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NewswireTODAY - /newswire/ -
Delhi, Noida, India, 2011/08/11 - A new report from IMARC Group expects the future growth of the energy efficient lighting and modern display industries to be constrained by a critical supply shortage of Terbium and Europium.
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Rare Earth Phosphors currently represent key materials in modern display and energy efficient lighting technologies. As a result of their higher efficiencies, larger viewing area and increased portability - traditional CRTs today are now being replaced by liquid crystal displays (LCDs), plasma display panel screens (PDPs) and light-emitting diodes (LEDs). The ever growing demand of cell phones and cameras are also providing additional growth in the display segment. Apart from displays, energy efficient lighting technologies such as compact fluorescent lamps (CFLs) and LEDs are also currently witnessing rapid growth. These lights use only a quarter of the power needed to produce the same amount of light as the standard incandescent light bulb and have a significantly higher life span.
IMARC Group, one of the world’s leading research and advisory firms expects that driven by their extensive application in display and lighting, the demand of Rare Earth Phosphors will increase exponentially in the coming years. The projections from the report suggest that the demand of rare earth elements in Phosphors is expected to grow at a CAGR of around 9% during 2010 and 2015 reaching 13000 tonnes. A major finding from the report suggests that three rare earth elements – Yttrium, Europium and Terbium are critical components of Rare Earth Phosphors. Out of the three elements, the report expects a critical supply shortage of Terbium and Europium in the coming years. The supply shortage of these materials has already started increasing the prices of various energy efficient lighting and modern display products and has the potential of constraining the growth of the entire Industry.
Key Aspects Analyzed in this Report:
Understanding the Mining Economics of Rare Earth Elements:
Focus of the Analysis:
• Rare earth mine valuation
• Stages and time taken to develop and start production at a rare earth mine
• The total costs involved in rare earth mining
• Mining and downstream processing of rare earth elements
• Rare earth element pricing.
Understanding China’s Role in the Global Rare Earth Elements Market:
Focus of the Analysis:
• China’s role in the global supply and demand of rare earth elements
• Reasons for China’s dominance
• China’s current and future supply strategies.
Comprehensive Situation Analysis of the Global Rare Earth Elements Market:
Focus of the analysis:
• Quantifying the historical sales and production of rare earth elements
• Identification and evaluation of current global rare earth mines
• Identification and evaluation of mines expected to begin production in the next five years
• Current and future consumption of rare earth elements.
Evaluating the Supply and Demand of Various Rare Earth Elements:
Focus of the analysis:
• Quantifying the production of each element from current and future mines
• Quantifying the current and future demand of each element
• Historical, current and future prices of each element
• Evaluating the supply risks of each element and its importance for clean technology
• Identification of critically under supplied and oversupplied rare earth elements.
Evaluating the Demand of Rare Earth Elements in Various Industries
Focus of the analysis:
• Quantifying the current and future size of each Industry
• Quantifying the current and future demands of rare earth elements in each industry
• Identification of industries having the highest demand of rare earth elements.
Information Sources:
Information has been sourced from both primary and secondary sources:
• Primary sources include industry surveys and face to face/telephone interviews with industry experts.
• Secondary sources include proprietary databases and search engines. These sources include company websites and reports, books, trade journals, magazines, white papers, industry portals, government sources and access to more than 4000 paid databases.
Table of contents:
1. Research Methodology & Market Definitions
2. Executive Summary
3. What are Rare Earth Elements?
4. Rare Earth Elements: Are They Really Rare?
4.1 Reserve & Reserve Base Estimates
4.2 How Long will they Last?
5. Rare Earth Elements: Mining Economics
5.1 Mine Valuation: Grades & Composition are Key
5.2 Development of a New Project: Can Take Several Years
5.3 Rare Earth Mining Costs: Largely Location and Grade Dependent
5.3.1 Infrastructure & Capital Costs
5.3.2 Operating Costs
5.4 Mining & Processing
5.4.1 Mining
5.4.2 Downstream Processing
5.5 Prices: Have Risen Several Fold in Recent Years
5.5.1 Factors Affecting Rare Earth Element Prices
5.5.2 Historical Prices
5.5.3 Pricing Forecast
6. China’s Role in the Global Rare Earth Elements Market
6.1 China Has a Monopoly Over Rare Earth Elements
6.2 Mining Costs in China Are Significantly Lower Than Other Rare Earth Producers
6.3 Miners Have Benefitted from the Lack of Proper Working Standards and Environmental Regulations
6.4 China Has a Significantly Higher In-house Expertise Compared to Other Rare Earth Producers
6.5 China is Decreasing Export Quotas as its Own Domestic Demand is Expected to Outstrip Supply
6.6 China Aims to Become an Exporter of Higher Value Goods
7. The Global Rare Earth Elements Market
7.1 Total Sales & Production of Rare Earth Elements
7.2 Production of Rare Earth Elements by Region
7.2.1 Current Operational Mines
7.2.1.1 Bayan Obo, China
7.2.1.2 Longnan, China
7.2.1.3 Xunwu, China
7.2.1.4 India
7.2.1.5 Eastern Coast, Brazil
7.2.1.6 Lahat, Malaysia
7.2.2 Potential New Projects
7.2.2.1 Mt. Weld, Australia
7.2.2.2 Mountain Pass, United States
7.2.2.3 Nolans, Australia
7.2.2.4 Steenkampskraal, South Africa
7.2.2.5 Nechalacho, Canada
7.2.2.6 Kvanefjeld, Greenland
7.2.2.7 Dong Pao, Vietnam
7.2.2.8 Dubbo Zirconia, Australia
7.3 Consumption of Rare Earth Elements by Region
7.3.1 China
7.3.2 Japan & Northeast Asia
7.3.3 US
8. Supply & Demand of Individual Rare Earth Elements
8.1 Elements that will Face Supply Shortages in the Near Future
8.1.1 Terbium
8.1.1.1 Element Overview & Supply Risks
8.1.1.2 Supply & Demand
8.1.2 Dysprosium
8.1.2.1 Element Overview & Supply Risks
8.1.2.2 Supply & Demand
8.1.3 Neodymium
8.1.3.1 Element Overview & Supply Risks
8.1.3.2 Supply & Demand
8.1.4 Europium
8.1.4.1 Element Overview & Supply Risks
8.1.4.2 Supply & Demand
8.2 Elements That Will Be Oversupplied in the Near Future
8.2.1 Yttrium
8.2.1.1 Element Overview & Supply Risks
8.2.1.2 Supply & Demand
8.2.2 Lanthanum
8.2.2.1 Element Overview & Supply Risks
8.2.2.2 Supply & Demand
8.2.3 Cerium
8.2.3.1 Element Overview & Supply Risks
8.2.3.2 Supply & Demand
8.2.4 Praseodymium
8.2.4.1 Element Overview & Supply Risks
8.2.4.2 Supply & Demand
8.2.5 Samarium
8.2.5.1 Element Overview & Supply Risks
8.2.5.2 Supply & Demand
9. Market by Application (2010-2015)
9.1 Magnets
9.2 NiMH Batteries
9.3 Auto Catalysts
9.4 Diesel Engines
9.5 Fluid Cracking Catalysts (FCC)
9.6 Phosphers
9.7 Glass
9.8 Polishing Powders
9.9 Other Applications
10. Overcoming the Potential shortfalls in Supply
10.1 Stockpiling
10.2 Recycling
10.3 Substitution
10.4 Material Shortfall Strategies by Various Rare Earth Consumers
11. Key Player Profiles
11.1 Lynas Corporation
11.2 Molycorp Minerals
11.3 Arafura Resources Ltd
11.4 Great Western Minerals Group Ltd
11.5 Avalon Rare Metals Inc
11.6 Greenland Minerals & Energy Ltd
11.7 Alkane Resources Ltd
To buy the complete report
Call: +91-120-425-6531 (Asia), +44-844-774-9660 (Europe), +1-631-791-1145 (America) - E: sales[.]imarcgroup.com
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