includes corresponding Graph/Chart)
8.6.1 South Korea
A.Market Analysis
Current and Future Analysis
Market Overview
B.Market Analytics
Table 108: South Korea Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2
(includes corresponding Graph/Chart)
Table 109: South Korea Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 110: South Korea 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.6.2 Rest of Asia-Pacific
A.Market Analysis
Current and Future Analysis
Australia
The Leading Lithium Producer
Australia Benefiting from the China's Escalating Demand for Lithium
India
India's All Electric Vehicles Target by 2030 to Spur Demand for Lithium Used in Li-ion Batteries
Rising Demand for Energy Storage Systems for Renewable Energy Sector
B.Market Analytics
Table 111: Rest of Asia-Pacific (excluding China) Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2
through 2024 (includes corresponding Graph/Chart)
Table 112: Rest of Asia-Pacific (excluding China) Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2
(includes corresponding Graph/Chart)
Table 113: Rest of Asia-Pacific (excluding China) 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2
(includes corresponding Graph/Chart)
8.7 Middle East & Africa
Market Analysis
Table 114: Middle East & Africa Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2024 (includes corresponding Graph/Chart)
Table 115: Middle East & Africa Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 116: Middle East & Africa 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 2018 & 2024 (includes corresponding Graph/Chart)
8.8 Latin America
A.Market Analysis
Current and Future Analysis
Latin America - A Major Source of Lithium
Focus on Select Regional Markets
Argentina
Bolivia
Chile
B.Market Analytics
Table 117: Latin American Recent Past, Current & Future Analysis for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2016 through 2
(includes corresponding Graph/Chart)
Table 118: Latin American Historic Review for Lithium by End-Use Segment - Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets Independently Analyzed with Annual Consumption Figures in Lithium Carbonate Equivalent (Metric Tons) for Years 2011 through 2015 (includes corresponding Graph/Chart)
Table 119: Latin American 14-Year Perspective for Lithium by End-Use Segment - Percentage Breakdown of Volume Consumption for Glass & Ceramics, Air Treatment & Pharmaceuticals, Metallurgical Powders, Greases, Batteries and Others Markets for Years 2011, 018 & 2024 (includes corresponding Graph/Chart)


9. COMPANY PROFILES

Total Companies Profiled: 39 (including Divisions/Subsidiaries - 39) The United States (3) Canada (12) Europe (6) - France (1) - The United Kingdom (2) - Rest of Europe (3) Asia-Pacific (Excluding Japan) (16) Latin America (1) Africa (1)
Read the full report: https://www.reportlinker.com/p05478488/?utm_source=PRN

About Reportlinker
ReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.

__________________________
Contact Clare: This email address is being protected from spambots. You need JavaScript enabled to view it.
US: (339)-368-6001
Intl: +1 339-368-6001

SOURCE Reportlinker

Related Links

http://www.reportlinker.com

Read more: Global Lithium Industry

DUBLIN--(BUSINESS WIRE)--The "Concentrated Solar Power (CSP) Market, Update 2019 - Global Market Size, Market Segmentation, Competitive Landscape and Key Country Analysis to 2030" report has been added to ResearchAndMarkets.com's offering.

Global Concentrated Solar Power (CSP) capacity is estimated to increase significantly from 5.6 gigawatt (GW) in 2018 to 22.4 GW in 2030 following significant capacity additions by China, Chile and countries in Middle East North Africa (MENA) region. The prospects of the global Concentrated Solar Power (CSP) market are bright with improved efficiencies, energy storage, cost reduction through competitive bidding and the development of PV-CSP hybrid systems.

The Concentrated Solar Power (CSP) industry added around 601 megawatt (MW) annual capacity in 2018 with projects being operational in countries such as Morocco, China, South Africa, Saudi Arabia and Kuwait. China added around 200 MW of Concentrated Solar Power (CSP) capacities in 2018 which is almost seven times its cumulative installed capacity at the end of 2017. China Concentrated Solar Power (CSP) market gained momentum after the announcement of 20 Concentrated Solar Power (CSP) projects as part of the first batch of demonstration projects, which will get a feed in tariff (FIT) of RMB1.15/kWh ($0.172/kWh).

Chile will be another major country, which will have significant Concentrated Solar Power (CSP) capacity additions during the outlook period. The Concentrated Solar Power (CSP) market in Chile is mainly driven by its goal to achieve 20% renewable of the national energy mix by 2025. In order to achieve its goal, the country held a series of technology neutral auctions through which the average tariff plummeted from $129/MWh in 2013 to $32.5/MWh in 2017.

In Middle East Africa (MEA), countries such as Morocco, South Africa, Saudi Arabia, the UAE and Israel will play a major role for Concentrated Solar Power (CSP) development during 2019-2030. Morocco had set a plan to source 2 GW from solar power by 2020. The country plans to set up and implement sustainable Concentrated Solar Power (CSP) plants to cover 42% of Morocco's power needs by 2020. On the other hand, the UAE is promoting solar through auction mechanism. In July 2017, Dubai Electricity and Water Authority (DEWA) received four bids for the fourth phase of the 200 MW Mohammed bin Rashid Al Maktoum solar project.

The global CSP market is on a revival mode with reducing cost of generation through auction mechanism and hybrid PV-CSP. CSP with thermal storage will gain prominence due to increasing demand for reliable and stable power.

Scope

  • Market study at global level and for five key countries such as US, Spain, India, Morocco and South Africa.
  • Coverage of the key growth drivers and challenges related to each country's CSP market, analysis on project status and competitive environment.
  • Historic (2010-2018) and forecast data (2019-2030) for cumulative and annual installed CSP capacity
  • Average capital cost and market size for the 2010-2018 period, and forecast for the 2019-2030 period.
  • Segmentation on cumulative installed capacity based on region / state and technology type such as compact linear Fresnel, power tower, parabolic trough and parabolic dish reflector.
  • Upcoming CSP countries such as China, Israel, Chile, United Arab Emirates (UAE) and Saudi Arabia are covered in the report.
  • A brief overview, installed capacity and generation trends, key drivers, restraints and challenges and information on policy support for CSP is covered for upcoming countries.
  • The report also provides a brief snapshot on the status of CSP market in countries such as Australia, Italy, Egypt, Algeria, Turkey, Mexico, Greece, Germany, France, Iran, Thailand, Portugal and Brazil.

Reasons to Buy

  • Facilitate decision-making by providing historical and forecast data in the CSP sector
  • Develop business strategies by understanding the trends shaping and driving the CSP market
  • Position yourself to gain the maximum advantage of the industry's growth potential
  • Maximize potential in the growth of the CSP market
  • Identify key partners and business-development avenues
  • Respond to business structure, strategy and prospects

Companies Mentioned

  • Atlantica Yield
  • NextEra Energy
  • NRG Energy
  • Alphabet
  • BrightSource
  • Terra-Gen
  • Florida Power & Light Co.
  • Acciona Energia
  • Abengoa Solar
  • SENER Group
  • Tonopah Solar
  • Reliance Power Ltd.
  • Godavari Green Energy Ltd.
  • FG Emvelo
  • ACWA Power
  • Solafrica Thermal Energy

Key Topics Covered

1 Table of Contents

2 Executive Summary

2.1 Global Installed Capacity for Concentrated Solar Power (CSP) to Reach 22.3 GW by 2030

2.2 Parabolic Trough is the Widely Deployed CSP Technology

2.3 CSP Installation Costs Fell 38% in 2018

2.4 Global Market Size of CSP to reach $10.8 billion by 2030

3 Introduction

3.1 Concentrated Solar Power (CSP), Technology Definition

3.2 Types of CSP Technology

3.3 GlobalData Report Guidance

4 CSP Market, Global

4.1 CSP Market, Global, Overview

4.2 CSP Market, Global, Installed Capacity, 2010-2030

4.3 CSP Market, Global, Power Generation, 2010-2030

4.4 CSP Market, Global, Project Based Analysis, 2018

4.5 CSP Market, Global, Average Cost and Market Size, 2010-2030

4.6 CSP Market, Global, Regional and Country Analysis

5 CSP Market, US

6 CSP Market, Spain

7 CSP Market, India

8 CSP Market, Morocco

9 CSP Market, South Africa

10 CSP Market, Upcoming Markets

11 CSP Market, Other Countries

For more information about this report visit https://www.researchandmarkets.com/r/4iv1gf

Read more: Global Concentrated Solar Power (CSP) Market...

REDWOOD CITY, Calif.--(BUSINESS WIRE)--NSG Group (Nippon Sheet Glass, Co. Ltd. ), one of the world’s largest manufacturers of glass and glazing products for the architectural, automotive and technical glass sectors, has announced a joint development agreement between its subsidiary and Ubiquitous Energy, a leader in transparent solar technology. The ongoing joint development work targets the development, manufacture, and integration of Ubiquitous Energy’s ClearView Power™ technology into architectural window glass that has the potential to produce solar electricity for buildings. NSG’s participation includes ongoing research and development (R&D) and technical support.

Ubiquitous Energy’s transparent solar coating, ClearView Power™, selectively absorbs and converts non-visible light (ultraviolet and infrared) to electricity while transmitting visible light. This makes ClearView Power technology the only truly transparent solar product, allowing any surface to convert ambient light into useful electricity without impacting the way it looks. The transparent solar coating can be applied directly to architectural windows during the standard glass manufacturing process, allowing buildings to generate their own onsite renewable energy as part of the building integrated photovoltaic (BIPV) market. Additionally, ClearView Power™ blocks infrared solar heat, improving the energy efficiency of buildings, which in combination with energy generation can lead to zero net energy buildings and beyond.

“Having worked with Ubiquitous Energy for some time now, we have been impressed with ClearView Power’s differentiation amongst BIPV products and in particular its proven ability to meet the aesthetic demands of mass market glazing products that are acceptable to architects, designers, and occupants,” said Stephen Weidner, NSG Vice President Sales and Marketing Architectural and Technical Glass Products. “We have witnessed first-hand the company’s steady progress towards commercialization and we look forward to working together closely with Ubiquitous to bring this technology to the market.”

“As we continue to build our ecosystem of partnerships across the glass industry, we are thrilled to work with NSG to help bring ClearView Power™ to market as part of the more than nine billion square meters per year of annual global glass production,” said Ubiquitous Energy CEO Keith Wilson. “NSG brings a wealth of unique knowledge to our development efforts as a global leader in advanced architectural window glass products that also has experience bringing BIPV products to market. We have hit a number of key milestones together over the past year and are excited to publicly announce this partnership.”

About NSG Group

NSG Group (Nippon Sheet Glass, Co., Ltd.) is one of the world’s largest manufacturers of glass and glazing products for the architectural, automotive industry and technical glass sectors. With around 27,000 employees, NSG Group has principal operations worldwide and sales in over 100 countries. Founded in 1918, the company was transformed in 2006 with the acquisition of Pilkington plc, itself a global leader in the glass industry and the inventor of the Float Glass process. The Pilkington name was retained as a brand for the Group’s architectural and automotive products. For more information, visit www.nsg.com.

About Ubiquitous Energy

Ubiquitous Energy is the world leader in transparent photovoltaics. Its award-winning ClearView Power™ technology is the first truly transparent solar product. ClearView Power™ harvests solar energy and serves as an invisible, onboard source of electricity for a variety of end products. The thin coating can be applied to the surface of window glass to provide electricity generation and energy efficiency. Originally spun out of MIT, Ubiquitous Energy is now producing its highly transparent, efficient solar cells in its pilot production facility in Silicon Valley. For more information, visit www.ubiquitous.energy.

Read more: NSG Group and Ubiquitous Energy to Jointly...

 

• GE will provide its record-setting HA gas turbine, the company’s most advanced and efficient technology, for the project in Michigan;
• Indeck Niles will be one of the most efficient energy centers of its kind in Michigan providing superior efficiency and environmental compliance;
• GE has secured 30+ orders for the HA in North America alone and 85+ orders globally and the HA recently surpassed 300,000 operating hours from 30+ commercially operating units.

GE will work through a contract with Kiewit Power Constructors (Kiewit), the engineering, construction and procurement (EPC) contractor on the project, to integrate two of GE’s 7HA.02 gas turbines into the approximately 1,000-megawatt power plant project. Indeck Niles which will become one of the most efficient energy centers of its kind in Michigan will be able to provide the equivalent electricity needed by 635,000 homes and businesses.

The developer of the project is Indeck Energy Services, Inc. The plant is owned 50 percent by Korea Southern Power Co. Ltd., 30 percent by Daelim Energy Co. Ltd. and 20 percent by Indeck Energy Services, Inc. and is scheduled to be completed in 2022. The construction of the plant is expected to create 500 union construction jobs and 21 full-time jobs for ongoing plant operations. The order also contains a GE steam turbine and generator, two heat recovery generators (HRSG), and a multi-year services agreement.

“We are very proud that the Indeck Niles Energy Center will not only be one of the most efficient energy centers of its kind in Michigan by using GE’s latest gas generation technology, but will also be a significant investment spurring the creation of jobs, tax revenue, and economic redevelopment for the City of Niles,” said Gerald R. Forsythe, Chairman and CEO of Indeck Energy Services, Inc.

“We are honored to be selected for this project and to bring our record-setting HA technology to this state-of-the-art facility,” said Dave Ross, President of Sales, North America for GE Power. “With the winning combination of GE’s latest technology and Kiewit’s construction expertise, the Indeck Niles Energy Center will be able to quickly produce flexible, reliable, and affordable electricity for years to come.”

GE’s HA fleet of gas turbines has surpassed more than 300,000 operating hours and has secured more than 85 orders from 35+ customers across more than 16 countries. The HA turbine has been recognized for powering the world’s most efficient power plants in both the 50hz and 60hz energy segments. GE also recently announced orders for the 7HA.02 gas turbine in the United States at Long Ridge Energy Center in Ohio and the Hill Top Energy Center in Pennsylvania.

About Kiewit
Kiewit is one of North America’s largest and most respected construction and engineering organizations. With its roots dating back to 1884, the employee-owned organization operates through a network of subsidiaries in the United States, Canada, and Mexico. Kiewit offers construction and engineering services in a variety of markets including transportation; oil, gas and chemical; power; building; water/wastewater; industrial; and mining. Kiewit had 2018 revenues of $9 billion and employs 20,000 staff and craft employees.

About Korea Southern Power Co., Ltd
KOSPO is one of generation companies in South Korea, which has domestic generation capacity of 11,264 MW (coal, LNG and renewable) and overseas capacity of 979MW (Chile 517MW CCPP, Jordan 373MW CCPP and wind & Photovoltaic power). KOSPO has the largest Combined cycle capacity among all generation companies in South Korea and the revenues based on 2018 is $5 billion with 2,300 staff. KOSPO firstly enters PJM Market among Korean Public corporations as the expertise with various experience of both construction and operation of combined cycle and continuously enhances to establish its position as a leader in electricity generation industry.

About Daelim Energy
DAELIM Energy (daelimenergy.com) is founded to be a global provider in the energy and infrastructure sectors with a particular focus on power and resources. Since it began operations in December 2013, DAELIM Energy intends to cover the full energy value chain of investment, development, financing, EPCM and O&M through its EPC track records, in-house O&M/procurement capabilities and relationship with major developers and financial institutions. DAELIM Energy is diversifying its portfolio from conventional power plants to renewables such as PV Solar, Wind and Biomass across the globe. In total, Daelim Energy has a capacity of 5,360MW, and will continue to take initiatives to expand its global presence.

About Indeck Energy Services, Inc.
Indeck Energy (IndeckEnergy.com) was established in 1985 as a developer, owner and operator of electricity and steam generation plants and is one of the leading developers and IPP's in North America. Indeck owns, has owned or developed over 4,000 MW of electric generation assets of which Indeck currently owns and operates six energy facilities. Indeck has closed numerous successful financings for energy generation plants In the United States and abroad totaling more than $2 billion. The Indeck development team has over 100 years of combined experience in the power generation industry, across operations, engineering, construction, development and financing.

About GE Power
GE Power (ge.com/power) is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. Through relentless innovation and continuous partnership with our customers, we are developing the energy technologies of the future and improving the power networks we depend on today.

Read more: GE’s HA Gas Turbine to Power Indeck Niles Energy...

PLAINFIELD, Ind., May 20, 2019 /PRNewswire/ -- Duke Energy is warning its customers in Indiana to be on guard against phone calls from utility scammers who are demanding that customers pay their electric bill immediately or risk having their electric service disconnected within the hour.

Local law enforcement officials say the number of scam calls reported by citizens has increased in the past few days.

"These scammers are thieves who prey on unsuspecting customers with the sole purpose of stealing their money," said Marvin Blade, Indiana vice president of community relations for Duke Energy. "The scammers typically target elderly residents or small family-owned businesses, including restaurants, repair shops or other retail businesses."

The best way to defend yourself against these scammers is to recognize how the scam works and understand that Duke Energy never asks customers for prepaid debit cards.

Typically, the customer receives an unsolicited phone call from an individual who falsely claims to be a Duke Energy representative demanding immediate payment, usually in the form of a prepaid debit card. Scammers have even duplicated the Duke Energy upfront Interactive Voice Response system, so when customers call back phone numbers provided by the scammer, it sounds like a legitimate Duke Energy phone number. Some of these criminals also use caller-ID spoofing to replicate Duke Energy's customer service number.

Red flags for scam activity

  • The caller becomes angry and tells the customer his or her account is past due and service will be disconnected if a large payment isn't made – usually within the hour.
  • The caller instructs the customer to purchase a pre-paid debit or credit card – widely available at retail stores – then call him or her back to supposedly make a payment to Duke Energy.
  • The scammer asks the customer for the prepaid card's receipt number and PIN number, which grants instant access to the card's funds.
  • The customer has received no other notice from Duke Energy that an account is overdue.

How to protect yourself

  • Duke Energy never asks or requires a customer with a delinquent account to purchase a prepaid debit card – or iTunes card -- to avoid disconnection.
  • Customers can make payments online, by phone, automatic bank draft, mail or in person at any number of retail outlets.
  • Customers with delinquent accounts receive advance disconnection notification with the regular monthly billing – never a single notification one hour before disconnection.
  • Customers who suspect or experience fraud, or feel threatened during contact with one of these thieves, should contact local law enforcement authorities and then the Duke Energy Indiana phone number listed on their bill (800.521.2232). Never dial the phone number the scammers provide.

Customers can get more scam and fraud prevention information at our "Report Fraud and Scams" web page.

Duke Energy Indiana

Duke Energy Indiana, a subsidiary of Duke Energy, provides about 6,600 megawatts of owned electric capacity to approximately 840,000 customers in a 23,000-square-mile service area, making it Indiana's largest electric supplier.

Duke Energy (NYSE: DUK), a Fortune 150 company headquartered in Charlotte, N.C., is one of the largest energy holding companies in the U.S. It employs 30,000 people and has an electric generating capacity of 51,000 megawatts through its regulated utilities, and 3,000 megawatts through its nonregulated Duke Energy Renewables unit.

Duke Energy is transforming its customers' experience, modernizing the energy grid, generating cleaner energy and expanding natural gas infrastructure to create a smarter energy future for the people and communities it serves. The Electric Utilities and Infrastructure unit's regulated utilities serve approximately 7.7 million retail electric customers in six states – North Carolina, South Carolina, Florida, Indiana, Ohio and Kentucky. The Gas Utilities and Infrastructure unit distributes natural gas to more than 1.6 million customers in five states – North Carolina, South Carolina, Tennessee, Ohio and Kentucky. The Duke Energy Renewables unit operates wind and solar generation facilities across the U.S., as well as energy storage and microgrid projects.

Duke Energy was named to Fortune's 2019 "World's Most Admired Companies" list, and Forbes' 2019 "America's Best Employers" list. More information about the company is available at duke-energy.com. The Duke Energy News Center contains news releases, fact sheets, photos, videos and other materials. Duke Energy's illumination features stories about people, innovations, community topics and environmental issues. Follow Duke Energy on Twitter, LinkedIn, Instagram and Facebook.    

Contact: Lew Middleton 
Office: 317.838.1505 | 24-Hour: 800.559.3853

SOURCE Duke Energy

Related Links

http://www.duke-energy.com

Read more: Duke Energy cautions customers in Indiana to...

DUBLIN, May 20, 2019 /PRNewswire/ -- The "Global and China ITO Targets Industry Chain Report, 2019-2025" report has been added to ResearchAndMarkets.com's offering.

Featured by good electrical conductivity and transparency, ITO targets are widely applied to fields of LCD, flat-panel display, plasma display, touch screen, electronic paper, OLED, solar cell, antistatic coating film, and transparent EMI shielding conductive film.

Global ITO technology is primarily monopolized by few enterprises including JX Nippon Mining & Metals, Mitsui Mining, Tosoh, Samsung and Heraeus. Of which, the former three totally occupy about 65% of global ITO market.

There are over 20 ITO targets enterprises in China. After more than decade's research, Chinese enterprises made a breakthrough in targets technology and gradually shortened gap with Japanese and Korean counterparts. Currently, with gradual expansion in medium and low-end market (like touch screen market), domestic ITO targets begin to enter high-end TEF industry for testing. However, it is still a challenge to realize domestication due to low product level, high cost control pressure and low profit margin.

Compared to supply end, demand of ITO targets from downstream market is strong, especially driven by the development of OLED and touch screen, the figure exceeded 1kt in 2018. While half of them were imported and mainly applied to the production of high-end products.

In recent ten years, with the development of LCD industry and emerging of touch input electronic products like PDA and e-book, especially the development of OLED and other display devices, ITO targets manufacturing technique and equipment are required to meet new and higher requirements. For instance, demand of ITO targets for high-end TFT-LCD display panels will further increase. In Jun. 2018, Vital Materials Co., Ltd. successfully rolled out self-developed G11 ITO rotating targets.

As of industry chain, indium serves as the main raw material of ITO targets, 80% of it is used to manufacture ITO targets, and reserves of indium resource in China share 50% of the global total. Based on the demand of ITO targets (as the main downstream industry of indium), it could be estimated that total annual demand of ITO targets in Mainland China and Taiwan is 600t, taking up 52% of annual ITO usage in the world, while annual demand of ITO targets in Korea and Japan is 570t, occupying 48% of world's total.

In recent years, indium supply and demand in China is basically balanced. In 2018, consumption of defined indium (including targets) in China reached about 150 tons. Zhuzhou Smelter Group Co., Ltd. is the largest indium manufacturer in China. In the future, demand of indium will grow at a rate of about 5% due to the emerging of 5G, smart manufacturing, digital economy industries and new technology revolutions.

Global and China ITO Targets Industry Chain Report 2019-2025 focuses on the following:

  • Global ITO targets market supply & demand and competition;
  • Technical status, market supply & demand, competitive landscape, key projects, substitute products and development trend of ITO targets industry in China;
  • Global and Chinese indium market supply & demand, import & export, and price;
  • Global and Chinese tin market supply & demand, import & export, and price;
  • ITO targets downstream industries (LCD, touch panel, solar cell, LED/OLED) status and demand;
  • 8 global and 15 Chinese ITO targets enterprises, including operation status, ITO targets business and development strategy.

Key Topics Covered:

1 Brief Introduction to ITO Targets
1.1 Concept
1.2 Preparation Method
1.3 Industry Chain

2 Status Quo of Global ITO Targets
2.1 Supply and Demand
2.2 Competition Pattern
2.2.1 Production Pattern
2.2.2 Consumption Pattern

3. Status Quo of Chinese ITO Targets
3.1 Overview
3.2 Technology
3.3 Supply and Demand
3.3.1 Supply
3.3.2 Demand
3.4 Key Projects
3.5 Alternative Products
3.5.1 Metal Mesh
3.5.2 Silver Nanowire
3.5.3 Graphene
3.6 Development Trend

4 Upstream - Indium Market
4.1 Introduction
4.2 Reserves and Distribution
4.3 Supply and Demand
4.3.1 Supply
4.3.2 Consumption
4.4 Import and Export
4.4.1 Related Policies
4.4.2 Import and Export Volume
4.5 Price Trend

5 Upstream - Tin Market
5.1 Introduction
5.2 Reserves and Distribution
5.3 Supply and Demand
5.3.1 Global
5.3.2 China
5.4 Import and Export
5.5 Price Trend
5.6 Key Enterprises

6 Downstream Applications
6.1 Overview
6.2 LCD Panel
6.2.1 Market Situation
6.2.2 ITO Targets for LCD Panel
6.3 Touch Panel
6.3.1 Market Situation
6.3.2 ITO Targets for Touch Panel
6.4 Others
6.4.1 Solar Cell
6.4.2 LED
6.4.3 OLED

7 Key Companies Worldwide
7.1 Mitsui Mining & Smelting Co., Ltd.
7.1.1 Profile
7.1.2 Operation
7.1.3 ITO Targets Business
7.1.4 Development in China
7.2 JX Nippon Mining &Metals
7.2.1 Profile
7.2.2 Operation
7.2.3 ITO Targets Business
7.2.4 Development in China
7.3 Tosoh Corporation
7.3.1 Profile
7.3.2 Operation
7.3.3 ITO Targets Business
7.3.4 Development in China
7.4 Samsung Corning
7.4.1 Profile
7.4.2 Operation
7.4.3 ITO Targets Business
7.5 Heraeus
7.5.1 Profile
7.5.2 Operation
7.5.3 ITO Targets Business
7.5.4 Development in China
7.6 Umicore
7.6.1 Profile
7.6.2 Operation
7.6.3 ITO Targets Business
7.6.4 Development in China
7.7 ULVAC
7.7.1 Profile
7.7.2 Operation
7.7.3 ITO Targets Business
7.8 Solar Applied Materials Technology Corporation (SOLAR)
7.8.1 Profile
7.8.2 Operation
7.8.3 ITO Targets Business

8. Key Enterprises in China
8.1 Zhuzhou Smelter Group Co., Ltd.
8.1.1 Profile
8.1.2 Operation
8.1.3 ITO Targets Business
8.1.4 Development Strategy
8.2 Guangxi China Tin Group Co., Ltd.
8.2.1 Profile
8.2.2 Operation
8.2.3 ITO Targets Business
8.3 CNMC (Ningxia) Orient Group Co., Ltd.
8.3.1 Profile
8.3.2 Operation
8.3.3 ITO Targets Business
8.4 Guangxi Crystal Union Photoelectric Materials Co., Ltd.
8.4.1 Profile
8.4.2 Operation
8.4.3 ITO Targets Business
8.4.4 Development Strategy
8.5 Beijing Yeke Nano Tech Co., Ltd.
8.5.1 Profile
8.5.2 ITO Targets Business
8.6 Guangdong Triumph Photovoltaic Technology Research Institute Co., Ltd.
8.6.1 Profile
8.6.2 ITO Targets Business
8.7 Shaoguan Sigma Technology Co., Ltd.
8.7.1 Profile
8.7.2 ITO Targets Business
8.8 Hebei Hengbo New Materials Technology Co., Ltd.
8.8.1 Profile
8.8.2 ITO Targets Business
8.9 Changsha ENAM Optoelectronic Material Co., Ltd.
8.9.1 Profile
8.9.2 ITO Targets Business
8.10 Luoyang Ship Material Research Institute
8.10.1 Profile
8.10.2 ITO Targets Business
8.11 Changzhou Sujing Electronic Material Co., Ltd.
8.11.1 Profile
8.11.2 ITO Targets Business
8.12 Omat Group
8.12.1 Profile
8.12.2 ITO Targets Business
8.13 Vital Materials Co., Ltd.
8.13.1 Profile
8.13.2 Operation
8.13.2 ITO Targets Business
8.14 Fujian Acetron New Materials Co., Ltd.
8.14.1 Profile
8.14.2 Operation
8.14.3 ITO Targets Business
8.15 Yunnan Tin Co., Ltd.
8.15.1 Profile
8.15.2 Operation
8.15.3 ITO Targets Business

9 Summary and Forecast
9.1 Market
9.2 Enterprises

For more information about this report visit https://www.researchandmarkets.com/r/tv0j88

Research and Markets also offers Custom Research services providing focused, comprehensive and tailored research.

Media Contact:

Research and Markets
Laura Wood, Senior Manager
This email address is being protected from spambots. You need JavaScript enabled to view it.   

For E.S.T Office Hours Call +1-917-300-0470
For U.S./CAN Toll Free Call +1-800-526-8630
For GMT Office Hours Call +353-1-416-8900

U.S. Fax: 646-607-1907
Fax (outside U.S.): +353-1-481-1716

SOURCE Research and Markets

Related Links

http://www.researchandmarkets.com

Read more: Global and China ITO Targets Industry Chain...

DUBLIN, May 20, 2019 /PRNewswire/ -- The "Fuses and Circuit Breakers - Market Analysis, Trends, and Forecasts" report has been added to ResearchAndMarkets.com's offering.

The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Middle East & Africa, and Latin America. Annual estimates and forecasts are provided for the period 2016 through 2024. Also, a five-year historic analysis is provided for these markets. Market data and analytics are derived from primary and secondary research.

The Global market is analyzed by the following Product Segments:

The report also provides US market analytics for the following End-Use Sectors:

  • Utility
  • Construction
  • Industrial Machinery
  • Electrical & Electronics
  • others

The report profiles 169 companies including many key and niche players such as:

  • ABB
  • Automation Systems Interconnect
  • Bel Fuse Inc.
  • Bentek Corp.
  • Bourns Inc.
  • Carling Technologies, Inc.
  • Eaton Corporation Plc
  • E-T-A Elektrotechnische Apparate GmbH
  • Fuji Electric FA Components & Systems Co., Ltd.
  • General Electric Company
  • Hitachi Industrial Equipment Systems Co., Ltd.
  • Legrand
  • Littelfuse, Inc.
  • Mersen
  • Mitsubishi Electric Corporation
  • Schneider Electric
  • SCHURTER Group
  • Sensata Technologies, Inc.
  • Siemens AG
  • TE Connectivity Corp.
  • Vicor Corporation

Key Topics Covered: 

1. INDUSTRY OVERVIEW
The Indispensability of Power Protection Devices: A Review
Resurgence in Global Economy Extends Optimistic Outlook
Improvement in Global GDP Bodes Well for Market Growth
CIVETS to Replace BRICs as the Focal Point for Future Growth
Competitive Landscape
Assessing the Impact of Recent Past Economic Upheavals on Fuses and Circuit Breakers Market
Growth Momentum Improves in 2015 & Beyond

2. MARKET TRENDS, DRIVERS AND ISSUES
Circuit Breakers Remain the Dominant Segment
Vacuum Circuit Breakers Makes the Cut
Auto-Reclosers Circuit Breakers Gaining Prominence
Sanguine Prospects for Molded Case Circuit Breakers
Low Cost & Simple Design Help Fuses Remain Strong
High-Power Fuses: Poised for Strong Growth
Manufacturers Focus on Incorporating Overcurrent Protection Element in Fuses
Waxing Demand for Switchgears Bodes Well for the Market
Up gradation of Obsolete Systems to Spur Demand for Switchgears
Industry Thrives in Tandem with Growth in OEMs
High Costs Associated with Equipment Downtime Motivates Deployment of Fuses & Circuit Breakers
Rising Power Demand Positively Influences Fuses & Circuit Breakers Market
Spiraling Energy Consumption and Equally Robust Electric Power Production: Business Case for HV Circuit Breakers
Electric Utility Drives Fuse Cutouts Market
Increase in Construction Activity Bodes Well for Market Growth

3. PRODUCT/END-USE MARKET OVERVIEW
Introduction
Choosing Between Fuses and Circuit Breakers
Fuses
Circuit Breakers
Basic Operating Functions
Thermal-Magnetic Breakers
Magnetic Circuit Breakers
Electronic Circuit Breakers
Molded-Case Circuit Breakers
Miniature Circuit Breaker Technology
Ground Fault Circuit Interrupter Circuit Breakers
Explosive Charge Circuit Breakers
Shunt Trip Circuit Breakers
Advanced Signal Processing
End-Use Markets
Construction Industry
Electric Power Generation Industry
Industrial Machinery
Electronics & Electrical Equipment Industry
Automotive/Non-Automotive Transportation Equipment

4. PRODUCT LAUNCHES/INTRODUCTIONS
Littelfuse Unveils New Fuse Blocks and Holders
Bourns Expands Multifuse Line with New High- Temperature PPTC Resettable Fuses
Eaton Unveils Bussmann Series DIN-Rail Fuse Holder
Littelfuse Unveils High Current SMD Single Fuse Solution
Bel Circuit Protection Increases 0ZRE Series Hold Current
Marathon Special Products Introduces FDS Series
Eaton Unveils New Circuit Protection Solution
Bel Fuse Unveils Time-Lag Type Ceramic Body Cartridge Fuse
Bel Fuse Unveils Square Ceramic Surface Mount Quick Acting Fuse Series
Littelfuse Launches High-Speed Fuses for Semiconductor Device Protection
TDK Introduces ThermoFuse Varistors
Eaton Expands Bussmann Series PDFB Portfolio
E-T-A Unveils Combined Switch & Circuit Breaker
Littelfuse Unveils PICO 305 Series Intrinsically Safe Fuse
Siemens Rolls out Fusesaver Medium-Voltage Outdoor Vacuum Circuit Breaker

5. RECENT INDUSTRY ACTIVITY
ABB Takes Over GE Industrial Solutions
Eaton to Provide Circuit Protection for Solar Project in Nicaragua
Bentek Teams Up with Advanced Energy Industries
Panasonic Acquires Majority Stake in VIKO

6. FOCUS ON SELECT PLAYERS

7. GLOBAL MARKET PERSPECTIVE

Total Companies Profiled: 169 (including Divisions/Subsidiaries 249)

  • The United States (44)
  • Japan (11)
  • Europe (91)
    • France (9)
    • Germany (14)
    • The United Kingdom (15)
    • Italy (6)
    • Spain (5)
    • Rest of Europe (42)
  • Asia-Pacific (Excluding Japan) (100)
  • Middle East (1)
  • Latin America (1)
  • Africa (1)

For more information about this report visit https://www.researchandmarkets.com/r/27zjqg

Research and Markets also offers Custom Research services providing focused, comprehensive and tailored research.

Media Contact:

Research and Markets
Laura Wood, Senior Manager
This email address is being protected from spambots. You need JavaScript enabled to view it.

For E.S.T Office Hours Call +1-917-300-0470
For U.S./CAN Toll Free Call +1-800-526-8630
For GMT Office Hours Call +353-1-416-8900

U.S. Fax: 646-607-1907
Fax (outside U.S.): +353-1-481-1716

SOURCE Research and Markets

Related Links

http://www.researchandmarkets.com

Read more: Fuses and Circuit Breakers Report 2019 - Annual...

MINNEAPOLIS--(BUSINESS WIRE)--Xcel Energy announced plans today to retire its last two coal plants in the Upper Midwest a decade earlier than scheduled. The acceleration of the coal closures is another milestone in the company’s clean energy transition that includes expanding wind and solar, using cleaner natural gas and operating its carbon-free Monticello nuclear plant until at least 2040.

The plan outlines a path to make the transition while ensuring reliability and keeping costs low for customers. As part of this plan, the company has reached an agreement with a coalition of environmental and labor organizations on key elements of the plan relating to its coal, solar and natural gas plans.

These plans are part of the proposed Upper Midwest Energy Plan, which the company will submit for approval to the Minnesota Public Utilities Commission in July. If approved, the plan would lead to a more than 80% reduction in carbon emissions in the region by 2030, compared to 2005, a key stepping stone toward the company achieving its vision to provide customers 100% carbon-free electricity by 2050.

Key milestones in the company’s industry-leading clean energy transition include:

  • 2022 – Completion of the company’s largest-ever wind expansion, adding 1,850 megawatts of wind. At that point, more than 30% of customers’ energy in the Upper Midwest will come from wind.
  • 2030 – More than 50% of our customers’ energy in the region will be from renewables, as the transition continues with:
    • Closure in 2030 of our final coal plant in the region, the Sherco 3 plant, following the closure of the Allen S. King coal plant in 2028.
    • A major expansion of solar energy, with more than 3,000 megawatts of new universal solar added by 2030.

“This is a significant step forward as we are on track to reduce carbon emissions more than 80% by 2030 and transform the way we deliver energy to our customers,” said Chris Clark, president, Xcel Energy – Minnesota, North Dakota, South Dakota. “Accelerating the closure of our coal plants and leading this clean energy transition would not be possible without the dedication and support of our key stakeholders. We thank them for their work to put us on a path to deliver 100% carbon-free electricity by 2050.”

Agreement with coalition of groups

While the company prepared its long-term plan, it also worked closely with a coalition of groups*, including environmental and labor organizations on an agreement to close its two remaining coal plants in the region. Additional elements of the agreement include increased commitment to solar energy, energy efficiency, consideration of local job impacts in connection with future renewable additions, and purchasing a natural gas plant, the Mankato Energy Center.

“Clean energy and economic vitality are critically important to our communities and we appreciate the leadership and collaboration from this coaltion of groups in reaching this agreement,” said Clark. “We look forward to continued partnership as this agreement is reviewed by the Minnesota Public Utilities Commission.”

Commitment to communities, customers and employees

Xcel Energy’s proposed plans come with a commitment to helping its employees and the communities that host its plants make a successful transition to cleaner energy. The company expects to manage the transition through attrition, retirements and retraining for employees who take other jobs within the company. It will also work closely with the Monticello community as it seeks to continue the use of the Monticello nuclear plant until at least 2040. That process requires approvals at state and federal levels.

“Our employees are the reason we are able to deliver reliable service to our customers,” said Clark. “Over the next decade, we will work closely with them and our plant host communities to ensure a successful transition. We have been on our clean energy journey for more than a decade and have a track record of making the transition with a strong focus on our employees and communities.”

The company’s plan is also designed to ensure that customers’ bills stay low. As Xcel Energy moves forward on its clean energy vision, it believes it can reach its carbon-reduction goals outlined in the plan while keeping customer bills at or below the rate of inflation. Retiring coal, adding renewables and extending the use of nuclear energy is the fastest way to deliver carbon reductions at the lowest cost.

Xcel Energy has worked collaboratively with stakeholders including business, community and environmental groups to shape its Upper Midwest Energy Plan over the past 18 months. That plan will be formally submitted to for consideration with the Minnesota Public Utilities Commission on July 1, 2019.

About Xcel Energy
Xcel Energy (NASDAQ: XEL) provides the energy that powers millions of homes and businesses across eight Western and Midwestern states. Headquartered in Minneapolis, the company is an industry leader in responsibly reducing carbon emissions and producing and delivering clean energy solutions from a variety of renewable sources at competitive prices. For more information, visit xcelenergy.com or follow us on Twitter and Facebook.

* Signees to the agreement to close coal plants, add solar, and purchase the Mankato Energy Center include Clean Grid Alliance, Center for Energy and Environment, Minnesota Center for Environmental Advocacy, Union of Concerned Scientists, Fresh Energy, Sierra Club, and LIUNA Minnesota and North Dakota. Xcel Energy is working closely with the Minnesota Department of Commerce as it reviews the agreement.

Read more: Xcel Energy to End All Coal Use in the Upper...

As part of a three-day conference and exhibition held at Messe München Exhibition Centre, Munich, Germany from May 15-17, 2019, Hanergy showcased its most promising solar solutions.

Amongst the exhibits from Hanergy were HanPaper Plus in, a portable solar power-bank product; HanPack, the solar backpack; and Humbrella, the solar-powered parasol, all three of which were in the consumer products category; solar-powered housing solutions, like rooftop solutions of Single & Double Glass HanTile; power-generation wall solution, HanWall; road paving solutions like HanBrick in the construction products category; transportation solutions such as slide-in ground mounted system, Thin-Film Solar vehicle Roof; and flexible modules and production lines from Solibro and MiaSolé.

The most intriguing part is that Hanergy has also fast-tracked its global expansion with its participation at the Intersolar Europe Exhibition 2019. The company has signed strategic cooperation contracts with renowned companies like Deuter & Bahama to co-design and develop solar backpacks and solar powered parasols respectively for the global market.

As per the strategic cooperation contract with Deuter, Hanergy will be responsible for the development and the design of thin film flexible components, and Deuter will take the onus for the design, production and sales of the bags globally. The duo will adopt a co-brand strategy to promote their upcoming solar backpacks.

On collaboration with Hanergy, Robert Schieferle, VP, Deuter, said, "We're pleased to build synergies with the company of Hanergy's stature and bring to use their par-excellence thin film flexible components in our upcoming solar backpacks. We're confident that our new solar backpack powered by Hanergy' s light weight modules with dual branding of the two brands is surely going to be a head-turner."

Deuter is a German brand of sport packs and bags, for hiking, trekking, snow sports and other uses. Founded in 1898, Deuter has been pioneering premium outdoor equipment market for over 120 years.

On the other hand, under the aegis of a strategic partnership agreement with Bahama, Germany's leading parasol brand, both companies will cooperate to co-design and develop solar powered parasols.

Founded in 1950, today Bahama designs and manufactures a great variety of high-quality large-size parasols and sun sails.

Further, introducing its flexible modules & BIPV product, HanTile,  in the Sweden Market, the clean energy giant has also signed a USD 1 bn distribution agreement with Sun Lion Solar Ltd, a renowned company offering rooftop solutions in the Scandinavian region for over 50 years.

Sweden's solar market has grown tremendously in the past few years. Its operational PV capacity increased from 231 MW at the end of 2017 to 411 MW at the end of last year, according to new official statistics released by the Swedish Energy Agency (Energimyndigheten). The figures show that 2018 was the country's best year ever in terms of solar energy development, with 180 MW added to the grid. That contrasts with 91 MW in 2017 and just 13 MW in 2016, while in 2015 and 2014 the country added around 37.6 MW and 36.2 MW, respectively.

Lv Yuan, vice president of Hanergy Overseas Sales, said, "Intersolar Europe has been around for years now, and we've been fortunate to be associated with the platform. Our participation at this year's Intersolar Exhibition has yielded exceptionally good results for the company. We signed a US$1 billion contract to distribute our rooftop solution at Sweden, and we've also clinched strategic co-operation contracts with renowned companies in their respective fields like Deuter & Bahama to accentuate the look and feel of our solar backpacks and parasols, and also the sales in Europe and the world markets."

According to Hanergy, it intends to close deals with nearly 85 potential customers with orders totaling to 380 MW at the Intersolar Exhibition. The company claims it received more than 5,000 visitors and thousands of experts from 160 nations during the exhibition.

Wang Zhongshuang, CEO of Hanergy Germany, said, "Hanergy has been on a continuous growth trajectory and is constantly expanding its foothold in the global market. Our collaboration with Deuter and Bahama is a testament of our earnestness to apply our innovative thin film power technology to the products across industries. We're committed to empower the world with mobile energy, and we're open to work with top companies to create more energy efficient products that will change the way of life for consumers."

According to the Global Market Outlook for Solar Power published recently by SolarPower Europe, Europe's solar market is expected to grow exponentially. Germany will remain the largest PV market in Europe for years to come, with an expected newly installed solar capacity of 26.7 GW by 2023, bringing its total capacity to 72.6 GW. Spain will be the second-biggest market with new additions reaching 19.4 GW and its cumulative total hitting 25.3 GW by the end of the 2019-2023 period.

Over the next five years, the Netherlands, France and Italy will likely add 15.8 GW, 13.3 GW and 9.6 GW, respectively. They will be followed by Ukraine and Turkey, with 5.9 GW and 5.5 GW of respective projected growth.

Intersolar Europe, founded 27 years ago, has become one of the most important industry platforms for manufacturers, suppliers, distributors, service providers and partners in the global solar industry. The exhibition focuses on the areas of photovoltaics, solar thermal technologies, solar power plants, as well as grid infrastructure and solutions for the integration of renewable energy.

About Hanergy Thin Film Power Group Ltd:

Hanergy Thin Film Power Group Ltd (0566.HK) is a Hong Kong-listed company, and a subsidiary of Hanergy Mobile Energy Group Company Ltd. As one of the leading thin-film solar companies in the world, Hanergy Thin Film Power Group Ltd is committed to "Building Mobile Energy". Since 2009, Hanergy has been working relentlessly to integrate worldwide solar technologies, and making a robust investment in research and innovation in the field of thin-film solar power. Thin film solar technologies have been applied to a series of commercial and non-commercial products, including HanTile, HanWall, Humbrella, HanPack and HanPower.

Visit Hanergy's official website to find out more or follow Hanergy on Facebook, Twitter, LinkedIn, YouTube for the latest news and updates.

SOURCE Hanergy

Read more: Hanergy Showcases its Pioneering Energy...

Subcategories

Advertisement

Translator

Advertisement
Advertisement

SolarQuarter Tweets

Follow Us For Latest Tweets

SolarQuarter Gujarat Largest Rooftop Solar Event is Back in Ahmedabad - https://t.co/hvfKU8siIr
Monday, 20 May 2019 06:35
SolarQuarter How did India solar tenders perform in 2018-19? Here's a snapshot! solarenergy solarnews energy… https://t.co/rEDOp84n27
Wednesday, 15 May 2019 20:12
SolarQuarter Who was awarded the maximum tenders in India in 2018-19? Here's a glimpse @SolarQuarter SolarQuarter… https://t.co/jUdsZVJ5VU
Wednesday, 15 May 2019 00:29

Advertisement