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Daily Analysis for Monday May 20

Posted on 21 May 2013 by Africa Business

This week begins with great anticipation for profitable trading opportunities. Banks in Europe and Canada will be closed on Monday, but traders could take advantage of the release of the Australian Monetary Policy Meeting Minutes. Later in the week, we are expecting inflation and retail sales data out the United Kingdom. These announcements will surely pave a clear direction for the British Pound. Meanwhile, home sales in the world’s largest economy will be put forth on Thursday. Whether the U.S. dollar is affected, that remains to be seen.

USD/CAD


Friday’s inflation report was softer than consensus expectations. Headline CPI is increasing at its slowest since October 2009 when the economy was still experiencing the consequences of the recession. In this environment, inflation is clearly not the main radar the Bank of Canada is looking at for now, but growth is. Given our expectations of subpar growth for 2013, rate hikes in Canada are unlikely anytime soon. Look for the Loonie to continue weakening in the coming days.

Stop loss 1.0250

Take profit 1.0315

Gold


The yellow metal started the new week on the wrong foot, tumbling during Monday’s morning session as traders increased their bearish bets on this commodity. It has been falling since October 2012, with the sharpest market movement taking place just last month. We have recently reached the lowest point last seen on April 14th. Traders are advised to hold onto their short positions until further notice. We expect to reach $1,300 within days, possibly by Thursday of this week.

Stop loss $1,370

Take profit $1,300

USD/ILS


The Bank of Israel surprised with a 25 basis point rate cut to 1.5% last week, an intra-meeting move. The next scheduled meeting is set for May 27th. We’ve been looking for more cuts, especially as the Shekel has strengthened in recent weeks. As it cut rates, the central bank noted that the shekel has been boosted by natural gas sales and global monetary easing. Furthermore, the Bank of Israel announced a plan to increase its holdings of foreign exchange in an effort to offset the money from gas sales. For now, the high probability of sequential rate cuts suggests this pair is likely to continue heading north. We’re currently aiming at 3.6370.

Stop Loss 3.6316

Take profit 3.6370

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Developing World’s Share of Global Investment to Triple by 2030, Says New World Bank Report

Posted on 18 May 2013 by Africa Business

Seventeen years from now, half the global stock of capital, totaling $158 trillion (in 2010 dollars), will reside in the developing world, compared to less than one-third today, with countries in East Asia and Latin America accounting for the largest shares of this stock, says the latest edition of the World Bank’s Global Development Horizons (GDH) report, which explores patterns of investment, saving and capital flows as they are likely to evolve over the next two decades.

Developing countries’ share in global investment is projected to triple by 2030 to three-fifths, from one-fifth in 2000, says the report, titled ‘Capital for the Future: Saving and Investment in an Interdependent World’. With world population set to rise from 7 billion in 2010 to 8.5 billion 2030 and rapid aging in the advanced countries, demographic changes will profoundly influence these structural shifts.

“GDH is one of the finest efforts at peering into the distant future. It does this by marshaling an amazing amount of statistical information,” said Kaushik Basu, the World Bank’s Senior Vice President and Chief Economist. “We know from the experience of countries as diverse as South Korea, Indonesia, Brazil, Turkey and South Africa the pivotal role investment plays in driving long-term growth. In less than a generation, global investment will be dominated by the developing countries. And among the developing countries, China and India are expected to be the largest investors, with the two countries together accounting for 38 percent of the global gross investment in 2030. All this will change the landscape of the global economy, and GDH analyzes how.”

Productivity catch-up, increasing integration into global markets, sound macroeconomic policies, and improved education and health are helping speed growth and create massive investment opportunities, which, in turn, are spurring a shift in global economic weight to developing countries. A further boost is being provided by the youth bulge. With developing countries on course to add more than 1.4 billion people to their combined population between now and 2030, the full benefit of the demographic dividend has yet to be reaped, particularly in the relatively younger regions of Sub-Saharan Africa and South Asia.

The good news is that, unlike in the past, developing countries will likely have the resources needed to finance these massive future investments for infrastructure and services, including in education and health care. Strong saving rates in developing countries are expected to peak at 34 percent of national income in 2014 and will average 32 percent annually until 2030. In aggregate terms, the developing world will account for 62-64 percent of global saving of $25-27 trillion by 2030, up from 45 percent in 2010.

“Despite strong saving levels to finance their massive investment needs in the future, developing countries will need to significantly improve their currently limited participation in international financial markets if they are to reap the benefits of the tectonic shifts taking place,” said Hans Timmer, Director of the Bank’s Development Prospects Group.

GDH paints two scenarios, based on the speed of convergence between the developed and developing worlds in per capita income levels, and the pace of structural transformations (such as financial development and improvements in institutional quality) in the two groups. Scenario one entails a gradual convergence between the developed and developing world while a much more rapid scenario is envisioned in the second.

The gradual and rapid scenarios predict average world economic growth of 2.6 percent and 3 percent per year, respectively, during the next two decades; the developing world’s growth will average an annual rate of 4.8 percent in the gradual convergence scenario and 5.5 percent in the rapid one.

In both scenarios, developing countries’ employment in services will account for more than 60 percent of their total employment by 2030 and they will account for more than 50 percent of global trade. This shift will occur alongside demographic changes that will increase demand for infrastructural services. Indeed, the report estimates the developing world’s infrastructure financing needs at $14.6 trillion between now and 2030.

The report also points to aging populations in East Asia, Eastern Europe and Central Asia, which will see the largest reductions in saving rates. Demographic change will test the sustainability of public finances and complex policy challenges will arise from efforts to reduce the burden of health care and pensions without imposing severe hardships on the old. In contrast, Sub-Saharan Africa, with its relatively young and rapidly growing population as well as robust economic growth, will be the only region not experiencing a decline in its saving rate.

In absolute terms, however, saving will continue to be dominated by Asia and the Middle East. In the gradual convergence scenario, in 2030, China will save far more than any other developing country — $9 trillion in 2010 dollars — with India a distant second with $1.7 trillion, surpassing the levels of Japan and the United States in the 2020s.

As a result, under the gradual convergence scenario, China will account for 30 percent of global investment in 2030, with Brazil, India and Russia together accounting for another 13 percent. In terms of volumes, investment in the developing world will reach $15 trillion (in 2010 dollars), versus $10 trillion in high-income economies. China and India will account for almost half of all global manufacturing investment.

“GDH clearly highlights the increasing role developing countries will play in the global economy. This is undoubtedly a significant achievement. However, even if wealth will be more evenly distributed across countries, this does not mean that, within countries, everyone will equally benefit,” said Maurizio Bussolo, Lead Economist and lead author of the report.

The report finds that the least educated groups in a country have low or no saving, suggesting an inability to improve their earning capacity and, for the poorest, to escape a poverty trap.

“Policy makers in developing countries have a central role to play in boosting private saving through policies that raise human capital, especially for the poor,” concluded Bussolo.

Regional Highlights:

East Asia and the Pacific will see its saving rate fall and its investment rate will drop by even more, though they will still be high by international standards. Despite these lower rates, the region’s shares of global investment and saving will rise through 2030 due to robust economic growth. The region is experiencing a big demographic dividend, with fewer than 4 non-working age people for every 10 working age people, the lowest dependency ratio in the world. This dividend will end after reaching its peak in 2015. Labor force growth will slow, and by 2040 the region may have one of the highest dependency ratios of all developing regions (with more than 5.5 non-working age people for every 10 working age people). China, a big regional driver, is expected to continue to run substantial current account surpluses, due to large declines in its investment rate as it transitions to a lower level of public involvement in investment.

Eastern Europe and Central Asia is the furthest along in its demographic transition, and will be the only developing region to reach zero population growth by 2030. Aging is expected to moderate economic growth in the region, and also has the potential to bring down the saving rate more than any developing region, apart from East Asia. The region’s saving rate may decline more than its investment rate, in which case countries in the region will have to finance investment by attracting more capital flows. The region will also face significant fiscal pressure from aging. Turkey, for example, would see its public pension spending increase by more than 50 percent by 2030 under the current pension scheme. Several other countries in the region will also face large increases in pension and health care expenditures.

Latin America and the Caribbean, a historically low-saving region, may become the lowest-saving region by 2030. Although demographics will play a positive role, as dependency ratios are projected to fall through 2025, financial market development (which reduces precautionary saving) and a moderation in economic growth will play a counterbalancing role. Similarly, the rising and then falling impact of demography on labor force growth means that the investment rate is expected to rise in the short run, and then gradually fall. However, the relationship between inequality and saving in the region suggests an alternative scenario. As in other regions, poorer households tend to save much less; thus, improvements in earning capacity, rising incomes, and reduced inequality have the potential not only to boost national saving but, more importantly, to break poverty traps perpetuated by low saving by poor households.

The Middle East and North Africa has significant scope for financial market development, which has the potential to sustain investment but also, along with aging, to reduce saving. Thus, current account surpluses may also decline moderately up to 2030, depending on the pace of financial market development. The region is in a relatively early phase of its demographic transition: characterized by a still fast growing population and labor force, but also a rising share of elderly. Changes in household structure may also impact saving patterns, with a transition from intergenerational households and family-based old age support to smaller households and greater reliance on asset income in old age. The region has the lowest use of formal financial institutions for saving by low-income households, and scope for financial markets to play a significantly greater role in household saving.

South Asia will remain one of the highest saving and highest investing regions until 2030. However, with the scope for rapid economic growth and financial development, results for saving, investment, and capital flows will vary significantly: in a scenario of more rapid economic growth and financial market development, high investment rates will be sustained while saving falls significantly, implying large current account deficits. South Asia is a young region, and by about 2035 is likely to have the highest ratio of working- to nonworking-age people of any region in the world. The general shift in investment away from agriculture towards manufacturing and service sectors is likely to be especially pronounced in South Asia, with the region’s share of total investment in manufacturing expected to nearly double, and investment in the service sector to increase by more than 8 percentage points, to over two-thirds of total investment.

Sub-Saharan Africa’s investment rate will be steady due to robust labor force growth. It will be the only region to not see a decrease in its saving rate in a scenario of moderate financial market development, since aging will not be a significant factor. In a scenario of faster growth, poorer African countries will experience deeper financial market development, and foreign investors will become increasingly willing to finance investment in the region. Sub-Saharan Africa is currently the youngest of all regions, with the highest dependency ratio. This ratio will steadily decrease throughout the time horizon of this report and beyond, bringing a long lasting demographic dividend. The region will have the greatest infrastructure investment needs over the next two decades (relative to GDP). At the same time, there will likely be a shift in infrastructure investment financing toward greater participation by the private sector, and substantial increases in private capital inflows, particularly from other developing regions.

Source: WorldBank.org

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Developing countries to dominate global saving and investment, but the poor will not necessarily share the benefits, says report

Posted on 18 May 2013 by Africa Business

STORY HIGHLIGHTS
  • Developing world’s share of global investment to triple by 2030
  • China, India will be developing world’s largest investors
  • Boost to education needed so poor can improve their well-being

In less than a generation, global saving and investment will be dominated by the developing world, says the just-released Global Development Horizons (GDH) report.

By 2030, half the global stock of capital, totaling $158 trillion (in 2010 dollars), will reside in the developing world, compared to less than one-third today, with countries in East Asia and Latin America accounting for the largest shares of this stock, says the report, which explores patterns of investment, saving and capital flows as they are likely to evolve over the next two decades.

Titled ‘Capital for the Future: Saving and Investment in an Interdependent World’, GDH projects developing countries’ share in global investment to triple by 2030 to three-fifths, from one-fifth in 2000.

Productivity catch-up, increasing integration into global markets, sound macroeconomic policies, and improved education and health are helping speed growth and create massive investment opportunities, which, in turn, are spurring a shift in global economic weight to developing countries.

A further boost is being provided by the youth bulge. By 2020, less than 7 years from now, growth in world’s working-age population will be exclusively determined by developing countries. With developing countries on course to add more than 1.4 billion people to their combined population between now and 2030, the full benefit of the demographic dividend has yet to be reaped, particularly in the relatively younger regions of Sub-Saharan Africa and South Asia.

GDH paints two scenarios, based on the speed of convergence between the developed and developing worlds in per capita income levels, and the pace of structural transformations (such as financial development and improvements in institutional quality) in the two groups. Scenario one entails a gradual convergence between the developed and developing world while a much more rapid one is envisioned in the second.

In both scenarios, developing countries’ employment in services will account for more than 60 percent of their total employment by 2030 and they will account for more than 50 percent of global trade. This shift will occur alongside demographic changes that will increase demand for infrastructural services. Indeed, the report estimates the developing world’s infrastructure financing needs at $14.6 trillion between now and 2030.

The report also points to aging populations in East Asia, Eastern Europe and Central Asia, which will see the largest reductions in private saving rates. Demographic change will test the sustainability of public finances and complex policy challenges will arise from efforts to reduce the burden of health care and pensions without imposing severe hardships on the old. In contrast, Sub-Saharan Africa, with its relatively young and rapidly growing population as well as robust economic growth, will be the only region not experiencing a decline in its saving rate.

Open Quotes

Policy makers in developing countries have a central role to play in boosting private saving through policies that raise human capital, especially for the poor. Close Quotes

Maurizio Bussolo
Lead Author, Global Development Horizons 2013

In absolute terms, however, saving will continue to be dominated by Asia and the Middle East. In the gradual convergence scenario, in 2030, China will save far more than any other developing country — $9 trillion in 2010 dollars — with India a distant second with $1.7 trillion, surpassing the levels of Japan and the United States in the 2020s.

As a result, under the gradual convergence scenario, China will account for 30 percent of global investment in 2030, with Brazil, India and Russia together accounting for another 13 percent. In terms of volumes, investment in the developing world will reach $15 trillion (in 2010 dollars), versus $10 trillion in high-income economies. Again, China and India will be the largest investors among developing countries, with the two countries combined representing 38 percent of the global gross investment in 2030, and they will account for almost half of all global manufacturing investment.

“GDH clearly highlights the increasing role developing countries will play in the global economy. This is undoubtedly a significant achievement. However, even if wealth will be more evenly distributed across countries, this does not mean that, within countries, everyone will equally benefit,” said Maurizio Bussolo, Lead Economist and lead author of the report.

The report finds that the least educated groups in a country have low or no saving, suggesting an inability to improve their earning capacity and, for the poorest, to escape a poverty trap.

“Policy makers in developing countries have a central role to play in boosting private saving through policies that raise human capital, especially for the poor,” concluded Bussolo.

Regional Highlights:

East Asia and the Pacific will see its saving rate fall and its investment rate will drop by even more, though they will still be high by international standards. Despite these lower rates, the region’s shares of global investment and saving will rise through 2030 due to robust economic growth. The region is experiencing a big demographic dividend, with fewer than 4 non-working age people for every 10 working age people, the lowest dependency ratio in the world. This dividend will end after reaching its peak in 2015. Labor force growth will slow, and by 2040 the region may have one of the highest dependency ratios of all developing regions (with more than 5.5 non-working age people for every 10 working age people). China, a big regional driver, is expected to continue to run substantial current account surpluses, due to large declines in its investment rate as it transitions to a lower level of public involvement in investment.

Eastern Europe and Central Asia is the furthest along in its demographic transition, and will be the only developing region to reach zero population growth by 2030. Aging is expected to moderate economic growth in the region, and also has the potential to bring down the saving rate more than any developing region, apart from East Asia. The region’s saving rate may decline more than its investment rate, in which case countries in the region will have to finance investment by attracting more capital flows. The region will also face significant fiscal pressure from aging. Turkey, for example, would see its public pension spending increase by more than 50 percent by 2030 under the current pension scheme. Several other countries in the region will also face large increases in pension and health care expenditures.

Latin America and the Caribbean, a historically low-saving region, may become the lowest-saving region by 2030. Although demographics will play a positive role, as dependency ratios are projected to fall through 2025, financial market development (which reduces precautionary saving) and a moderation in economic growth will play a counterbalancing role. Similarly, the rising and then falling impact of demography on labor force growth means that the investment rate is expected to rise in the short run, and then gradually fall. However, the relationship between inequality and saving in the region suggests an alternative scenario. As in other regions, poorer households tend to save much less; thus, improvements in earning capacity, rising incomes, and reduced inequality have the potential not only to boost national saving but, more importantly, to break poverty traps perpetuated by low saving by poor households.

The Middle East and North Africa has significant scope for financial market development, which has the potential to sustain investment but also, along with aging, to reduce saving. Thus, current account surpluses may also decline moderately up to 2030, depending on the pace of financial market development. The region is in a relatively early phase of its demographic transition: characterized by a still fast growing population and labor force, but also a rising share of elderly. Changes in household structure may also impact saving patterns, with a transition from intergenerational households and family-based old age support to smaller households and greater reliance on asset income in old age. The region has the lowest use of formal financial institutions for saving by low-income households, and scope for financial markets to play a significantly greater role in household saving.

South Asia will remain one of the highest saving and highest investing regions until 2030. However, with the scope for rapid economic growth and financial development, results for saving, investment, and capital flows will vary significantly: in a scenario of more rapid economic growth and financial market development, high investment rates will be sustained while saving falls significantly, implying large current account deficits. South Asia is a young region, and by about 2035 is likely to have the highest ratio of working- to nonworking-age people of any region in the world. The general shift in investment away from agriculture towards manufacturing and service sectors is likely to be especially pronounced in South Asia, with the region’s share of total investment in manufacturing expected to nearly double, and investment in the service sector to increase by more than 8 percentage points, to over two-thirds of total investment.

Sub-Saharan Africa’s investment rate will be steady due to robust labor force growth. It will be the only region to not see a decrease in its saving rate in a scenario of moderate financial market development, since aging will not be a significant factor. In a scenario of faster growth, poorer African countries will experience deeper financial market development, and foreign investors will become increasingly willing to finance investment in the region. Sub-Saharan Africa is currently the youngest of all regions, with the highest dependency ratio. This ratio will steadily decrease throughout the time horizon of this report and beyond, bringing a long lasting demographic dividend. The region will have the greatest infrastructure investment needs over the next two decades (relative to GDP). At the same time, there will likely be a shift in infrastructure investment financing toward greater participation by the private sector, and substantial increases in private capital inflows, particularly from other developing regions.

 

Source: WorldBank.org

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Fi Istanbul’s Success Demonstrates Unlimited Market Opportunities in Turkey, the Middle East & North Africa

Posted on 18 May 2013 by Africa Business

Staggering 3,000 Visitors + 150 Exhibiting Brands and Record Re-Booking Volumes for the 2014 Event

Yes, we’ve got a lot to shout about and so we would like to start with a huge thank you to all of our exhibitors who helped to make Food ingredients Istanbul such a great success. As the only dedicated food ingredients event in the region, last week’s highly successful show demonstrates that this region is thriving and thirsty for the very latest ingredients, solutions, innovations and networking opportunities.

We are delighted to announce that Food ingredients Istanbul exceeded all forecasts and expectations with the impressive amount of 3,000 visitors and a 94% rebooking rate. As a launch event, Fi Istanbul welcomed attendees from over 80 different countries, filling all aisles and bustling exhibitor stands.

It is clear that the industry responded well to this launch event. Building on the high growth rates that the food industry is experiencing in this region, Fi Istanbul provided a strong platform for all food and beverage manufacturers to source from over 150 local, regional and international food ingredients suppliers.

The response from the exhibitors was overwhelming! Many claimed to have had one of the best shows ever, with a high quality of visitors, a steady flow of traffic during the 3 days and a good mix of visiting companies, including food manufacturers from dairy, ice cream, confectionary, meat, poultry and many more.

Turkey, for a global company, is a very important market for us to be close to our customers. Food ingredients Istanbul has been a great experience to meet new customers in 3 days and share projects, prototypes, concepts and innovations” Luis Fernandez , Vice-President Global Applications, Tate & Lyle

Natasha Berrow , UBM’s Brand Director, also commented, “Last week’s event really did surpass even our expectations! The positive response to this launch event, the new Fi branding and signage provided the innovative environment that such a growing region deserves.”

She continued “the record re-bookings are further indication that exhibitors see Fi Istanbul as the place to continue to meet their customers and to expand into this booming region. I’d like to express our appreciation for the tremendous and ongoing support of all our customers.”

“We are very impressed by the quality of visitors; quality is more important than quantity. We found a lot of good customers that we’ll probably start new business with” Stella Wu , International Sales Manager, JK Sucralose

Visitor feedback also surpassed all expectations. The great mix of local, regional and international food ingredients suppliers was complimented by many attendees looking to source new ingredients from companies they never heard of.

“I want to know new suppliers and I want to see some different varieties of products that I can use for my customers. This is the first year for this exhibition and it feels like it has being a successful opening and I’m sure it will get greater and bigger in the coming years.” Meleknur Tuzun, Sales Manager, Agrana

Fi Istanbul is a key part of the Food ingredients Global Portfolio strategy to extend the its brand into new regions, offering exhibiting clients a platform to engage with new customers and present their new business growth opportunities. With the key focus on business development, innovation and trade, in a region with one of the fastest economic growth rates in the world, Fi Istanbul proved to be one of the most cost-effective platforms to source new ingredients, grow market share and act as a stepping stone to this vastly and yet close to untouched food industry.

 

About Fi ingredients Global – the trusted route to market since 1986

Food ingredients first launched in Utrecht, The Netherlands in 1986 and its portfolio of live events, publications, extensive database, digital solutions and high-level conferences are now established across the globe to provide regional and a global meeting place for all stakeholders in the food ingredients industry. Over 500,000 people have attended our shows over the years, and billions of Euros of business have been created as a result. With over 25 years of excellence, our events, digital solutions and supporting products deliver a proven route to market with a truly global audience.

About UBM Istanbul

UBM Istanbul was established in April 2012 to connect people and create opportunities for companies wishing to build business between Europe and Asia, meet customers, launch new products, promote their brands and expand their markets. Premier brands such as Fi Europe, CPhI, IFSEC, Black Hat, Mother & Baby Show , Jewellery and many others and will become an integral part of the marketing plans of companies across more than 10 industry sectors.

About UBM

UBM plc is a global events-led marketing services and communications company. We help businesses do business, bringing the world’s buyers and sellers together at events and online, as well as producing and distributing specialist content and news. Our 5,500 staff in more than 30 countries are organised into specialist teams which serve commercial and professional communities, helping them to do business and their markets to work effectively and efficiently.

For more information, go to http://www.ubm.com

SOURCE UBM Live

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Unreliable Power Supply Creates Huge Demand for Non-renewable Inverters, Finds Frost & Sullivan

Posted on 18 May 2013 by Africa Business

Cost competitiveness vital to expand in developing markets

MOUNTAIN VIEW, Calif. /PRNewswire/ — The global non-renewable inverter market grew steadily on the back of rising demand for reliable power and the lack of stable power infrastructure in many regions of the world. Higher disposable incomes and greater affordability in developing regions such as Latin America, as well as parts of Africa and South Asia, encourage the adoption of power inverters, especially in residential markets.

New analysis from Frost & Sullivan’s (http://www.powersupplies.frost.com) Analysis of the Global Non-renewable Inverter Market research finds the market earned revenue of approximately $1.94 billion in 2012 and estimates this to reach $2.34 billion in 2018.

For more information on this research, please email Britni Myers , Corporate Communications, at britni.myers@frost.com, with your full name, company name, job title, telephone number, company email address, company website, city, state and country.

“The need for power reliability stimulates demand for power inverter and inverter/chargers, as they are employed as part of a back-up power system involving a battery,” said Frost & Sullivan Energy and Environment Senior Industry Analyst Anu Elizabeth Cherian. “The manufacturing and commercial sectors’ increased awareness and proactive protective measures such as employing adequate back-up resources to manage business more efficiently gives a significant boost to the market’s prospects.”

The market will also gain from the escalating use of electronic equipment in boats, cars, trucks, ambulances and recreational vehicles. Power inverters and inverter chargers can meet business travelers’ or vacationers’ demand for connectivity on the go as well.

While power inverters are establishing a foothold in the power industry, the gradual pace of economic recovery and restrained spending environment are stymieing inverter manufacturers’ efforts to expand. Further, the slowdown in infrastructural build-outs in telecommunications and investments makes customers cautious about investing in inverters.

“Inverter manufacturers could attempt to offset the price issue by offering enhanced features for the premium products or lowering prices,” noted Cherian. “We know that without a solid solution, power quality issues will continue to persist.  This improved awareness of the need to be well prepared for power outages bolsters the power inverter market.”

Analysis of the Global Non-renewable Inverter Market is part of the Energy and Environment Growth Partnership Service program. Frost & Sullivan’s related research services include: Analysis of the Mexican Distributed Power Generation Market, Asia-Pacific Rental Power Market, Bangladesh Uninterruptible Power Supply Market, and Critical Energy Infrastructure Protection in Europe. All research services included in subscriptions provide detailed market opportunities and industry trends evaluated following extensive interviews with market participants.

Connect with Frost & Sullivan on social media, including Twitter, Facebook, SlideShare, and LinkedIn, for the latest news and updates.

About Frost & Sullivan

Frost & Sullivan, the Growth Partnership Company, works in collaboration with clients to leverage visionary innovation that addresses the global challenges and related growth opportunities that will make or break today’s market participants.

Our “Growth Partnership” supports clients by addressing these opportunities and incorporating two key elements driving visionary innovation: The Integrated Value Proposition and The Partnership Infrastructure.

  • The Integrated Value Proposition provides support to our clients throughout all phases of their journey to visionary innovation including: research, analysis, strategy, vision, innovation and implementation.
  • The Partnership Infrastructure is entirely unique as it constructs the foundation upon which visionary innovation becomes possible. This includes our 360 degree research, comprehensive industry coverage, career best practices as well as our global footprint of more than 40 offices.

For more than 50 years, we have been developing growth strategies for the global 1000, emerging businesses, the public sector and the investment community. Is your organization prepared for the next profound wave of industry convergence, disruptive technologies, increasing competitive intensity, Mega Trends, breakthrough best practices, changing customer dynamics and emerging economies?

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Analysis of the Global Non-renewable Inverter Market
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SOURCE Frost & Sullivan

 

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Lithium Market Becoming More Reliant on Batteries for Continued Strong Demand Growth

Posted on 18 May 2013 by Africa Business

Rise in Consumption and Future Demand Driven by Lithium-ion Batteries

Roskill estimates that rechargeable batteries accounted for 27% of global lithium consumption in 2012, up from 15% in 2007 and 8% in 2002. This end-use was responsible for 44% of the net increase in lithium consumption over the last ten years, and 70% over the last five years. In the base-case growth scenario it is expected to contribute 75% of the growth in forecast demand to 2017, when total demand for lithium is expected to reach slightly over 238,000t lithium carbonate equivalent (LCE).

Other end-uses, including glass-ceramics, greases and polymers, have also shown high rates of growth, but are predicted to moderate over the next five years as emerging economy growth slows. The lithium industry is therefore becoming more reliant on rechargeable batteries to sustain high rates of future demand growth. In addition, in the period to 2017 Roskill forecasts that the main market driver for lithium-ion batteries will gradually switch from portable consumer electronics to electric vehicles, especially hybrid variants.

Reflecting the concentration of lithium-ion battery manufacturers and associated cathode material producers in China, Japan and South Korea, the East Asia region has become an increasingly important consumer of lithium products over the last decade. In 2012, East Asia accounted for 60% of total global consumption with Europe accounting for a further 24% and North America 9%.

Growing Supply-side Pressure is Predicted to Stall Further Lithium Price Rises

Roskill’s analysis suggests that the price of technical-grade lithium carbonate, the main product produced and consumed in the lithium market, recovered some of its global economic downturn losses as the market tightened in 2012, averaging US$5,300/t CIF, up 15% from 2010. This is below the 2007 peak of US$6,500/t, but well above the US$2,000-3,000/t levels seen in the early 2000s.

Lithium extraction, which totalled over 168,000t LCE in 2012, is undertaken predominately in Australia, Chile, Argentina and China, with roughly half of lithium output from hard rock sources and half from brine. Production is dominated by Talison Lithium in Australia, SQM and Rockwood Lithium in Chile, and FMC in Argentina. Just over two-thirds of lithium minerals extracted in Australia are processed into downstream chemical products in China, where producers such as Tianqi Lithium (who recently acquired Talison to secure a captive supply of mineral feedstock) operate mineral conversion plants.

Galaxy Resources commissioned a new 17,000tpy LCE mineral conversion plant in China in 2012. Canada Lithium is in the process of commissioning a 20,000tpy LCE plant in Quebec and several existing Chinese mineral conversion plants are also expanding capacity. FMC has increased brine-based processing capacity by a third in Argentina, while nearby Orocobre is also constructing a new brine-based operation due to be completed in 2014. In addition, Rockwood Lithium plans to complete a 20,000tpy LCE expansion in Chile in 2014. Combined, this additional capacity totals just under 100,000tpy LCE, enough to meet forecast demand to 2017.

As the opening of new and expanded capacity is concentrated over the next two years, Roskill forecasts that the lithium market could witness increased competition and supply-side pressure on pricing, with prices for technical-grade lithium carbonate potentially falling back to around US$5,000/t CIF in 2014.

Lithium: Market Outlook to 2017 (12th edition)is available at a price of £4900 / US$7900 / €6200 from Roskill Information Services Ltd, 54 Russell Road, London SW19 1QL ENGLAND.

Tel: +44-(0)20-8417-0087. Fax +44-(0)20-8417-1308.

Email: info@roskill.co.uk Web: http://www.roskill.com/lithium

Note to editors

The report contains 426 pages, 245 tables and 99 figures. It provides a detailed review of the industry, with subsections on the activities of the leading producing companies. It also analyses consumption, trade and prices.

Table of Contents

Page

1.         Summary    1

2.         Lithium Mineralogy, Occurrences and Reserves    10

2.1        Occurrence of lithium    10

2.1.1      Lithium minerals    10

2.1.2      Lithium clays    12

2.1.3      Lithium brines    12

2.2        Lithium reserves    14

3.         Lithium mining and processing    16

3.1        Extraction and processing of lithium brines    17

3.1.1      Other methods of brine extraction    20

3.2        Mining and processing of lithium minerals    21

3.3        Processing lithium mineral concentrates to lithium compounds    23

3.4        Processing lithium bearing clays into lithium compounds    26

3.5        Lithium compounds and chemicals    27

3.6        Production costs    30

4.         Production of lithium    34

4.1        Lithium production by source    35

4.1.1      Production of Lithium Minerals    37

4.1.2      Production from Lithium Brines    39

4.1.3      Production of lithium compounds from mineral conversion    41

4.1.4      Production of downstream lithium chemicals    43

4.2        Outlook for production capacity of lithium to 2017    44

4.2.1      Outlook for production capacity of lithium minerals    45

4.2.2      Outlook for lithium production capacity from brines    48

4.2.3      Outlook on lithium compound production from mineral conversion    51

4.3        Forecast production of lithium to 2017    52

5.         Review of lithium producing countries    55

5.1        Afghanistan 55

5.2        Argentina 56

5.2.1      FMC Litihum (MineradelAltiplano S.A.)    58

5.2.2      ADY Resources    59

5.2.3      Lithium Americas    61

5.2.4      Galaxy Resources (Lithium 1)    66

5.2.4.1    Sal de Vida Project    66

5.2.4.2    James Bay Hard-rock Lithium Project    68

5.2.5      Orocobre Ltd.    69

5.2.5.1    Salar de Olaroz    71

5.2.5.2    Salinas Grandes (Cangrejillo)    74

5.2.5.3    Guayatoyoc Project    74

5.2.5.4    Cauchari Project    75

5.2.6      Rodinia Lithium Inc.    76

5.2.6.1    Rodinia Lithium USA 78

5.2.7      Marifil Mines Ltd.    78

5.2.8      International Lithium Corporation    79

5.2.9      Other prospects for Lithium Production    79

5.3        Australia 80

5.3.1      Talison Lithium    82

5.3.1.1    Resources and Reserves    82

5.3.1.2    Production    85

5.3.1.3    Products    86

5.3.2      Galaxy Resources Ltd.    87

5.3.2.1    Reserves and Resources    88

5.3.2.2    Production    90

5.3.3      Reed Resources Ltd.    91

5.3.4      Altura Mining Ltd.    92

5.3.5      Artemis Resources    93

5.3.6      Amerilithium    93

5.3.7      Reward Minerals    93

5.4        Austria 93

5.5        Belgium 94

5.6        Bolivia 96

5.6.1      Salar de Uyuni 97

5.6.2      Salar de Coipasa    99

5.6.3      New World Resource Corp.    99

5.7        Brazil 100

5.7.1      CompanhiaBrasileira de Litio    102

5.7.2      Arqueana de Minérios e Metais Ltda.    103

5.7.3      Advance Metallurgical Group (AMG)    104

5.8        Canada 104

5.8.1      Lithium resources in Canada 105

5.8.2      Canadian trade in lithium    107

5.8.3      Past producers of lithium in Canada 108

5.8.3.1    Tantalum Mining Corp. of Canada Ltd. (TANCO)    108

5.8.4      Potential new producers of lithium in Canada 109

5.8.4.1    Canada Lithium Corp.    109

5.8.4.2    Nemaska Lithium    112

5.8.4.3    Avalon Rare Metals Inc.    115

5.8.4.4    Perilya Limited    116

5.8.4.5    Rock Tech Lithium Inc.    117

5.8.4.6    Critical Elements Corporation    120

5.8.4.7    Glen Eagle Resources Inc.    120

5.8.4.8    Aben Resources Ltd.    121

5.8.4.9    Toxco Inc. Canada 122

5.8.4.10   Other Canadian Lithium Projects    122

5.9        Chile 126

5.9.1      Chilean lithium reserves    127

5.9.2      Chilean lithium production    127

5.9.3      Special Lithium Operations Contracts (CEOLs)    128

5.9.4      SociedadQuímica y Minera    129

5.9.4.1    Reserves and Resources    130

5.9.4.2    Production    131

5.9.4.3    Products    132

5.9.4.4    Markets    134

5.9.4.5    Exports    135

5.9.5      Rockwood Litihum (Salar de Atacama and La Negra Plant)    136

5.9.6      Simbalik Group    138

5.9.7      Li3 Energy Inc.    139

5.9.7.1    Maricunga Property    139

5.9.7.2    Li3 Energy Peruvian Projects    141

5.9.8      First Potash Corp.    141

5.9.9      CODELCO    142

5.9.10 Mammoth Energy Group Inc.    142

5.9.11 Lomiko Metals Inc.    143

5.9.12 Errázuriz Lithium    143

5.9.13 Exports of litihum from Chile 143

5.10       China 146

5.10.1     Chinese reserves of lithium    147

5.10.1.1   Lithium Mineral Reserves    147

5.10.1.2   Lithium Brine Reserves    148

5.10.2     Production of lithium    149

5.10.2.1   Mineral Production    150

5.10.2.2   Brine Production    151

5.10.2.3   Lithium Chemicals and Metal Production    152

5.10.3     Chinese trade in lithium    155

5.10.4     Chinese lithium brine producers    157

5.10.4.1   Tibet Lithium New Technology Development Co. Ltd.    157

5.10.4.2   Qinghai CITIC Guoan Technology Development Co. Ltd.    159

5.10.4.3   Qinghai Salt Lake Industry Co. Ltd.    160

5.10.4.4   Qinghai Lanke Lithium Industry Co. Ltd.    161

5.10.4.5   Tibet Sunrise Mining Development Ltd.    162

5.10.4.6   China MinMetals Non-Ferrous Metals Co. Ltd    163

5.10.5     Chinese lithium mineral producers    163

5.10.5.1   Fujian Huamin Import & Export Co. Ltd.    163

5.10.5.2   YichunHuili Industrial Co. Ltd.    164

5.10.5.3   GanZiRongda Lithium Co., Ltd.    164

5.10.5.4   Sichuan HidiliDexin Mineral Industry    165

5.10.5.5   Xinjiang Non-Ferrous Metals (Group) Ltd.    166

5.10.6     Chinese lithium mineral producers with mineral conversion capacity    166

5.10.6.1   Jiangxi Western Resources Lithium Industry    166

5.10.6.2   Sichuan Aba Guangsheng Lithium Co. Ltd.    167

5.10.6.3   Minfeng Lithium Co. Ltd.    167

5.10.6.4   Sichuan Ni&CoGuorun New Materials Co. Ltd.    168

5.10.7     Chinese mineral conversion plants    169

5.10.7.1   Sichuan Tianqi Lithium Shareholding Co. Ltd.    169

5.10.7.2   Galaxy Resources (Jiangsu Lithium Carbonate Plant)    171

5.10.7.3   General Lithium (Haimen) Corp.    172

5.10.7.4   China Non-Ferrous Metal Import & Export Xinjiang Corp.    173

5.10.7.5   Sichuan State Lithium Materials Co. Ltd.    174

5.10.7.6   Jiangxi Ganfeng Lithium Co. Ltd.    174

5.10.7.7   Sichuan Chenghehua Lithium Technology Co. Ltd.    176

5.10.8     Chinese lithium chemical producers    176

5.10.9     Specialist lithium bromide producers    177

5.10.10 Specialist lithium metal producers    178

5.11       Czech Republic 179

5.12       Democratic Republic of Congo (DRC)    179

5.13       Finland 180

5.13.1     KeliberOy    180

5.13.2     Nortec Minerals Corp.    181

5.13.3     Leviäkangas Deposit    182

5.13.4     Syväjärvi Deposit    182

5.14       France 182

5.15       Germany 184

5.15.1     Rockwood Lithium (Langelsheim Plant)    185

5.15.2     Helm AG    185

5.15.3     Lithium exploration in Germany 185

5.16       Greece 186

5.17       India 186

5.17.1     FMC India Private Ltd.    188

5.17.2     Rockwood Lithium    188

5.18       Ireland 189

5.19       Israel 189

5.20       Japan 190

5.21       Kazakhstan 192

5.22       Mali 193

5.23       Mexico 193

5.23.1     LitioMex S.A. de C.V. (PieroSutti S.A. de C.V.)    193

5.23.2     First Potash Corp. (Mexico)    195

5.23.3     Bacanora Minerals Ltd.    195

5.24       Mongolia 196

5.25       Mozambique 196

5.26       Namibia 197

5.27       Netherlands 198

5.28       Portugal 199

5.28.1     SociedadMineira de Pegmatites    200

5.29       Russia 200

5.29.1     Russian Lithium Reserves and Resources    201

5.29.2     Russian Lithium Production    202

5.29.2.1   JSC Chemical and Metallurgical Plant    202

5.29.2.2   JSC Novosibirsk Chemical Concentration Plant    203

5.29.3     Russian Imports and Exports of Lithium    204

5.30       Serbia    205

5.31       South Africa 206

5.32       South Korea 206

5.33       Spain 207

5.33.1     Minera Del Duero 208

5.33.2     Solid Resources Ltd.    209

5.34       Taiwan 209

5.35       Tajikistan 210

5.36       Turkey 210

5.37       UK    211

5.38       Ukraine 212

5.39       USA 212

5.39.1     Trade in lithium to/from the USA 213

5.39.2     Rockwood Lithium (Chemetall Group)    214

5.39.2.1   Silver Peak, Kings Mountain and New Johnsonville operations (USA)    215

5.39.3     FMC Corporation    216

5.39.3.1   FMC Lithium    217

5.39.3.2   Other FMC Corporation facilities    218

5.39.4     Western Lithium Corporation    219

5.39.5     Simbol Materials Corp.    222

5.39.6     Albemarle Corporation    223

5.39.7     Toxco Inc.    223

5.39.8     AusAmerican Mining Corp. Ltd.    223

5.39.9     Other USA Companies    224

5.40       Uzbekistan 226

5.41       Zimbabwe 226

5.41.1     Bikita Minerals Ltd    227

5.41.2     Zimbabwe Mining Development Corporation    228

5.41.3     Premier African Minerals    228

5.41.4     Cape Range Ltd.    229

6.         International trade in lithium    230

6.1        Trade in lithium carbonate    230

6.2        Trade in lithium hydroxide and oxides    233

6.3        Trade in lithium chloride    236

6.4        Trade in mineral concentrates    237

6.5        Trade in lithium brines    238

7.         Consumption of lithium    239

7.1        Consumption of lithium by end-use    239

7.2        Consumption of lithium by country/region    243

7.3        Consumption of lithium by product    245

7.4        Outlook for consumption of lithium by end-use    247

7.5        Outlook for lithium consumption by product    251

8.         Use of lithium in rechargeable batteries    253

8.1        Types of rechargeable batteries    253

8.1.1      Lithium-ion batteries    254

8.1.2      Lithium metal polymer batteries    256

8.1.3      Lithium-sulphur batteries    256

8.1.4      Lithium-air batteries    258

8.1.5      NiMH and NiCd batteries    258

8.2        Production of rechargeable batteries    258

8.2.1      Producers of rechargeable lithium batteries    261

8.2.2      Producers of nickel metal hydride batteries    262

8.3        Production of rechargeable lithium battery materials    262

8.3.1      Producers of rechargeable lithium battery materials    264

8.3.1.1    Cathode materials    264

8.3.1.2    Electrolyte salts    267

8.3.1.3    Anode materials    268

8.4        Consumption of rechargeable lithium batteries    268

8.4.1      Computing, communication and consumer (3C) market    269

8.4.2      Power devices and motive power    270

8.4.3      Heavy duty applications    272

8.4.4      Transportation    272

8.5        Consumption of NiMH and NiCd batteries    274

8.6        Consumption of lithium in rechargeable batteries    274

8.7        Outlook for demand for rechargeable batteries    278

8.8        Outlook for consumption of lithium in rechargeable batteries    281

9.         Use of lithium in ceramics    284

9.1        Use of lithium in ceramics    284

9.2        Production and consumption of ceramics    286

9.2.1      Ceramic tiles    287

9.2.1.1    Producers of ceramic tiles    289

9.2.2      Sanitaryware    291

9.2.2.1    Producers of sanitaryware    291

9.2.3      Tableware    293

9.2.3.1    Producers of tableware    294

9.2.4      Cookware and bakeware    295

9.3        Production and consumption of glazes and enamels    295

9.3.1      Producers of glazes and enamels    297

9.4        Outlook for ceramics production and consumption    298

9.5        Consumption of lithium in ceramics    299

9.5.1      Outlook for lithium demand in ceramics    300

10.        Use of lithium in glass-ceramics    302

10.1       Use of lithium in glass-ceramics    302

10.2       Production and consumption of glass-ceramics    304

10.2.1     Producers of glass-ceramics    305

10.3       Consumption of lithium in glass-ceramics    306

11.        Use of lithium in lubricating grease    309

11.1       Types of lubricating grease    309

11.2       Production of grease    311

11.2.1     Producers of lithium grease    314

11.3       Consumption of lithium greases    317

11.4       Consumption of lithium in greases    320

11.4.1     Outlook for demand for lithium in greases    321

12.        Use of lithium in glass    323

12.1       Use of lithium in glass    323

12.2       Production and consumption of glass    325

12.2.1     Container glass    326

12.2.2     Fibreglass    329

12.2.3     Speciality glass    330

12.3       Consumption of lithium in glass    330

12.3.1     Outlook for demand for lithium in glass    331

13.        Use of lithium in metallurgical powders    333

13.1       Continuous casting    333

13.1.1     Producers of continuous casting mould powders    334

13.1.2     Continually cast steel production    334

13.1.3     Consumption of continuous casting mould powders    335

13.1.4     Consumption of lithium in continuous casting mould powders    335

13.2       Traditional metal casting    337

13.3       Outlook for demand for lithium in casting powders    337

14.        Use of lithium in polymers    338

14.1       Types of polymers    338

14.2       Production of polymers    340

14.2.1     Producers of polymers    342

14.3       Consumption of polymers    344

14.4       Consumption of lithium in polymers    348

14.4.1     Outlook for lithium demand in polymers    348

15.        Use of lithium in air treatment    350

15.1       Absorption chillers    350

15.1.1     Production of absorption chillers    351

15.1.2     Producers of adsorption chillers    352

15.1.3     Producers of lithium bromide for absorption chillers    354

15.1.4     Consumption of lithium in absorption chillers    356

15.2       Dehumidification    357

15.2.1     Production of desiccant dehumidification systems    358

15.2.2     Producers of desiccant dehumidification systems    358

15.2.3     Consumption of lithium in desiccant dehumidifiers    359

15.3       Air purification    359

15.5       Outlook for demand for lithium in air treatment    360

16.        Use of lithium in primary batteries    362

16.1       Types of primary batteries    362

16.2       Production of lithium primary batteries    365

16.2.1     Producers of lithium primary batteries    367

16.3       Trade in primary batteries    369

16.4       Production of primary lithium battery materials    370

16.4.1     Producers of lithium primary battery anodes    371

16.5       Consumption of lithium primary batteries    373

16.5.1     Outlook for primary lithium battery consumption    374

16.6       Consumption of lithium in primary batteries    374

16.6.1     Outlook for demand for lithium in primary batteries    377

17.        Use of lithium in aluminium smelting    378

17.1       Process of aluminium smelting    378

17.2       Consumers of lithium in aluminium smelting    380

17.3       Consumption of lithium in aluminium smelting    382

17.3.1     Outlook for lithium demand in aluminium smelting    383

18.        Minor end-uses for lithium    385

18.1       Sanitization    385

18.2       Organic synthesis    386

18.3       Construction    388

18.4       Alkyd resins    388

18.5       Alloys    391

18.5.1     Aluminium-lithium alloy    391

18.5.1.1   Producers of aluminium-lithium alloys    394

18.5.1.2   Applications for aluminium-lithium alloys    395

18.5.1.3   Consumption of lithium in aluminium-lithium alloys    398

18.5.1.4   Outlook for demand for lithium in aluminium-lithium alloys    398

18.5.2     Magnesium-lithium alloy    400

18.6       Electronics    400

18.7       Analytical agents    402

18.8       Dyestuffs    402

18.9       Metallurgy    402

18.10      Photographic industry    402

18.11      Welding fluxes    402

18.12      Electrochromic glass    403

18.13      Pharmaceuticals    403

18.13.1    Producers of lithium-based pharmaceuticals    404

18.13.2    Production and consumption of lithium-based pharmaceuticals    404

18.13.3    Consumption of lithium in pharmaceuticals    405

18.14      Speciality lithium inorganics    405

19.        Prices of lithium    408

19.1       Technical-grade lithium mineral prices    409

19.2       Chemical-grade spodumene prices    412

19.3       Technical-grade lithium carbonate prices    413

19.4       Battery-grade lithium carbonate    415

19.5       Technical-grade lithium hydroxide prices    416

19.6       Battery-grade lithium hydroxide prices    418

19.7       Lithium chloride prices    419

19.8       Lithium metal prices    420

19.9       Outlook for lithium prices    421

19.9.1     Technical-grade lithium carbonate prices    421

19.9.2     Battery-grade lithium carbonate prices    424

19.9.3     Technical-grade lithium mineral prices    425

19.9.4     Chemical-grade spodumene prices    425

19.9.5     Lithium hydroxide prices    426

List of Tables

Page

Table 1: World: Forecast nominal and real prices for technical-grade lithium carbonate, 2012 to 2017     8

Table 2: Properties of lithium    10

Table 3: Significant lithium minerals    11

Table 4: Major lithium bearing smectite group members    12

Table 5: Brine concentrations at selected deposits    13

Table 6: Lithium reserves by country     15

Table 7: Composition of standard lithium concentrates     22

Table 8: Specifications for lithium carbonate produced by SQM and Rockwood Lithium     28

Table 9: Specifications for lithium carbonate produced by other suppliers     28

Table 10: Battery grade lithium hydroxide product specifications of major producers      29

Table 11: Production of lithium by country and company, 2005 to 2012     35

Table 12: Capacity and production of lithium minerals by company, 2011 to 2012     39

Table 13: Capacity and production of lithium compounds from brine-based producers, 2011 to 2012     40

Table 14: Capacity and production of lithium mineral converters, 2011 to 2012     42

Table 15: Production of lithium compounds from minerals, 2005 to 2012     43

Table 16: Planned expansions as reported by existing lithium mineral producers to 2017     46

Table 17: Potential lithium mineral producers to 2017     47

Table 18: Planned expansions by existing lithium brine producers to 2017     49

Table 19: Potential new lithium brine projects to 2017     50

Table 20: Planned expansions to production capacity for existing and potential mineral conversion plants     51

Table 21: Afghanistan: Spodumene bearing pegmatites identified in Nuristan, Badakhshan, Nangarhar, Lagman and Uruzgan provinces    55

Table 22: Argentina: Exports of lithium carbonate, 2004 to 2012     57

Table 23: Argentina: Exports of lithium chloride, 2004 to 2012     58

Table 24:FMC: Brine reserves at the Salar del Hombre Muerto    58

Table 25: FMC: Production and value of lithium carbonate and chloride at the Salta plant, Argentina 2005 to 2012     59

Table 26: ADY Resources: Salar del Rincón reserve estimation, 2007    60

Table 27: Lithium Americas: Lithium and potash resource estimation for the Cauchari-Olaroz property, July 2012 61

Table 28: Lithium Americas: Lithium and potash reserve estimation for the Cauchari-Olaroz property, July 2012 61

Table 29: Lithium Americas: Estimated capital costs for Lithium carbonate production at the Cauchari-Olaroz project, July 2012 63

Table 30: Lithium Americas: Estimated operating costs for Cauchari-Olaroz project, July 2012 65

Table 31: Galaxy Resources: Resource estimation for the Sal de Vida project, January 2012 66

Table 32: Galaxy Resources: Reserve estimate for the Sal de Vida project, April 2013 67

Table 33: Galaxy Resources: Estimated capital costs for Sal de Vida project, October 2011 68

Table 34: Orocobre: Agreements between Borax Argentina and other lithium companies    70

Table 35: Orocobre: Resource estimation for the Salar de Olaroz project, May 2011 71

Table 36: Orocobre: Assay results of first battery grade lithium carbonate product from the Orocobre pilot plant    72

Table 37: Orocobre: Capital costs for 16,400tpy LCE operation at the Salar de Olaroz, May 2011 73

Table 38: Orocobre: Operating costs for battery grade lithium carbonate for the Salar de Olaroz, May 2011 73

Table 39: Orocobre: Resource estimation for the Salinas Grande project, April 2012 74

Table 40: Orocobre: Averaged assay results from pit sampling of brine at the Guayatoyoc project    75

Table 41: Orocobre: Maiden resource estimation for the Salar de Cauchari project, October 2012 75

Table 42: Rodinia Lithium: Salar de Diablillos resource estimation, March 2011 76

Table 43: Rodinia Lithium: Estimated capital costs for the Salar de Diablillos project    77

Table 44: Rodinia Lithium: Estimated operating costs for the Salar de Diablillos project    77

Table 45: Rodinia Lithium: Other Argentine lithium projects    78

Table 46: Australia: Exports of mineral substances NES (excl. natural micaceous iron oxides) 2005 to 2012     81

Table 47: Australia: Unit value of mineral substances NES (excl. natural micaeous iron oxides) 2005 to 2011     81

Table 48: Talison Lithium: Resource estimation for the Greenbushes deposit, December 2012 83

Table 49: Talison Lithium: Lithium mineral reserve estimation for the Greenbushes deposit,  December 2012    83

Table 50: Talison Lithium: Li, K and Na content of brines, Salares 7 project saline lakes 1998, (ppm)    84

Table 51: Talison Lithium: Li, K and Na content of brines, Salares 7 project saline lakes 2009, (ppm)    84

Table 52: Talison Lithium: Production and sales of lithium mineral concentrates and ores, 2005 to 2011     85

Table 53: Talison Lithium: Standard lithium mineral concentrate product specifications    87

Table 54: Galaxy Resources: Mount Cattlin mineral resource estimate, February 2011 89

Table 55: Galaxy Resources: Mount Cattlin mineral reserve estimate, December 2011 89

Table 56: Galaxy Resources: James Bay mineral resource estimate, November 2010 89

Table 57: Galaxy Resources: Mt. Cattlin mine and plant production, Q3 2010 – Q4 2011    90

Table 58: Reed Resources : Mt Marion resource estimation, July 2011 91

Table 59: Altura: Mineral resource estimation for the Pilgangoora lithium project, October 2012 92

Table 60: Belgium: Trade is lithium carbonate, 2005 to 2012     95

Table 61: Belgium: Trade in lithium hydroxide and oxide, 2005 to 2012     96

Table 62: Salars and Lagunas in Bolivia identified by Gerencia Nacional de Recursos Evaporíticos    97

Table 63: Results of sampling campaign by Université de Liegé and Universidad Tecnica de Oruro at the Salar de Coipasa, 2002    99

Table 64: Assay data for brines intercepted during drilling at the Pastos Grandes Salar, August 2011 100

Table 65: Brazil: Lithium resource estimation by mineral type, 2009    101

Table 66: Brazil: Trade in lithium chemicals and concentrates, 2004 to 2011     102

Table 67: CBL: Production of lithium concentrates and lithium salts, 2005 to 2011    102

Table 68: Arqueana: Production of lithium concentrates, 2008 to 2011    103

Table 69: Canada: Resources estimations for Canadian lithium projects    106

Table 70: Canada: Imports and exports of lithium compounds 2005 to 2012     108

Table 71: TANCO: Spodumene concentrate production 2005 to 2011     109

Table 72: Canada Lithium: Resource estimation for the Quebec Lithium project, December 2011 109

Table 73: Canada Lithium: Reserve estimation for the Quebec Lithium project, December 2011 110

Table 74: Canada Lithium: Estimated capital expenditure for Quebec Lithium project (inc.LiOH and Na2SO4 plant costs), October 2012 111

Table 75 :Canada Lithium: Estimated operating expenditure for Quebec Lithium project, October 2012 111

Table 76: Nemaska Lithium: Resource estimation for the Whabouchi project, June 2011 113

Table 77: Nemaska Lithium: Reserve estimation for the Whabouchi project, October 2012 113

Table 78: Avalon Rare Metals: Separation Rapids NI 43-101 resource and reserve estimation, 1999    116

Table 79: Perilya Ltd: Mineral resource estimation for Moblan deposit, May 2011 117

Table 80: Rock Tech Lithium: Structure of the Georgia Lake project, November 2011 118

Table 81: Rock Tech Lithium: Updated mineral resource estimation for Georgia Lake project, July 2012 119

Table 82: Glen Eagle: Resource estimation for Authier lithium property, January 2012 121

Table 83: Canada: Lithium exploration projects in Canada with uncompleted scoping studies or PFS in October 2012 122

Table 84: Chile: Lithium carbonate, chloride and hydroxide production, 2004 to 2011     128

Table 85: Chile: Special operating licence bidders for the September 2012 auction    129

Table 86: SQM: Majority shareholders of SQM as of December 31st 2011    130

Table 87: SQM: Reserves within brines at the Salar de Atacama project    131

Table 88: SQM: Production, revenue and value per tonne of lithium compounds, 2003 to 2012    132

Table 89: SQM: Specifications for lithium carbonate     133

Table 90: SQM: Specifications for lithium hydroxide     134

Table 91: RWL: Gross tonnage, value and unit value of lithium carbonate exports, 2006 to 2012    137

Table 92: RWL: Gross tonnage, value and unit value of lithium chloride exports, 2006 to 2012    138

Table 93: Li3 Energy: Resource estimation for the Maricunga property, April 2012 140

Table 94: Chile: Exports of lithium carbonate by destination, 2004 to 2011    144

Table 95: Chile: Lithium carbonate export volume, value and unit price by company, 2005 to 2011    144

Table 96: Chile: Lithium chloride exports by destination, 2004 to 2012    145

Table 97: Chile: Lithium hydroxide exports by destination, 2004 to 2012    146

Table 98: China : Estimated resources and reserves of both lithium mineral and brine operations and projects    148

Table 99: China: Production of lithium, 2003 to 2012    149

Table 100: China: Producers of lithium minerals, 2011 to 2012    151

Table 101: China: Production and capacity of Chinese lithium brine operations, 2011    152

Table 102: China: Mineral conversion plant production and production capacity, 2012    154

Table 103: China: Producers of battery grade lithium metal, 2012    154

Table 104: China: Imports and exports of lithium carbonate, 2005 to 2012     155

Table 105: China: Imports and exports of lithium chloride, 2005 to 2012     156

Table 106: China: Imports and exports of lithium hydroxide, 2005 to 2012     157

Table 107: China: Imports and exports of lithium oxide, 2005 to 2012     157

Table 108: Tibet Lithium New Technology Development: Lithium production, 2010 to 2012    158

Table 109: Qinghai CITIC: Lithium carbonate production, 2008 to 2012     160

Table 110:  Dangxiongcuo reserve estimation from 2006 qualifying report    163

Table 111: Jiangxi Western Resources: Lithium Production, 2010    167

Table 112: Sichuan Tianqi: Production and sales of lithium products, 2010 to 2011     169

Table 113: Galaxy Resources: Battery grade lithium carbonate chemical specifications    172

Table 114: KeliberOy: Claims, reservation and mining concessions for lithium projects held by Keliber in Finland, 2012    181

Table 115: France: Imports and exports of lithium carbonate, 2005 to 2012     183

Table 116: France: Imports and exports of lithium hydroxide and oxide, 2005 to 2012     184

Table 117: Germany: Imports and exports of lithium carbonate, 2005 to 2012     184

Table 118: India: Trade in lithium hydroxide and oxides, 2005 to 2012     187

Table 119: India: Trade in lithium carbonate, 2005 to 2012     187

Table 120: India: Producers of lithium chemicals    188

Table 121: Japan: Trade in lithium carbonate, 2005 to 2012     190

Table 122: Japan: Trade in lithium hydroxide and oxide, 2005 to 2012     191

Table 123: Mexico: LitioMex S.A. concessions and resource estimations    194

Table 124: Namibia: Production of lithium minerals, 1990 to 1998     197

Table 125: Netherlands: Trade in lithium carbonate, 2005 to 2012     198

Table 126: Netherlands: Trade in lithium hydroxide and oxide, 2005 to 2012     199

Table 127: SociedadMineira de Pegmatites: Production of Lithium, 2004 to 2012     200

Table 128: Russia: Deposits of lithium    201

Table 129: Russia: Imports of lithium carbonate, 2002 to 2012     204

Table 130: Russia: Exports of lithium hydroxide, 2002 to 2012     204

Table 131: Russia: Imports of lithium hydroxide, 2002 to 2012     205

Table 132: South Korea: Trade in lithium carbonate, 2005 to 2012     207

Table 133: South Korea: Trade in lithium hydroxide, 2005 to 2012     207

Table 134: Spain: Imports of lithium compounds, 2005 to 2012     208

Table 135: Minera Del Duero: Production of lepidolite in Spain, 2003 to 2011     208

Table 136: Inferred mineral resource estimation for the Doade-Presquerias project, October 2011 209

Table 137: Taiwan: Imports of lithium carbonate, 2005 to 2012     210

Table 138: UK: Imports of lithium carbonate and lithium hydroxides and oxides 2005 to 2012     211

Table 139: USA: Imports and exports of lithium carbonate 2005 to 2012     213

Table 140: USA: Imports and exports of lithium oxide and hydroxide 2005 to 2012     214

Table 141: FMC: Product range    218

Table 142: WLC: Resource estimation for the Kings Valley project, January 2012 219

Table 143: WLC: Reserve estimation for the Kings Valley project, December 2011 220

Table 144: WLC: Estimated operating and capital costs for ‘Case 1’ and ‘Case 2’ scenarios at the Kings Valley project.    221

Table 145: USA: Lithium exploration projects yet to reach scoping study or PFS stage in development    224

Table 146: Zimbabwe: South African imports of mineral substances from Zimbabwe, 2005 to 2012     227

Table 147: Bikita Minerals: Mine production and lithium content 2003 to 2011    228

Table 148: World: Total exports of lithium carbonate, 2005 to 2012     230

Table 149: World: Total imports of lithium carbonate, 2005 to 2012     232

Table 150: World: Total exports of lithium hydroxide and oxide, 2005 to 2012     234

Table 151: World: Total imports of lithium hydroxide and oxide, 2005 to 2012     236

Table 152: World: Major importers and exporters of lithium chloride, 2005 to 2012     237

Table 153: World: Exports of lithium minerals by major lithium mineral producing nations (excl. China), 2005 to 2012     238

Table 154: Chile: Exports of lithium chloride brine1 by SQM to China, 2005 to 2012     238

Table 155: World: Consumption of lithium by end-use, 2002, 2007 and 2012    240

Table 156: World: Estimated consumption of lithium by country/region, 2002, 2007 and 2012     244

Table 157: World: Consumption of lithium by end-use, by product, 2012    246

Table 158: World: Forecast consumption of lithium by end-use, 2012 to 2017     248

Table 159: Japan: Producers of lithium-ion battery cathode materials, 2012    265

Table 160: South Korea: Producers of lithium-ion battery cathode materials, 2012    265

Table 161: China: Producers of lithium-ion battery cathode materials, 2012    266

Table 162: World: Producers of lithium salts for electrolytes, 2012    267

Table 163: World: Lithium battery consumption in 3C products, 2012    269

Table 164: World: Lithium battery consumption in power devices and motive power, 2012    271

Table 165: World: Lithium battery consumption in heavy duty applications, 2012    272

Table 166: World: Lithium battery consumption in transport applications, 2012    274

Table 167: World: Lithium consumption in rechargeable lithium batteries end-use, 2012    275

Table 168: World: Lithium consumption in NiMH and NiCd batteries, 2012    275

Table 169: World: Consumption of lithium in rechargeable batteries by type, 2007 to 2012     277

Table 170: Japan: Consumption of lithium in rechargeable batteries, 2007 to 2012     277

Table 171: World: Consumption of lithium in rechargeable batteries by country, 2007 to 2012     278

Table 172: World: Rechargeable lithium battery demand by market, 2012 and 2017    278

Table 173: World: Comparison of EV production estimates in 2017 by industry consultant    280

Table 174: World: Forecast rechargeable battery consumption in EVs, 2017    281

Table 175: World: Lithium consumption in rechargeable lithium batteries by end-use, 2017    281

Table 176: World: Forecast demand for lithium in rechargeable lithium batteries, 2012 to 2017     282

Table 177: World: Forecast demand for lithium in rechargeable batteries by battery type, 2012 to 2017     282

Table 178: World: Forecast demand for lithium in rechargeable batteries by product type, 2007 to 2012     283

Table 179: Typical whiteware body compositions     285

Table 180: World: Production of ceramic tiles by leading country, 2007 to 2012     287

Table 181: World: Consumption of ceramic tiles by leading countries, 2007 to 2011     289

Table 182: World: Leading ceramic tile manufacturing companies, 2010    290

Table 183: World: Leading sanitaryware manufacturing companies, 2010    292

Table 184: World: Consumption of lithium in ceramics, 2012    300

Table 185: World: Consumption of lithium in ceramics, 2007 to 2012     300

Table 186: World: Forecast demand for lithium in ceramics, 2012 to 2017     301

Table 187: Glass-ceramic matrices    302

Table 188: Compositions of commercial glass-ceramics    303

Table 189: Japan: Consumption of lithium carbonate in glass-ceramics, 2007 to 2012     306

Table 190: World: Consumption of lithium in glass-ceramics by end-use and product type, 2012     307

Table 191: World: Consumption of lithium in glass-ceramics, 2007 to 2012     307

Table 192: World: Forecast demand for lithium in glass-ceramics, 2012 to 2017     308

Table 193: Properties of commercial greases    311

Table 194: World: Producers of lubricating grease    315

Table 195: World: Forecast demand for lithium in greases, 2012 to 2017    322

Table 196: Typical batch compositions for glass by type     323

Table 197: Main sources of lithium used in glass    324

Table 198: EU: Production of glass by type, 1998 to 2012     328

Table 199: USA: Production of container glass, 1999 to 2008    328

Table 200: Typical chemical composition of types of textile-grade fibreglass     329

Table 201: World: Estimated consumption of lithium in glass, 2012     331

Table 202: World: Consumption of lithium in glass, 2007 to 2012     331

Table 203: World: Forecast demand for lithium in glass, 2012 to 2017     332

Table 204: World: Consumption of lithium in continuous casting mould powders, 2007 to 2012     336

Table 205: Japan: Consumption of lithium in fluxes, 2007 to 2012     336

Table 206: World: Forecast demand for lithium in casting powders, 2012 to 2017     337

Table 207: Microstructure of different types of polybutadienes    339

Table 208: World: Producers of SSBR, BR and SBC, 2012    343

Table 209: World: Planned new/expanded SBR, BR and SBC plants    344

Table 210: World: Forecast demand for lithium in synthetic rubber and thermoplastics, 2011 to 2017    349

Table 211: World: Capacity for lithium bromide production, end-2012     355

Table 212: Japan: Consumption of lithium bromide, 2007 to 2012    356

Table 213: World: Forecast demand for lithium in air treatment, 2012 to 2017    361

Table 214: Characteristics of primary lithium batteries    363

Table 215: Japan: Production of primary batteries by type, 1998 to 2012     367

Table 216: World: Trade in lithium primary batteries, 2007 to 2011     369

Table 217: Primary lithium batteries and their material compositions    371

Table 218: Specifications for battery-grade lithium metal     371

Table 219: World: Producers of battery-grade lithium metal, end-2012    372

Table 220: Japan: Consumption of lithium in primary lithium batteries, 2007 to 2012    375

Table 221: Japan: Unit consumption of lithium in primary batteries, 2007 to 2012    375

Table 222: World: Imports of battery-grade lithium metal, 2007 to 2012    376

Table 223: World: Forecast demand for lithium in primary batteries, 2012 to 2017    377

Table 224: Effects of additives and temperatures on properties of molten cryolite    379

Table 225: World: Aluminium smelters using Söderberg technology, end-2012    381

Table 226: World: Forecast demand for lithium in aluminium smelting, 2012 to 2017     384

Table 227: World: Consumption of lithium in other end-uses, 2007, 2012 and 2017     385

Table 228: Examples of uses for lithium in organic synthesis    387

Table 229: Physical properties of Al-Li alloys    392

Table 230: Chemical composition of Al-Li alloys     393

Table 231: Use of Al-Li alloys in selected aircraft    397

Table 232: World: Forecast demand for lithium in aluminium-lithium alloys, 2012 to 2017    399

Table 233: Properties of lithium niobate and lithium tantalite    401

Table 234: Applications for SAW components    401

Table 235: Applications for speciality inorganic lithium compounds    406

Table 236: Prices of lithium minerals, 2000-2013     410

Table 237: Comparison of prices for lithium minerals and carbonate, 2004 to 2012    411

Table 238: Comparison of prices for chemical-grade spodumene concentrate and lithium carbonate, 2004 to 2012    412

Table 239: Comparison of technical- and battery- grade lithium carbonate prices, 2004 to 2012     416

Table 240: Average values of exports/imports of lithium oxides and hydroxides by leading exporting/importing country, 2004 to 2012     417

Table 241: Average values of exports of lithium chloride by leading producing country, 2004 to 2012    420

Table 242: Average values of exports of lithium metal by leading producing country, 2004 to 2012    421

Table 243: World: Forecast nominal and real prices for technical-grade lithium carbonate, 2012 to 2017     423

Table 244: World: Forecast nominal prices for technical-grade lithium carbonate and chemical-grade lithium minerals, 2012 to 2017     425

Table 245: World: Forecast nominal prices for technical-grade lithium carbonate and technical-grade lithium hydroxide, 2012 to 2017     426

List of Figures

Figure 1: Lithium product flow chart and main end-uses, 2012     1

Figure 2: Consumption of lithium by end-use, 2000 to 2012     2

Figure 3: Production of lithium by country, 2000 to 2012     4

Figure 4: Price history of lithium carbonate, 1990 to 2012    6

Figure 5: World: Forecast real prices for technical-grade lithium carbonate, 2012 to 2017     9

Figure 6: Overview of lithium production    16

Figure 7: Extraction and processing of brines from the Salar de Atacama, Chile and Silver Peak, Nevada by Rockwood Lithium    18

Figure 8: Flow sheet showing the processing of brines at Salar de Carmen by SQM    19

Figure 9: Simplified flow sheet of the Li SX™ method patented by Bateman Lithium Projects    21

Figure 10: Simplified mineral concentrate production flow sheet for a typical hard rock lithium operation    22

Figure 11: Simplified flow sheet for lithium carbonate production from spodumene mineral concentrate using the acid-roast method    24

Figure 12: Simplified flow sheet for lithium hydroxide and lithium hydroxide monohydrate production from spodumene mineral concentrate using the lime-roast method    25

Figure 13: Simplified flow sheet for lithium carbonate production from hectorite clay developed by Western Lithium    27

Figure 14: Mining and milling costs for hard rock lithium mineral operations/projects    31

Figure 15: Lithium carbonate cash operating costs, 2012    32

Figure 16:  Potential new producers production costs    33

Figure 17: World: Production of lithium by country, 2000 to 2012     34

Figure 18: Production of lithium from mineral and brine sources, 2005 to 2012     37

Figure 19: Production of lithium minerals by company, 2012     38

Figure 20: Production of lithium from brines by country, 2005 to 2012     40

Figure 21: Planned production capacity and consumption for lithium, 2012 to 2017     45

Figure 22: Forecast production and consumption of lithium, 2012 to 2017     54

Figure 23: Pilot plant flow sheet developed for Lithium Americas at SGS Mineral Services    62

Figure 24: Brazil: Production of Lithium products 2005 to 2010     101

Figure 25: SQM: Lithium sales by destination 2011, 2009, 2007 and 2005     135

Figure 26: SQM: Destination of lithium carbonate exports, 2006 to 2011     136

Figure 27: China: Location of mineral conversion and lithium chemical/metal plants in China, 2012    153

Figure 28: Japan: Imports of lithium carbonate, hydroxide & oxide and combined LCE, 2005 to 2012     191

Figure 29: World: Leading exporters of lithium carbonate, 2006, 2008, 2010 and 2012    231

Figure 30: World: Leading importers of lithium carbonate, 2006, 2008, 2010 and 2012    233

Figure 31: World: Leading exporters of lithium hydroxide and oxides, 2006, 2008, 2010 and 2012    235

Figure 32: World: Growth in consumption of lithium, 2000 to 2012    239

Figure 33: World: Consumption of lithium by end-use, 2012    240

Figure 34: World: Consumption of lithium by end-use, 2000 to 2012     241

Figure 35: World: Consumption of lithium by end-use, 2000 to 2012     241

Figure 36: World: Estimated consumption of lithium by country/region, 2002, 2007 and 2012     244

Figure 37: World: Consumption of lithium by product, 2012     245

Figure 38: World: Consumption of lithium by type, 2000 to 2012     247

Figure 39: World: Historical and forecast consumption of lithium by end-use, 2007 to 2017     248

Figure 40: World: Forecast consumption of lithium by form, 2007, 2012 and 2017     252

Figure 41: Specific energy and energy density of rechargeable batteries    253

Figure 42: Lithium-ion battery schematic    254

Figure 43: Lithium metal polymer battery schematic    256

Figure 44: Lithium-sulphur cell schematic    257

Figure 45: Lithium-air cell schematic    258

Figure 46: World: Production of rechargeable batteries1, 1995 to 2012     259

Figure 47: World: Production of rechargeable batteries1, 1995 to 2012     260

Figure 48: World: Rechargeable lithium battery production by country, 2000 to 2012     260

Figure 49: Lithium-ion battery materials value chain    263

Figure 50: World: Production of lithium cathode materials by type, 2000 to 2012    264

Figure 51: World: Market for rechargeable lithium batteries by end-use, 2002, 2007 and 2012     268

Figure 52: World: Market for rechargeable lithium batteries by end-use, 2012     269

Figure 53: World: Production of rechargeable batteries and consumption of lithium, 2000 to 2012    276

Figure 54: World: Market for rechargeable lithium batteries by end-use, 2002 to 2017     279

Figure 55: World: Ceramic tile production by region, 2007 and 2012     288

Figure 56: World: Sanitaryware production by region/country, 2010    291

Figure 57: World: Production of tableware by country/region, 2008    293

Figure 58: USA: Shipments of cookware, bakeware and kitchenware, 2001 to 2010    295

Figure 59: World: Shipments of white goods by region, 2000 to 2020    296

Figure 60: World: Year-on-year growth in construction spending and GDP, 2000 to 2017    298

Figure 61: World: Production of lubricating grease by additive type, 2011     312

Figure 62: World: Production of lubricating grease by type, 2000 to 2012    313

Figure 63: World: Production of lithium grease by region/country and by type,  2000 and 2011     314

Figure 64: World: Output of automobiles by region, 2000 to 2012    318

Figure 65: World: Deliveries of commercial aircraft, 2000 to 2012    318

Figure 66: World: Shipbuilding deliveries, 2000 to 2012    319

Figure 67: World: Relative industrial and transport output and lithium grease production, 2002 to 2011    320

Figure 68: World: Production of grease and consumption of lithium, 2000 to 2012    321

Figure 69: World: Estimated production of glass by type, 2012    326

Figure 70: World: Production of container glass by region/country, 2012    326

Figure 71: World: Consumption of glass packaging by region, 2011    327

Figure 72: World: Production of continuously cast steel by region, 1998 to 2012     335

Figure 73: World: Capacity for synthetic rubber production by country/region, 2012    340

Figure 74: World: Capacity for BR, ESBR and SSBR rubber by country/region, end-2011    341

Figure 75: World: SBC capacity by region/country, end-2010    341

Figure 76: World: Production of synthetic rubber by region, 1996 to 2011     342

Figure 77: World: Consumption of synthetic rubber by type, 2012    345

Figure 78: World: consumption of BR by end-use, 2010    346

Figure 79: World: Consumption of SBC by region/country, 2010    347

Figure 80: Consumption of SBC by end-use, 2007    347

Figure 81: World: Production of absorption chillers, 2003 to 2012    352

Figure 82: World: Consumption of lithium bromide in air treatment, 2001 to 2012    356

Figure 83: Specific energy and energy density of primary batteries    362

Figure 84: Primary and secondary battery gravimetric energy density    365

Figure 85: World: Production of primary lithium batteries by country, 1998 to 2012     366

Figure 86: Primary lithium battery schematics    370

Figure 87: World: Demand for lithium metal in primary batteries, 2000 to 2012    376

Figure 88: World: Aluminium output by type and lithium consumption, 2000 to 2012    383

Figure 89: World: Consumption of alkyd-based paints and coatings, 2010    390

Figure 90: Development of Al-Li alloys    392

Figure 91: World: Deliveries of commercial aircraft and lithium consumption, 2007 to 2019    399

Figure 92: Price history of lithium carbonate, 1990 to 2012    408

Figure 93: Compound annual prices of lithium minerals, 2000 to 2013     411

Figure 94: Prices for technical-grade lithium carbonate, 1999 to 2012     414

Figure 95: Prices for battery-grade lithium carbonate, 1999 to 2012     415

Figure 96: Comparison of lithium hydroxide and lithium carbonate prices, 2000 to 2012     418

Figure 97: Japan: Quarterly average import value of lithium hydroxide from the USA, 2008 to 2012     419

Figure 98: World: Forecast nominal prices for technical-grade lithium carbonate, 2012 to 2017     423

Figure 99: World: Forecast real prices for technical-grade lithium carbonate, 2012 to 2017     424

For further information on this report, please contact Robert Baylis (rbaylis@roskill.co.uk).

SOURCE Roskill Information Services

 

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A.M. Best Revises Outlook of the Issuer Credit Rating to Positive for Dubai Insurance Company PSC

Posted on 18 May 2013 by Africa Business

A.M. Best Europe – Rating Services Limited is a subsidiary of A.M. Best Company. A.M. Best Company is the world’s oldest and most authoritative insurance rating and information source.

 

LONDON —A.M. Best Europe – Rating Services Limited has revised the outlook to positive from stable and affirmed the issuer credit rating (ICR) of “bbb” and the financial strength rating (FSR) of B++ (Good) of Dubai Insurance Company PSC (DIC) (United Arab Emirates). The outlook for the FSR is stable.

The ICR positive outlook reflects DIC’s strong record of operating results, improved franchise and developing enterprise risk management (ERM). The ratings of DIC also reflect its very strong risk-adjusted capitalisation and a reinsurance programme of good quality. Offsetting these positive ratings factors are DIC’s investment concentrations.

DIC is likely to maintain a very strong risk-adjusted capitalisation over the medium term. The company’s capital base is supported by a low level of premium retention and a strong reinsurance panel. A high concentration of equity securities, particularly within the local banking sector, is of some concern and gives rise to volatility in DIC’s capital position. However, DIC’s capital position is sufficiently strong to absorb this volatility.

Despite competitive pressures in the UAE market, DIC has continued its strong growth levels with 21% achieved in 2012—well ahead of the market. DIC’s growth in recent years has improved its franchise and propelled the company to a top 10 position. However, its portfolio is indicative of the market biased towards medical and motor business on a net basis. Furthermore, underwriting performance remains strong with a good record of underwriting profitability. DIC’s combined ratio improved to 78% in 2012.

DIC’s level of ERM is considered to be improving. DIC has developed a better understanding of its risks and is integrating a capital model into its strategic planning process. There remains a disconnect between underwriting and investment risk as DIC’s investments remain concentrated in UAE banking equities. DIC has taken steps in diversifying its profile through surplus funds being conservatively invested.

Positive rating pressures can arise through embedding and integration of ERM and the maintenance of underwriting and operational performance. Considerable deterioration in its operating performance or a failure to embed improvements in ERM could add negative pressure to the current ratings.

The methodology used in determining these ratings is Best’s Credit Rating Methodology, which provides a comprehensive explanation of A.M. Best’s rating process and contains the different rating criteria employed in the rating process. Best’s Credit Rating Methodology can be found at www.ambest.com/ratings/methodology.

In accordance with Regulation (EC) No. 1060/2009, the following is a link to required disclosures: A.M. Best Europe – Rating Services Limited Supplementary Disclosure.

For more information, visit www.ambest.com.

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2013 Pick n Pay Knysna Oyster Festival Programme full of New Highlights

Posted on 18 May 2013 by Africa Business

The programme for the 2013 Pick n Pay Knysna Oyster Festival is growing, with new and exciting events joining the stable of old favourites. “Last year’s programme sported more than 100 events,” said Festival Manager Nicci Rousseau-Schmidt. “And it is already clear that we’ll top that number this year.”

The Pick n Pay Women’s Walk will take place on Sunday 7 July. The Women’s Walk is a popular event that takes place across South Africa. Bronwen Rohland Marketing Director Pick n Pay said, “This 5km event raises funds for PinkDrive, an organisation that provides free breast cancer screening and health education for women who cannot afford it.”

The Young Oyster Festival is gaining in popularity each year, providing an environment for kids to have a blast. Aside from the regular events such as cooking lessons, arts and crafts, movie screenings, sport clinics, and exciting competitions, this year will see a dedicated Kids Zone complete with popcorn, candy floss and all things necessary for exciting and entertaining kids.

“Older kids will enjoy an all-new fun fair as well as obstacle courses and exciting events and competitions at The Yard, our local skate park,” Rousseau-Schmidt said. “This age group and their parents will also enjoy an all new 10-day local food and craft market at the main venue on Waterfront Drive and details of how to enter the Miss Knysna Oyster Festival will be available soon.”

“Of course we wouldn’t have a festival if it weren’t for our oysters. This year’s Pick n Pay Flavours of Knysna will truly showcase Knysna’s restaurants as they once again prepare oysters according to their own, unique recipes, with other delectable treats prepared by Pick n Pay also available on the evening.

“The oyster shucking and oyster eating competitions are always very entertaining and well attended, and this year we will combine these two fun events to both take place at the main venue on Waterfront Drive,” Rousseau-Schmidt said.

The festival has a longstanding relationship with the South African Navy, especially the local Sea Cadet unit from the Training Ship Knysna. “The Admiral’s Ball is a firm favourite on the festival’s calendar with music provided by the incredibly talented SA Navy Dance Band. Presented in co-operation with the Knysna Featherbed Company, the 2013 ball promises to be an event not to be missed,” said Rousseau-Schmidt “We are hoping to welcome two naval ships through the Knysna Heads this year – weather permitting,” she said. “The Navy also presents other fantastic events on the festival calendar, including the Right of Entry Parade which incorporates precision drilling and music from the marching band, displays by the Knysna Sea Cadets and the ever popular concert by the SA Navy Band which unofficially closes the festival.”

“This year the Knysna Forest Marathon and Half Marathon have already sold out, and we anticipate that Knysna will be buzzing with excitement,” said Rohland, “the festival is a great opportunity for us to meet our customers and be part of an event that showcases the best the region has to offer.”

“We are looking forward to old favourites such the Pick n Pay Weekend Argus Rotary Knysna Cycle Tour and the Pick n Pay Cape Times Knysna Forest Marathon and Half Marathon, but we have many exciting developments on the programme to look forward to,” Rousseau-Schmidt concluded. “And what you’ve read about here is only a taste of what the 2013 Pick n Pay Knysna Oyster Festival has on offer. Knysna is truly the place to be during the school holidays. So come along – I can guarantee that you’ll have the best ten days of your winter.”

Keep an eye on www.pnpoysterfestival.co.za for regular updates to the programme, or contact Knysna Tourism on 044 382 5510 for more information.

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TeleCommunication Systems Technology Experts to Discuss International Trade Issues at the Maryland/DC Celebration of International Trade 2013

Posted on 17 May 2013 by Africa Business

 

About TeleCommunication Systems, Inc.
TeleCommunication Systems, Inc. (TCS) (NASDAQ: TSYS) is a world leader in highly reliable and secure mobile communication technology. TCS infrastructure forms the foundation for market leading solutions in E9-1-1, text messaging, commercial location and deployable wireless communications. TCS is at the forefront of new mobile cloud computing services providing wireless applications for navigation, hyper-local search, asset tracking, social applications and telematics. Millions of consumers around the world use TCS wireless apps as a fundamental part of their daily lives. Government agencies utilize TCS’ cyber security expertise, professional services, and highly secure deployable satellite solutions for mission-critical communications. Headquartered in Annapolis, MD, TCS maintains technical, service and sales offices around the world.

 

ANNAPOLIS, Md., May 17, 2013 /PRNewswire/ — TeleCommunication Systems, Inc. (TCS) (NASDAQ: TSYS), a world leader in highly reliable and secure mobile communication technology, today announced that TCS Fellow John Linwood Griffin and TCS Senior Customer Executive Victor Hernandez will be participating in panel discussions as part of the Maryland/DC Celebration of International Trade 2013 on Tuesday, May 21 at the Maritime Institute Conference Center in Linthicum, MD. Attendees will experience in-depth discussions with expert-level export executives, leaders, practitioners and government leaders.

  • “Threat Considerations and Risk Mitigation When Doing Business Internationally,” Tuesday, May 21, 8:30 a.m.10:00 a.m.

 

TCS Fellow Dr. John Linwood Griffin will discuss the risk associated with conducting business internationally from a technical security perspective. Risk itself often represents an opportunity – when you understand and interpret technical risks in the context of your business objectives, you are able to make more efficient and competitive decisions. The panelists will engage in a lively early-morning discussion on how to keep risk from always leading to the answer, “no.”

Dr. John Linwood Griffin leads research and engineering programs on computer and communications security at TCS. He has written and taught academic and industrial courses on computer storage, security and networking and has co-authored refereed conference, journal and workshop papers. Among the honors, grants and awards he has received include an invitation to participate in the U.S./Japan Experts’ Workshop on Critical Information Infrastructure Protection, an Intel Foundation Ph.D. Fellowship and a National Science Foundation Graduate Research Fellowship.

  • “Selling into Emerging Markets – Africa, Middle East and Latin America Explored,” Tuesday, May 21, 10:00 a.m.11:30 a.m.

 

TCS Senior Customer Executive Victor Hernandez will explore the nuances of conducting business in the emerging market of Latin America through the lens of several case studies. In addition, the ability to leverage government resources that are available to ease entrance into new markets from the Departments of Commerce and State will also be addressed by other panelists.

Victor Hernandez is responsible for promoting TCS’ products and services portfolio in the Caribbean and Latin American regions. He has more than 23 years of experience in the Latin American wireless industry and has worked with some of the wireless industry’s biggest names, helping them bridge the business gap between the Caribbean, Latin America and North America.

To learn more about emerging and innovative wireless technologies, visit www.telecomsys.com.

 

SOURCE TeleCommunication Systems, Inc.

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Canada and Tanzania Sign Investment Treaty

Posted on 16 May 2013 by Africa Business

DAR ES SALAAM, Tanzania, May 16, 2013/African Press Organization (APO)/ Foreign Affairs Minister John Baird and Bernard Membe, Tanzania’s Minister of Foreign Affairs and International Co-operation, today issued the following statement upon signing the Canada-Tanzania Foreign Investment Promotion and Protection Agreement (FIPA):

“The agreement signed today will strengthen economic ties between our two countries and help our companies invest with greater confidence in our respective markets. Facilitating two-way investment helps generate jobs, growth and long-term prosperity for Canadians and Tanzanians.

“A FIPA is a treaty designed to protect and promote investment abroad through legally binding provisions, as well as to promote inward foreign investment. By ensuring greater protection against discriminatory and arbitrary practices, and by enhancing the market predictability, a FIPA provides businesses with greater investment confidence.

“We are committed to creating the right conditions for businesses to compete and succeed internationally, which in turn will contribute to jobs and economic growth in both Canada and Tanzania.

“Now that the agreement has been signed, both countries will proceed with their ratification processes. The agreement will come into force once each country’s domestic approval process is complete.”

 

SOURCE

Canada – Ministry of Foreign Affairs

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