November 2013 edition of Zimtu Capital Corp.'s Research & Opinion titled Uranium Exploration in Canada's Athabasca Basin. The report provides an overview of the global uranium market, the attraction for uranium exploration in the Athabasca Basin, and a look at Lakeland Resources Inc. (TSXv: LK).
This investor presentation provides information on Fortune Minerals Limited, a Canadian mineral development company with two advanced projects. It summarizes the positive feasibility studies for its Arctos anthracite coal project in BC and NICO metals project in the Northwest Territories. For the Arctos project, it highlights the robust economics, environmental assessment progress, and strategic partnership with POSCO, one of the world's largest steel producers. It also discusses growing global demand for metallurgical coal and constrained supply.
The Unheralded Value In Offshore Wind An Evaluation Using pCoudAnalyticsKofi Amoako-Gyan
This document analyzes the benefits of incorporating offshore wind power into the New England electric grid using power system modeling software. It finds that adding offshore wind reduces costs, emissions, and locational marginal prices. Specifically:
- Adding 1200MW of offshore wind reduces natural gas usage by 6.5% and coal by 5.6%, lowering emissions of CO2 by 3.24 million tons, SO2 by 2,859 tons, and NOx by 1,121 tons.
- Offshore wind decreases operating costs for fuels and maintenance in the region based on the size of installation, with 1200MW saving over $100 million.
- Wholesale electricity costs paid by consumers are also reduced, as the modeling
Fortune Minerals - Investor Presentation - January 2014Company Spotlight
- The document is an investor presentation for a Canadian mineral development company that owns two late-stage projects, a metallurgical coal project and a gold-cobalt project.
- The met coal project, called Arctos Anthracite, has completed a positive feasibility study and environmental assessment work is underway. It aims to produce high quality ultra-low volatile PCI coal.
- The company has a strategic partnership with POSCO, one of the world's largest steel companies, for the Arctos project which validates the project and will aid in its development.
Offshore Wind Energy Market Trends and Forecast 2014 - 2022collinsR1
According to a recent market research report published by Transparency Market Research, the installed capacity in the global offshore wind energy market is expected to increase at a CAGR of 25.0% during the period between 2014 and 2022. The report, titled “Offshore Wind Energy Market - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2014 - 2022,” projects the annual installations in the global offshore wind energy market to reach 7,228 MW by 2022.
Complete Report Offshore Wind Energy Market with TOC : http://www.transparencymarketresearch.com/offshore-wind-energy-market.html
Fortune Minerals Limited is a strategic metals and coal producer with projects in Canada. Its key assets include the Mount Klappan anthracite coal project in British Columbia and the NICO gold-cobalt-bismuth-copper project in the Northwest Territories and Saskatchewan. The Mount Klappan project has over 200 million tonnes of resources and reserves and a feasibility study showing robust economics. A joint venture with Korean steel producer POSCO provides funding to advance the project towards construction. Fortune also plans to become a vertically integrated producer of metals from the NICO project.
A presentation by Dr. Teodor Chirica on "Financing Crisis and Nuclear Energy Revival" at the Forum Invest held in Bucharest on 12 November 2008. The presentation is based on public references, Cernavoda 3-4 experience, discussions with different bankers and personal observations by the author.
Fortune Minerals Limited is a producer of strategic metals and coal. It owns several mineral projects in Canada including the Mount Klappan anthracite coal deposit in BC. The deposit is one of the largest undeveloped metallurgical coal deposits in the world. A definitive feasibility study showed robust economics for an initial 3Mtpa operation. Fortune is pursuing an accelerated development strategy with POSCO, a strategic 20% partner, to fully fund the project to construction. The railway infrastructure provides potential for scalable expansion to take advantage of the large resource base and meet growing global metallurgical coal demand.
Fortune Minerals Limited is a strategic metals and coal producer that owns two development projects in Canada - the Mount Klappan anthracite coal project in British Columbia and the NICO gold-cobalt-bismuth-copper project in the Northwest Territories and Saskatchewan. The company has secured a joint venture partnership with POSCO for the Mount Klappan project and definitive feasibility studies show robust economics for both projects. Fortune aims to advance both projects towards production to become an emerging producer of metals and coal.
This investor presentation provides information on Fortune Minerals Limited, a Canadian mineral development company with two advanced projects. It summarizes the positive feasibility studies for its Arctos anthracite coal project in BC and NICO metals project in the Northwest Territories. For the Arctos project, it highlights the robust economics, environmental assessment progress, and strategic partnership with POSCO, one of the world's largest steel producers. It also discusses growing global demand for metallurgical coal and constrained supply.
The Unheralded Value In Offshore Wind An Evaluation Using pCoudAnalyticsKofi Amoako-Gyan
This document analyzes the benefits of incorporating offshore wind power into the New England electric grid using power system modeling software. It finds that adding offshore wind reduces costs, emissions, and locational marginal prices. Specifically:
- Adding 1200MW of offshore wind reduces natural gas usage by 6.5% and coal by 5.6%, lowering emissions of CO2 by 3.24 million tons, SO2 by 2,859 tons, and NOx by 1,121 tons.
- Offshore wind decreases operating costs for fuels and maintenance in the region based on the size of installation, with 1200MW saving over $100 million.
- Wholesale electricity costs paid by consumers are also reduced, as the modeling
Fortune Minerals - Investor Presentation - January 2014Company Spotlight
- The document is an investor presentation for a Canadian mineral development company that owns two late-stage projects, a metallurgical coal project and a gold-cobalt project.
- The met coal project, called Arctos Anthracite, has completed a positive feasibility study and environmental assessment work is underway. It aims to produce high quality ultra-low volatile PCI coal.
- The company has a strategic partnership with POSCO, one of the world's largest steel companies, for the Arctos project which validates the project and will aid in its development.
Offshore Wind Energy Market Trends and Forecast 2014 - 2022collinsR1
According to a recent market research report published by Transparency Market Research, the installed capacity in the global offshore wind energy market is expected to increase at a CAGR of 25.0% during the period between 2014 and 2022. The report, titled “Offshore Wind Energy Market - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2014 - 2022,” projects the annual installations in the global offshore wind energy market to reach 7,228 MW by 2022.
Complete Report Offshore Wind Energy Market with TOC : http://www.transparencymarketresearch.com/offshore-wind-energy-market.html
Fortune Minerals Limited is a strategic metals and coal producer with projects in Canada. Its key assets include the Mount Klappan anthracite coal project in British Columbia and the NICO gold-cobalt-bismuth-copper project in the Northwest Territories and Saskatchewan. The Mount Klappan project has over 200 million tonnes of resources and reserves and a feasibility study showing robust economics. A joint venture with Korean steel producer POSCO provides funding to advance the project towards construction. Fortune also plans to become a vertically integrated producer of metals from the NICO project.
A presentation by Dr. Teodor Chirica on "Financing Crisis and Nuclear Energy Revival" at the Forum Invest held in Bucharest on 12 November 2008. The presentation is based on public references, Cernavoda 3-4 experience, discussions with different bankers and personal observations by the author.
Fortune Minerals Limited is a producer of strategic metals and coal. It owns several mineral projects in Canada including the Mount Klappan anthracite coal deposit in BC. The deposit is one of the largest undeveloped metallurgical coal deposits in the world. A definitive feasibility study showed robust economics for an initial 3Mtpa operation. Fortune is pursuing an accelerated development strategy with POSCO, a strategic 20% partner, to fully fund the project to construction. The railway infrastructure provides potential for scalable expansion to take advantage of the large resource base and meet growing global metallurgical coal demand.
Fortune Minerals Limited is a strategic metals and coal producer that owns two development projects in Canada - the Mount Klappan anthracite coal project in British Columbia and the NICO gold-cobalt-bismuth-copper project in the Northwest Territories and Saskatchewan. The company has secured a joint venture partnership with POSCO for the Mount Klappan project and definitive feasibility studies show robust economics for both projects. Fortune aims to advance both projects towards production to become an emerging producer of metals and coal.
The Coal Power Decommissioning Market 2013-2023Visiongain
For more information on this report please contact ediz.ibrahim@visiongain.com (+44(0) 2075499976) or refer to our website http://www.visiongain.com/Report/1087/The-Coal-Power-Decommissioning-Market-2013-2023
This investor presentation provides an overview of Fortune Minerals and its two advanced mineral development projects. The presentation discusses the Arctos anthracite coal project in detail, including its resource estimates, positive feasibility study results, strategic partnership with POSCO, and progress through permitting. It also reviews supply and demand fundamentals for metallurgical coal that indicate demand will exceed supply, positioning Arctos well for future markets.
This document presents a hydrogen and fuel cell development plan for New Hampshire. It identifies several potential stationary and transportation targets for hydrogen and fuel cell technology deployment, which could generate approximately 378,000 megawatt hours of electricity annually. Current incentives aim to facilitate renewable energy development. Deploying hydrogen and fuel cells in New Hampshire could reduce oil dependence, improve the environment, and increase jobs. The plan provides information to help assess, plan and initiate projects that meet the state's energy, economic and environmental goals.
- Fortune Minerals Limited is an emerging strategic metal and coal producer that owns the Mount Klappan Anthracite Coal Project in British Columbia, one of the world's premier metallurgical coal development projects.
- The company has secured a joint venture partnership with POSCO, one of the world's largest steel producers, to help fund the project towards construction.
- Fortune also owns the NICO gold-cobalt-bismuth-copper project in the Northwest Territories and Saskatchewan, which has over 4 million ounces of gold equivalent and is undergoing permitting.
Fortune Minerals Investor Presentation - January 2014Company Spotlight
- The document is an investor presentation for Fortune Minerals outlining their two late-stage mineral development projects in Canada: the Arctos Anthracite Project and the NICO gold-cobalt project.
- The Arctos project has completed a positive feasibility study and environmental assessment and is advancing permitting to begin production. It would be an open-pit mine producing high-quality metallurgical coal.
- Fortune Minerals also provided updates on project economics from the feasibility study, resource estimates, permitting progress, partnerships including with POSCO, and plans to further advance the project.
Fortune Minerals Investor Presentation November 2013Company Spotlight
This investor presentation provides an overview of Fortune Minerals and its two late-stage mineral development projects in Canada. It summarizes the positive feasibility study for its Arctos Anthracite Project, a metallurgical coal mine in British Columbia with a strategic partnership with POSCO. It also provides corporate and ownership information, analyst coverage, and discusses progress on permitting and development.
The document is an investor presentation for Macusani Yellowcake, a uranium exploration and development company. It summarizes that Macusani controls one of the largest undeveloped uranium projects in the world located in Peru, with large mineral resources totaling 49.7 million pounds of uranium. A 2013 preliminary economic assessment showed the project could have strong economics with low production costs of under $21 per pound and generate over $700 million in pre-tax net present value. The presentation provides details on the project's scale, infrastructure, development progress, and competitive positioning in the uranium market.
- Alexco Resource Corp owns the historic Keno Hill Silver District in Canada's Yukon Territory, which has seen significant resource growth under their ownership from 5.4 million ounces to over 64 million ounces of indicated and inferred resources.
- Operations at Keno Hill have achieved cost reductions of approximately 20% since 2011 through increased throughput and efficiency improvements, however an interim suspension of operations is currently in place.
- Alexco's goal is to restructure costs and implement a long-term integrated production approach across the district to provide profitability and sustainability, with a focus on increasing throughput, self-mining, and exploration to sustain production over the long term.
Eia pakistan shale oil and gas potential summary for pbc 2013 ver2Abbas Bilgrami
The document discusses an assessment of shale oil and gas resources in 41 countries outside the United States. It summarizes that the assessment found 137 shale formations with substantial shale oil and gas resources. While the estimates will evolve as more data is collected, shale resources not previously counted as recoverable constitute a significant portion of global oil and gas supplies. It's important to distinguish technically recoverable resources from economically recoverable resources that can be profitably produced.
Jrc115923 stationary fuel_cells_16042019_final_pubsy_onlineEnzo Ochoa Montes
This document provides an overview of the global deployment of large-capacity stationary fuel cells from 2000-2017. It finds that over 800MW of fuel cell systems over 200kW have been installed worldwide, dominated by molten carbonate fuel cells, solid oxide fuel cells, and phosphoric acid fuel cells. South Korea and the US together make up almost 95% of installed capacity. The deployment trends are influenced by factors like energy/climate policies, funding programs, competing technologies, manufacturer presence, and energy prices in different regions. Considerable financial incentives would be needed to achieve similar deployment levels in Europe, where small-medium scale applications are currently the focus.
This document discusses a company's commitment to providing excellent customer experiences through their knowledge and insights gained from working with multiple lending firms. They strive for integrity and creating synergies to connect with customers.
Zimtu Capital Corp. announces that the company has signed an agreement with GTA Resources and Mining Inc. whereby GTA Resources can earn a 100% interest in two licenses located in central Newfoundland.
Zimtu Capital Corp announces that it has completed an agreement with Rare Earth Metals Inc. whereby Rare Earth can earn a 100% interest in 40 claims totaling 647 hectares of a rare earth element prospect located 80 km east of Sudbury, Ontario. For its participation, Zimtu will receive $100,000 and 1 million shares over 24 months, and its two partners will receive equal consideration. Rare Earth will compile available data and commence work including surveying, mapping, sampling and drilling. Zimtu will continue to evaluate properties to make available for acquisition.
1. The economic viability of rare earth element deposits depends more on the host mineralogy, distribution of specific REEs within the deposit, and ability to produce a mixed rare earth carbonate (REC) than on the total rare earth oxide grade alone.
2. Producing a mixed REC for sale to hydrometallurgical processors is less risky for junior mining companies than attempting to process ore all the way to separated rare earth oxide products, due to the extensive capital required for full separation.
3. Bench-scale metallurgical testing of material from Commerce Resource's Ashram deposit achieved above 40% total rare earth oxide concentration with a 97% mass reduction while retaining 70% recovery, allowing for high-purity
On September 2, 2010, Zimtu Capital Corp. (TSXv: ZC) (FSE: ZCT1) announced that the Company and its prospecting partners have entered into an
option agreement with Rare Earth Metals Inc. (TSXv: RA) (“Rare Earth”) pursuant to which Rare Earth will acquire a 100% interest in mining claims totaling 508 claim units prospective for rare
earth elements located in the Red Wine/Letitia Lake area of west central Labrador.
El documento describe algunas características de la reproducción en grandes alturas. La reproducción se ve afectada a altitudes superiores a los 3000 metros, donde los habitantes desarrollan adaptaciones como la poliglobulia. El embarazo implica un mayor tamaño placentario y fetos más pequeños. La pelvis de los pobladores andinos es más estrecha y redondeada, adecuada para el parto de bebés de bajo peso.
This document discusses a company's commitment to providing excellent customer experiences through their knowledge and insights gained from working with multiple lending firms. They strive for integrity and creating synergies to connect with customers.
Zimtu Capital Corp announces an agreement with Pinestar Gold Inc. for Pinestar to earn a 100% interest in a portfolio of 11 graphite projects covering 533 square kilometers in Australia. The projects include the flagship 174 square kilometer Munglinup Project near an existing graphite deposit, and properties near other known graphite areas. Pinestar will provide cash and share payments to Zimtu and its partner over two years for their participation. No recent exploration has been conducted on the properties, but they are considered highly prospective for graphite occurrences.
Zimtu Capital Corp announces that it has signed an agreement with Lomiko Metals Inc. whereby Lomiko can earn a 100% interest in the Quatre Milles Graphite Property in Quebec. As part of the transaction, Zimtu will receive $25,000 and 2 million shares over 24 months, and will retain a 2% NSR on the property. Lomiko plans to complete a minimum $200,000 in exploration within 12 months and mount an aggressive exploration campaign on the property going forward.
Fission Uranium's Triple R deposit in Saskatchewan's Athabasca Basin is one of the world's largest and highest-grade uranium deposits. The 2018 resource estimate for Triple R indicates 87.8 million pounds of uranium at 1.82% U3O8 in the indicated category and 52.9 million pounds at 1.80% U3O8 in the inferred category. Fission is advancing Triple R towards a pre-feasibility study with a focus on expanding resources through drilling and conducting additional technical and permitting work in 2018. Triple R has the potential for low operating costs of $14.02 per pound on average over its mine life based on a preliminary economic assessment.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
The Coal Power Decommissioning Market 2013-2023Visiongain
For more information on this report please contact ediz.ibrahim@visiongain.com (+44(0) 2075499976) or refer to our website http://www.visiongain.com/Report/1087/The-Coal-Power-Decommissioning-Market-2013-2023
This investor presentation provides an overview of Fortune Minerals and its two advanced mineral development projects. The presentation discusses the Arctos anthracite coal project in detail, including its resource estimates, positive feasibility study results, strategic partnership with POSCO, and progress through permitting. It also reviews supply and demand fundamentals for metallurgical coal that indicate demand will exceed supply, positioning Arctos well for future markets.
This document presents a hydrogen and fuel cell development plan for New Hampshire. It identifies several potential stationary and transportation targets for hydrogen and fuel cell technology deployment, which could generate approximately 378,000 megawatt hours of electricity annually. Current incentives aim to facilitate renewable energy development. Deploying hydrogen and fuel cells in New Hampshire could reduce oil dependence, improve the environment, and increase jobs. The plan provides information to help assess, plan and initiate projects that meet the state's energy, economic and environmental goals.
- Fortune Minerals Limited is an emerging strategic metal and coal producer that owns the Mount Klappan Anthracite Coal Project in British Columbia, one of the world's premier metallurgical coal development projects.
- The company has secured a joint venture partnership with POSCO, one of the world's largest steel producers, to help fund the project towards construction.
- Fortune also owns the NICO gold-cobalt-bismuth-copper project in the Northwest Territories and Saskatchewan, which has over 4 million ounces of gold equivalent and is undergoing permitting.
Fortune Minerals Investor Presentation - January 2014Company Spotlight
- The document is an investor presentation for Fortune Minerals outlining their two late-stage mineral development projects in Canada: the Arctos Anthracite Project and the NICO gold-cobalt project.
- The Arctos project has completed a positive feasibility study and environmental assessment and is advancing permitting to begin production. It would be an open-pit mine producing high-quality metallurgical coal.
- Fortune Minerals also provided updates on project economics from the feasibility study, resource estimates, permitting progress, partnerships including with POSCO, and plans to further advance the project.
Fortune Minerals Investor Presentation November 2013Company Spotlight
This investor presentation provides an overview of Fortune Minerals and its two late-stage mineral development projects in Canada. It summarizes the positive feasibility study for its Arctos Anthracite Project, a metallurgical coal mine in British Columbia with a strategic partnership with POSCO. It also provides corporate and ownership information, analyst coverage, and discusses progress on permitting and development.
The document is an investor presentation for Macusani Yellowcake, a uranium exploration and development company. It summarizes that Macusani controls one of the largest undeveloped uranium projects in the world located in Peru, with large mineral resources totaling 49.7 million pounds of uranium. A 2013 preliminary economic assessment showed the project could have strong economics with low production costs of under $21 per pound and generate over $700 million in pre-tax net present value. The presentation provides details on the project's scale, infrastructure, development progress, and competitive positioning in the uranium market.
- Alexco Resource Corp owns the historic Keno Hill Silver District in Canada's Yukon Territory, which has seen significant resource growth under their ownership from 5.4 million ounces to over 64 million ounces of indicated and inferred resources.
- Operations at Keno Hill have achieved cost reductions of approximately 20% since 2011 through increased throughput and efficiency improvements, however an interim suspension of operations is currently in place.
- Alexco's goal is to restructure costs and implement a long-term integrated production approach across the district to provide profitability and sustainability, with a focus on increasing throughput, self-mining, and exploration to sustain production over the long term.
Eia pakistan shale oil and gas potential summary for pbc 2013 ver2Abbas Bilgrami
The document discusses an assessment of shale oil and gas resources in 41 countries outside the United States. It summarizes that the assessment found 137 shale formations with substantial shale oil and gas resources. While the estimates will evolve as more data is collected, shale resources not previously counted as recoverable constitute a significant portion of global oil and gas supplies. It's important to distinguish technically recoverable resources from economically recoverable resources that can be profitably produced.
Jrc115923 stationary fuel_cells_16042019_final_pubsy_onlineEnzo Ochoa Montes
This document provides an overview of the global deployment of large-capacity stationary fuel cells from 2000-2017. It finds that over 800MW of fuel cell systems over 200kW have been installed worldwide, dominated by molten carbonate fuel cells, solid oxide fuel cells, and phosphoric acid fuel cells. South Korea and the US together make up almost 95% of installed capacity. The deployment trends are influenced by factors like energy/climate policies, funding programs, competing technologies, manufacturer presence, and energy prices in different regions. Considerable financial incentives would be needed to achieve similar deployment levels in Europe, where small-medium scale applications are currently the focus.
This document discusses a company's commitment to providing excellent customer experiences through their knowledge and insights gained from working with multiple lending firms. They strive for integrity and creating synergies to connect with customers.
Zimtu Capital Corp. announces that the company has signed an agreement with GTA Resources and Mining Inc. whereby GTA Resources can earn a 100% interest in two licenses located in central Newfoundland.
Zimtu Capital Corp announces that it has completed an agreement with Rare Earth Metals Inc. whereby Rare Earth can earn a 100% interest in 40 claims totaling 647 hectares of a rare earth element prospect located 80 km east of Sudbury, Ontario. For its participation, Zimtu will receive $100,000 and 1 million shares over 24 months, and its two partners will receive equal consideration. Rare Earth will compile available data and commence work including surveying, mapping, sampling and drilling. Zimtu will continue to evaluate properties to make available for acquisition.
1. The economic viability of rare earth element deposits depends more on the host mineralogy, distribution of specific REEs within the deposit, and ability to produce a mixed rare earth carbonate (REC) than on the total rare earth oxide grade alone.
2. Producing a mixed REC for sale to hydrometallurgical processors is less risky for junior mining companies than attempting to process ore all the way to separated rare earth oxide products, due to the extensive capital required for full separation.
3. Bench-scale metallurgical testing of material from Commerce Resource's Ashram deposit achieved above 40% total rare earth oxide concentration with a 97% mass reduction while retaining 70% recovery, allowing for high-purity
On September 2, 2010, Zimtu Capital Corp. (TSXv: ZC) (FSE: ZCT1) announced that the Company and its prospecting partners have entered into an
option agreement with Rare Earth Metals Inc. (TSXv: RA) (“Rare Earth”) pursuant to which Rare Earth will acquire a 100% interest in mining claims totaling 508 claim units prospective for rare
earth elements located in the Red Wine/Letitia Lake area of west central Labrador.
El documento describe algunas características de la reproducción en grandes alturas. La reproducción se ve afectada a altitudes superiores a los 3000 metros, donde los habitantes desarrollan adaptaciones como la poliglobulia. El embarazo implica un mayor tamaño placentario y fetos más pequeños. La pelvis de los pobladores andinos es más estrecha y redondeada, adecuada para el parto de bebés de bajo peso.
This document discusses a company's commitment to providing excellent customer experiences through their knowledge and insights gained from working with multiple lending firms. They strive for integrity and creating synergies to connect with customers.
Zimtu Capital Corp announces an agreement with Pinestar Gold Inc. for Pinestar to earn a 100% interest in a portfolio of 11 graphite projects covering 533 square kilometers in Australia. The projects include the flagship 174 square kilometer Munglinup Project near an existing graphite deposit, and properties near other known graphite areas. Pinestar will provide cash and share payments to Zimtu and its partner over two years for their participation. No recent exploration has been conducted on the properties, but they are considered highly prospective for graphite occurrences.
Zimtu Capital Corp announces that it has signed an agreement with Lomiko Metals Inc. whereby Lomiko can earn a 100% interest in the Quatre Milles Graphite Property in Quebec. As part of the transaction, Zimtu will receive $25,000 and 2 million shares over 24 months, and will retain a 2% NSR on the property. Lomiko plans to complete a minimum $200,000 in exploration within 12 months and mount an aggressive exploration campaign on the property going forward.
Fission Uranium's Triple R deposit in Saskatchewan's Athabasca Basin is one of the world's largest and highest-grade uranium deposits. The 2018 resource estimate for Triple R indicates 87.8 million pounds of uranium at 1.82% U3O8 in the indicated category and 52.9 million pounds at 1.80% U3O8 in the inferred category. Fission is advancing Triple R towards a pre-feasibility study with a focus on expanding resources through drilling and conducting additional technical and permitting work in 2018. Triple R has the potential for low operating costs of $14.02 per pound on average over its mine life based on a preliminary economic assessment.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
Uranium Market Overview – 2014 Q1
There is renewed optimism for uranium equities following a 3-year bear market sparked by the infamous Fukushima Daiichi nuclear accident. On Feb 25th the Japanese government, led by Shinzo Abe, reversed the previous governments’ decision to phase out nuclear energy. Instead, nuclear is set to regain its former stature as an integral component of Japan’s electricity generation; though no timetable for reactor restarts was given. The use of Nuclear remains a heated topic with the Japanese public, as recent polls show the majority of respondents continue to oppose reactor restarts and a large majority harbour some degree of concern over reactor safety. Therefore, restarting idled Japanese reactors is likely to be contested, indicating the industry-wide completion of the process will be gradual with reactors restarting in stages. Depending on the enforcement of new safety regulations and the degree of compromise from the Abe led government, a sizable contingent of reactors may never restart.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
Fission Uranium owns the Patterson Lake South uranium project in Saskatchewan's Athabasca Basin region. The project contains the Triple R deposit with an indicated resource of 87.8 million pounds of uranium and an inferred resource of 52.9 million pounds. A preliminary economic assessment estimates average operating costs of $14.02 per pound over the life of the mine. Fission Uranium is advancing the project towards a feasibility study and permitting with the goal of production.
The document summarizes key developments in critical minerals markets in 2022 and 2023:
- Demand for critical minerals used in clean energy technologies like batteries and electric vehicles grew rapidly due to record deployment, driving up prices and market size.
- Many critical minerals experienced high price volatility in 2021-2022, though most prices moderated later in 2022, highlighting the importance of stable mineral supplies for affordable energy transitions.
- Countries are implementing new policies to diversify critical mineral supplies and enhance sustainability, shown by nearly 200 policies tracked by the IEA in recent years.
The inaugural Critical Minerals Market Review from the IEA provides the following key findings:
- Demand for critical minerals is growing rapidly driven by record deployment of clean energy technologies like EVs and batteries. This is straining supply chains and contributing to price volatility.
- Countries are implementing new policies to diversify critical mineral supplies and investing heavily in mining projects, but questions remain around the adequacy and sustainability of future supply.
- The battery sector is transforming with new technologies like sodium-ion batteries emerging while recycling is ramping up, but remains concentrated in China for now.
- Automakers and others are increasingly investing directly in critical mineral supply chains to secure materials, but diversified midstream supply
The inaugural Critical Minerals Market Review from the IEA provides the following key findings:
- Demand for critical minerals is growing rapidly driven by record deployment of clean energy technologies like EVs and batteries. This is straining supply chains and contributing to price volatility.
- Countries are implementing new policies to diversify critical mineral supplies and investing heavily in mining projects, but questions remain around the adequacy and sustainability of future supply.
- The battery sector is transforming with new technologies like sodium-ion batteries emerging while recycling is ramping up, but remains concentrated in China for now.
- Automakers and others are increasingly investing directly in critical mineral supply chains to secure materials, but diversified midstream supply
Future proofing energy storage - a greensmith white paper (EN)Finnish_Energy_Hub
Energy storage has reached a turning point as a mainstream grid-reliability resource. The United States achieved another year of record deployments in 2016, and forecasts show continued rapid expansion of the energy storage industry. At the same time, the investment case for storage is still difficult due to risks of limited technology track record and business cases that rely on uncertain revenues. Due to rapidly changing grid dynamics and the long life required of storage assets, energy storage owners must future-proof their investments today.
To future-proof energy storage, storage developers must employ technology and project engineering specifically designed for flexibility. Future-proofing also requires commercial agreements and analytical expertise to optimize the operational value of energy storage.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
1) The document summarizes plans by Sharyn Gol JSC to significantly expand its coal mining operations in Mongolia over the next several years.
2) It currently produces 0.5 million tonnes per year but has outlined plans to ramp up production to 1 million tonnes initially and eventually to 2.5 million tonnes through opening a new pit and expanding existing operations.
3) Sharyn Gol has a large JORC-compliant coal resource base of over 374 million tonnes that can support expanded mining for over 100 years at the planned higher production rates.
Fission Uranium's latest corporate presentation, featuring information on the company's award-winning team and PLS project, as well as the uranium sector and nuclear industry.
NorthIsle is a mineral resource company focused on developing its North Island copper-gold porphyry project on northern Vancouver Island, British Columbia. A 2021 preliminary economic assessment showed robust economics for the project, including an after-tax NPV of C$1.1 billion and 19% IRR over a 22-year mine life producing on average 96 million pounds of copper and 100,000 ounces of gold annually. The project benefits from existing infrastructure and has potential for expansion through further exploration of the 50km mineralized trend. NorthIsle is led by an experienced team with a track record of successful mine development and aims to become a leading sustainable mineral resource company.
The document discusses the importance of information in driving mineral exploration and investment. It argues that governments need to emphasize the value of geological information generated by explorers and held by the government. Making this information easily accessible in digital formats can attract more exploration investment and lead to new mineral discoveries, benefiting the country. Currently in New Zealand, not enough emphasis has been placed on the information generated during exploration. However, some new initiatives, like a pilot project to compile historic exploration data into a digital dataset, may help address this issue and stimulate more exploration activity.
1. The document discusses developing business models for mining resources on the Moon, including water ice. It considers both a private model, with one vertically integrated company handling exploration through mining, and a public-private partnership model with initial public funding for exploration and private companies undertaking later stages.
2. Key assumptions and methods for evaluating the models are outlined, including using net present value and decision tree analysis considering probabilities of exploration successes and failures. Cash flows, revenues, costs and investments are derived from previous studies on Moon mining.
3. The required rate of return used in the analysis is 20%, reflecting the high risk nature of the Moon mining venture.
The document discusses:
1) The Japanese Prime Minister stating that Japan cannot phase out nuclear power quickly due to economic concerns and challenges replacing it with alternative energy sources.
2) Finland pushing ahead with plans to build two new nuclear reactors due to energy needs.
3) Positive test results reported for uranium and vanadium recovery at U3O8 Corp's Laguna Salada project in Argentina.
A white paper from America's Natural Gas Alliance (ANGA) encouraging the Obama Dept. of Energy to get off its collective rear-end and approve a host of proposed LNG export terminals that it has delayed approving. ANGA says this is an opportunity that if lost, we won't see again.
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Zimtu Capital Research & Opinion: Uranium Exploration in Canada's Athabasca Basin
1. Lakeland Resources Inc (TSXv: LK) (FSE:6LL)
Canadian Uranium Exploration
Outlook: Positive
1
RESEARCH & OPINION
1.
2.
3.
4.
SUMMARY:
The Athabasca Basin is home to the highest grade uranium deposits in the world.
Exploration in the Basin offers investors upside exposure to projected growth in
commercial nuclear generating capacity. This region, as the low-cost producer is
unique, providing insurance from falling uranium prices.
LK follows a disciplined business strategy; targeting properties with historical
exploration data and shallow depths to potential mineralization. A strong
technical team will increase efficiency of exploration.
LK recently completed a gross C$1,057,718 financing to explore its Gibbon’s
Creek Target. News flow should be forthcoming, potentially adding short term
volatility for shareholders to capitalize on.
Relative valuation based on market capitalization to other exploration companies
in the Basin renders LK attractive (Table 1).
0.16
600
0.14
500
400
Price ($)
0.1
0.08
300
0.06
200
0.04
100
0.02
0
Mar-13
0
Apr-13
May-13
Jun-13
Jul-13
Aug-13
Sep-13
Oct-13
Nov-13
Volume (thousands)
0.12
DEREK HAMILL
Research & Communications
Zimtu Capital Corp.
dhamill@zimtu.com
2. RESEARCH & OPINION
NOVEMBER 2013
Introduction – grade is king
$160
Uranium, a reasonably abundant metal present even in seawater, has great
capacity for energy. However, finding sufficient concentrations of the metal to
constitute an orebody, approximately a factor of 1000x its crustal abundance,
is difficult1. In fact, uranium grades of 1-2% are considered high-grade. In
contrast, Canada’s Athabasca Basin (the Basin) hosts the highest grade known
uranium deposits in the world. For example, the McArthur River mine,
located in the east of the Basin, is the largest high-grade uranium mine in the
world, with grades approaching 20%. These high grades permit miners in the
Basin to profit from operations even with uranium prices that are less
attractive elsewhere in the world (Chart 1).
Chart 1. Spot Price U3O8
$140
$120
$100
$80
$60
$40
$20
$0
Structure of the Report – a non-geological undertaking
Counter to what many geologists and casual observers believe, several studies
have found the long-term volume of mineral resources economically available
to society are a function of the real price for the mineral and less dependent on
the volume of current identified mineral reserves (scarcity argument) 2. This
has obvious implications for natural resources exploration industries. The
fallacy of the resource scarcity argument lies in the fact that it ignores
behavioral responses that are triggered by fluctuations in real prices. The
behavioral responses to rising real commodity prices include changes in
consumption, efficiency gains, technological improvements, supply side
substitutes, and new discoveries through greater exploration efforts.
Source: Cameco
Map 1. Lakeland Resources Inc. Gibbon’s Creek
Historical Data Compilation
A geological understanding is assuredly valuable when analyzing exploration
companies. Unfortunately, geology and mine engineering are complicated
sciences that require a material investment of time and capital. The good news
is that since expected higher real uranium prices tend to attract investment into
exploration ventures, retail investors can still potentially profit by using a topdown approach and diversifying away unsystematic risk. Therefore, the
central themes potential investors in exploration companies need to form an
opinion of are the following:
Source: LK and Dahrouge Geological
1.
2.
3.
Expected real price (inflation adjusted) movements for the commodity
Prolificacy of the region – an indicator of further discovery potential
Experience and expertise of the exploration team
Table 1. Athabasca Basin Exploration Comparables
Company
All else equal, rising prices for the underlying commodity will attract greater
exploration and entice investors. To extrapolate favorable geology, greater
focus should be concentrated on regions with producing assets located in
competitive jurisdictions and a history of successful exploration. An added
benefit is the established infrastructure in these regions is a public good,
potentially reducing exploration and production costs. Finally, knowledgeable
Robert Stevens, “Mineral Exploration and Mining Essentials”, BCIT, 2012, pg 48
World Nuclear Association (WNA), “Uranium Supply”, 2012, http://world-nuclear.org/info/Nuclear-FuelCycle/Uranium-Resources/Supply-of-Uranium/
1
2
2
NexGen
Energy
Forum
Uranium
Azincourt
Resources
Lakeland
Resources
Noka
Resources
TSX
Venture
Ticker
Shares
Outstanding
(millions)
Recent
Bid Price
(CAD)
Market Cap
(millions of
CAD)
NXE
128.0
0.280
35.8
FDC
26.4
0.295
7.8
AAZ
28.5
0.290
8.3
LK
32.7
0.105
3.4
NX
21.9
0.135
3.0
Source: Stockwatch
3. RESEARCH & OPINION
NOVEMBER 2013
teams that have previous experience exploring for the established commodity
within the region will increase the chance of successfully locating a discovery,
and will help attract financing.
Growth in global electricity demand and the
chosen supply side capacity mix – the
number of new commercial reactors – will
be the major driver for the uranium market.
Due to the inherent difficulty with locating high-grade uranium deposits and
the potential need to continuously finance drill intensive exploration
programs, there exists material probability of unsuccessful exploration. Thus,
diversification among active explorers in the district is important for investors.
Structure of the Report – concluding remarks
Uranium use has evolved from purely military applications to electricity
generation, and more recently to the use of radioisotopes for diagnostics and
other various industries. However, there remains substantial military
stockpiles of uranium in the US and Russia, and industry demands exelectricity generation are immaterial to existing uranium production.
Projecting constant 2013 global reactor requirements forward, there is enough
identified uranium to supply over 100 years worth of demand, ignoring price.3
Therefore, the growth in global electricity generation and the subsequent
supply side response – new commercial reactor builds – to meet this demand
will be the major driver for the uranium market (Table 2).
Table 2. Nuclear Reactor Overview
Number of reactors
Net Capacity (GW)
435
371
70
68
147
55
Operational
Under
construction
Permanent
Shutdown
Source: IAEA|PRIS
Global Electricity Demand – outlook
Global electricity generation increased an astounding 126% between 198520124. The International Energy Agency (IEA) estimates that 20% of the
global population did not have access to electricity in 2010 5. The US Energy
Information Administration (US eia) forecast almost a doubling of global
electricity generation by 2040; while Exxon Mobile’s Outlook for Energy
predicts 85% growth over the same period.6 BP’s 2013 Energy Outlook only
projects out to 2030, yet predicts total electricity consumption to increase by
61%. The average of these estimates over a 15-year period forecasts a robust
compound annual growth rate (CAGR) (Table 3). However, these estimates
could be conservative as the Organisation for Economic Co-operation and
Development (OECD) member countries accounted for 51% of global
electricity generation in 2010 while representing just 18% of the global
population. On average, OECD members consume more than four times the
electricity per person than non-OECD members; however, the trend is toward
convergence.7
Uranium is a particularly interesting fuel as
its price has a relatively low impact on the
price of electricity it is used to produce
(Chart 9)
Table 3. Electricity Generating Capacity 15-yr CAGR
(2010-2025)
Institutional
forecasts
Total
electricity
Nuclear
Renewables
(ex-hydro)
Natural
gas
US eia
2.6%
3.4%
3.7%
2.2%
BP
2.4%
1.9%
9.8%
1.9%
3
Exxon Mobil
2.0%
2.3%
5.6%
2.3%
4
Average
2.3%
2.6%
6.3%
2.1%
Material growth in electricity generation will come from non-OECD Asia,
including China and India; and possibly Africa where a majority of the
OECD Uranium Redbook’s identified resources consists of reasonably assured and inferred resources
BP’s Statistical Review of World Energy 2013, http://www.bp.com/en/global/corporate/about-bp/statisticalreview-of-world-energy-2013.html
5
International Energy Agency (IEA) | World Energy Outlook 2011
6
US Energy Information Administration | International Energy Outlook 2013
7
BP’s Statistical Review of World Energy 2013
Source: Exxon, BP, and US eia
3
4. RESEARCH & OPINION
NOVEMBER 2013
continent’s population does not have access to electricity8. The sheer
geographical size and populations of these regions will place upward pressure
on global energy prices as their economies expand. Therefore, the priority of
the developed world will be continuing to increase domestic energy reserves,
energy efficiencies, “smart” technologies, and promote conservation all in an
attempt to reduce domestic energy intensity per capita over time. The IEA
estimates total required investment in the global electricity industry at
approximately $16 trillion through 20359,10.
Table 4: LK Team
Management and Directors
Position
The Company’s decision to become a focused Canadian uranium explorer was
taken owing to the unique characteristics of the industry. In general, mineral
projects in Canada rely on, to varying degrees, a combination of security of
supply concerns and expected increasing price movements for the underlying
commodity. However, the Basin hosts the highest grades of uranium in the
world with substantial existing infrastructure – roads, machinery, and
expertise – largely in place.11 Additionally, the majority of the Basin is located
in Saskatchewan; historically, a uranium mining friendly province. These
factors create a stable low-cost uranium production center. Being the low-cost
producer reduces the risk of the uranium price falling below marginal cost for
any significant length of time due to unforseen market supply gluts coming
from either production increases out of Kazakhstan, Australia, and Africa, or
adverse demand shocks.
CFO & Director
Garry Clark, P.Geo
Director
Ryan Fletcher, B.A.
Director
Director
Roger Leschuk
Lakeland Resources Inc. (TSXv: LK) (FSE: 6LL) signaled its desire to enter
the uranium exploration business by entering a letter of intent (LOI) dated
March 1, 2013 to acquire property in Canada’s Athabasca Basin. Though the
transaction was ultimately unsuccessful, LK was able to acquire over 100,000
hectares through staking using a disciplined vetting process and the help of
geological consultants in the North and East geographical areas of the Basin
(Map 2). Through these land acquisitions, the addition of experienced
technical people to the advisory board, and the continued process of optioning
off previous gold exploration properties, LK has completed its transition to a
focused uranium explorer.
Alex Falconer, C.A.
David Hodge
Lakeland Resources – business description
Jonathan Armes
President, CEO &
Director
Manager, Corporate
Communications
Advisory Board
Richard Kusmirski, M.Sc., P.Geo
Thomas Drolet, B.Eng, M.Sc., DIC
John Gingerich, P.Geo
Zimtu Capital Corp’s interest in Lakeland Resources:
ZC’s equity ownership is 4.647 million shares –
approx. 14% of LK shares outstanding
Source: LK
The Athabasca Basin in Northern
Saskatchewan, hosts the highest grade
uranium deposits in the world and
substantial existing infrastructure. This is
an attractive proposition for uranium
exploration.
Table 5. Sample of Deposits Depths Within the
Athabasca Basin
Projects
Mean Approximate Depths (meters)
McArthur River
The difficult task historically, has been locating uranium deposits in the Basin
owing to their generally modest size, pod-like formations, found in the subsurface at various depths; the recent near-surface Patterson Lake South
discovery (PLS) being an exception (Table 5). Advancements in geophysics
and geological understanding, and the divestment of exploration expertise
from traditional unanium producers into focused junior explorers, have led to
several discoveries in-and-around the Basin over the past decade, such as the
8
US Energy Information Administration | International Energy Outlook 2013
International Energy Agency (IEA) | World Energy Outlook 2011
$ figures are assumed to be USD unless otherwise specified
11
Robert Stevens, “Mineral Exploration and Mining Essentials”, BCIT, 2012
9
10
4
500-600
Cigar Lake
350-425
Roughrider
225-350
Shea Creek
650-800
PLS
LK's Gibbon's Creek
Target**
50-300
75-250*
*includes approx. 100m of drilling into the Crystalline
Basement if alteration is encountered
**Gibbon's Creek is currently an exploration target and
should not be considered a deposit
Source: FCU & Hathor
5. RESEARCH & OPINION
NOVEMBER 2013
Roughrider and PLS deposits. The global uranium exploration bonanza that
occurred throughout 2003 to 2008 was only the third such cycle witnessed for
the industry. It is likely, that if exploration in the Basin remains strong, our
knowledge and technical understanding will continue to advance, further
reducing the costs of uranium exploration and development, and improving
the probability of locating discoveries (Table 15).
However, recognizing the current difficulty in finding underground uranium
deposits in the Basin, LK has tried to de-risk their projects by focusing on
properties that have previously received varying degrees of exploration work
indicating existing mineralization and shallower target depths to the
unconformity (less than 500 meters); thereby, stretching current exploration
dollars further (Table 20). LK is also assembling a strong technical team, and
employed Dahrouge Geological Consulting Ltd to help manage fieldwork.
Jody Dahrouge has over 10 years of experience in the Basin and is a former
director of Fission Energy. To date, LK has amassed a significant presence in
the Basin (land claims totaling over 100,000 hectares), concentrating on
relatively shallow depths to identified basement-hosted conductors as a
selection criteria to maximize the total number of exploration drill holes for a
given dollar amount (Map 3).
Lakeland has also focused on fostering valuable relationships. Their
partnership with Zimtu Capital Corp (TSXv: ZC) will help with office
administration, marketing, and future financings. The additions of uranium
veterans, Richard Kusmirski and Thomas Drolet, to LK’s advisory board
gives greater technical and business expertise, as well as “brand name”
recognition within their respective industries. Richard Kusmirski has over 40
years of exploration experience, previously serving as Exploration Manager
for Cameco Corporation, and President & CEO of JNR Resources. Thomas
Drolet has been a nuclear industry insider for over 40 years and served as the
head of the Canadian Fusion Fuels Technology Project (Table 4).
Map2. The Athabasca Uranium Basin Showing
Lakeland’s Property Claims
Source: LK and Dahrouge Geological
Map 3. Lakeland’s current Gibbon’s Creek target
is located within the Riou Lake property
Historic Perspective on the Commercial Nuclear Industry – a
marathon, not a sprint
Nuclear energy is a relatively new technology and did not have a material
impact on the power and utility industry until the first wave of utility scale
commercial reactors started to be built in the late 1960’s12. The 20 years from
1960-80 were tumultuous for the economics and security of energy supplies
that fed the founding NATO (North Atlantic Treaty Organization) members.
These years saw certain foreign governments nationalize commercial oil
interests, the formation of OPEC (Organization of the Petroleum Exporting
Countries), the US transition to a net oil importer, subsequent oil price shocks
in 1973 and 1979; and unlike today, petroleum liquids were a material
component of many power grids at that time. There were also acid rain scares,
12
International Energy Agency (IEA) | World Energy Outlook 2011
5
Source: LK and Dahrouge Geological
6. RESEARCH & OPINION
NOVEMBER 2013
and other environmental concerns regarding the burning of coal, resulting in
increased government regulation such as the Clean Air Act in the US. Into this
environment, with few supply side substitutes, emerged the commercial
nuclear energy industry.
The benefits of nuclear power were clear: environmentally friendly (in terms
of air quality) consistent base load electricity generation could be provided
with reduced price volatility. The technology was new, so claims of eventual
material cost reductions derived from a positive learning curve were believed.
Plus, new prolific uranium discoveries, including Rabbit Lake in Canada’s
Athabasca Basin during 1968, were expanding the known uranium resources
and reserves. The result for the industry was tremendous global growth,
driven primarily by the US and Western Europe. Annual nuclear consumption
in the US increased from 3.8 terawatt hours (TWh) in 1965 to 291 TWh in
1978; and 19.9 TWh to 172.7 TWh over the same period in what is now the
European Union (EU)13.
Table 6. IEA Global Forcast Generating Capacity
Required by 2035 (GW)
2010
2035
Required Increase
NPS*
450 S**
NPS*
450 S**
59%
76%
Hydro
1027
1629
1803
Wind
195
1102
1685
465%
764%
Solar PV
28
499
901
1682%
3118%
Nuclear
393
633
865
61%
120%
Nuclear current capacity = 371GW
*New Policy Scenario (NPS) = IEA base case capacity
** 450 Scenario (450 S) = required capacity needed for probable
achievement in reduction of global warming
Source: IEA’s World Energy Outlook 2011
Table 7. Nuclear Energy Consumption CAGR
However, incidents at two nuclear facilities materially altered the growth of
the commercial nuclear power industry (Chart 2). Following the Three Mile
Island accident in 1979, the compound annual growth rate (CAGR) for US
nuclear consumption slowed. Interestingly, European nuclear consumption
growth remained largely undeterred by the US experience of Three Mile
Island. France, Europe’s largest consumer of nuclear energy, actually
increased its CAGR due to a concerted scale-up effort. This may have been
due to Europe’s diminished security of energy supplies and a conscious effort
to become a world leader and pioneer in an important technology. However,
even Europe’s nuclear consumption growth slowed following the 1986
Chernobyl disaster (Table 7). The impact of these two events on the nuclear
industry was material and can be quantified by the divergence between current
nuclear power consumption figures versus previous forecasts originating in
the early 1970’s by the International Atomic Energy Agency (IAEA) and US
Atomic Energy Commission (AEC). In each case, current consumption
figures are only about 10% of what had been forecasted more than 30 years
earlier14.
Region
US
France
Japan
Russia
Germany
World
EU
Chart 2. Global Nuclear Reactor Trends
Three Mile Island
Chernobyl
25
5
-5
-15
14
Post
Chernobyl
Uranium
Price
Boom
1968-78
36.3%
24.0%
53.4%
32.6%
36.1%
28.2%
17.5%
1980-85
8.8%
29.6%
13.0%
18.0%
20.1%
15.8%
22.4%
1987-02
3.7%
3.4%
3.4%
0.9%
1.0%
3.0%
2.4%
2003-10
0.8%
-0.4%
3.5%
2.0%
-2.3%
0.7%
-1.2%
Construction starts
Grid connections
Permanent shutdowns
Cancelled Constructions
Fukushima
15
13
Post Three
Mile Island
Source: BP Statistical Review 2013
45
35
Commercial
Nuclear
Expansion
Source: IAEA|PRIS
BP’s Statistical Review of World Energy 2013
Yellow Cake Fever, Australian Conservation Foundation , 2013, pg 17
6
7. RESEARCH & OPINION
NOVEMBER 2013
As a result, widespread commercial nuclear programs have, until recently,
been restricted to only a handful of countries. This backdrop is important
because now, as then, many of the same arguments are used by proponents of
a nuclear renaissance (Table 8).
Table 8. Expected Reactor Grid Connections
2013
2014
2015
Number of reactors
14
17
13
China
7
8
8
Source: WNA
Nuclear Driver #1 – the good: growing electricity needs?
Real GDP growth, a good measure of improving living standards, or lack
thereof, within society is a function of secure access to cost-effective energy
supplies. Continued population growth, economic development, and the mass
urbanization – within China, India, and potentially Africa – of large
geographical territories housing immense populations will require greater
electricity generation. Certain technologies appear well poised to meet
growing energy demands as economic barriers to entry for both renewables
and commercial nuclear power are consistently being removed. In addition,
the environment will continue to become an ever increasing concern due to
continued global warming and serious health issues arising from poor air
quality (Table 6)15. China’s coal consumption, currently accounting for 50%
of the global total, to generate electricity and manufacture steel has produced
smog that regularly plagues Beijing and is hampering the city’s development.
Chart 3. Reactors Under Construction,
Regional Breakdown
Other, 19
China, 30
The future health of the commercial nuclear power industry, and therefore the
uranium market, is approaching an inflection point. The benefits of nuclear
electricity generation are difficult to ignore, including:
Korea, 5
India, 6
material reduction in CO2, SO2, and NOx emissions
sustainable supply of uranium for fuel
significant safety improvements on modern reactors
consistent base load generation
projected reduced overnight capital costs for new reactors
Russia, 10
Source: IAEA|PRIS
The Westinghouse Electric Company claims that their designs and technology
are used in half the global nuclear reactor fleet 16. Therefore, looking at the
improvements of their large utility-sized third generation advanced reactor,
the AP1000, is a good indication of the evolution in reactor designs.
Westinghouse emphasized greater simplification – crucial for the future
competitive health of the commercial nuclear industry. In economics, positive
learning curves achieve reduced capital and operating costs for a perspective
technology from increasing scale and efficiency. However, commercial
nuclear reactors have exhibited negative learning curves; capital costs have
increased due to increasing complexity of designs and regulations. To achieve
greater simplification, the Westinghouse AP1000 features a smaller footprint,
fewer moving parts, the inclusion of passive safety systems, and modular
construction. As yet, the successes of these adaptations to reduce capital costs
Table 9. Median Reactor Construction Duration
Reactor grid connections
1981-1995
Median
Number of
construction
reactors
length (years)
Korea
10
5.25
12
4.65
China
3
6.08
14
5.15
Japan
28
3.90
8
3.82
US
48
11.43
1
N/A
Total
245
8.17
65
7.58
Source: IAEA|PRIS
15
16
Air Pollution, World Health Organization, http://www.who.int/topics/air_pollution/en/index.html
AP1000, “Ready to Meet Tomorrow’s Power Generation Requirements Today”, Westinghouse
7
Reactor grid connections
1996-2012
Median
Number of
construction
reactors
length (years)
8. RESEARCH & OPINION
NOVEMBER 2013
Finally, projected global growth of new commercial nuclear reactors is
concentrated in Asia where the regulatory environment appears less ensnared
by special interest groups than developed western countries (Chart 5). Similar
to the French successful nuclear scale-up that transpired between 1975-2000,
and unlike the post 1979 US regulatory nightmare, China has fewer
participants in the decision-making process leading to reactor builds that are
completed in less time than could be achieved in the developed world 17. For
example, the construction and connection time for the net 1000 MWe Lingao
4 reactor in 2011 in China was 5 years. This compares favourably to the 23
years of construction and approval time for the 1123 MWe Watts Bar-1 in the
USA that was finally connected to the grid in 1996. China’s nuclear
consumption stood at 97.4 TWh in 2012, making up only 2% of total domestic
electricity generation. China’s 10-year consistent CAGR of 14.5% for nuclear
consumption illustrates methodical growth for the domestic nuclear power
industry and a friendly government. There exists substantial growth potential
within China.
500
Chart 4. Nuclear Reactors as of July 2013
400
300
200
100
0
Operable
Under Construction
China
US
Planned
Proposed
World ex US & China
Source: WNA
200
Chart 5. Annual Nuclear Consumption
Russia
Korea
150
China
Terawatt-hours
and construction times, and appease regulators, have only marginally
materialized (Table 9). However, the approach to drastically simplify the
construction process and reactor operations to reduce costs makes intuitive
sense – particularly modular design. The potential for reductions in capital
costs may materialize as the number of new reactor builds achieve scale. For
example, China is embarking on an ambitious plan to increase the number of
domestic nuclear reactors. China currently has 18 operable reactors, 30 under
construction, and dozens more in the planning stage (Chart 4).
India
100
50
0
Nuclear Driver #2 – the bad: increasing competition from
renewables?
1994
1997
2000
2003
2006
2009
2012
Source: BP Statistical Review 2013
The main hurdles that have prevented many countries from adopting nuclear
power as a material component of their energy supply mix have been:
Chart 6. Annual Nuclear Consumption
900
US
Required regulatory environment
Safety is of paramount concern for a vibrant commercial nuclear industry.
Countries with a history of corruption may lack the necessary oversight
required to limit the risks of nuclear incident. Even developed countries
with enforced legal frameworks have not been immune from
inappropriate conduct eroding public trust (Chart 6). In 2012, a fake part
scandal in South Korea (Korea) caused the temporary closure of two
reactors18. In Japan, Tokyo Electric Power Company (Tepco) had been
accused of inappropriate conduct several times regarding its stewardship
of nuclear reactors. The consequences of an inappropriate nuclear safety
Terawatt-hours
France
1.
Japan
600
Germany
300
0
1977
1984
1991
Source: BP Statistical Review 2013
Arnulf Grubler, “The French Pressurized Water Reactor Program”, 2012, Historical Case Studies of
Technology Innovation,, Chap. 24, The Global Energy Assessment, Cambridge University Press
18
Kim Da-ye, “KHNP suffers from grave loss of public credibility” Korea Times, Sep 2013
17
8
1998
2005
2012
9. RESEARCH & OPINION
NOVEMBER 2013
framework and insufficient regulatory infrastructure have become
tragically apparent with the continuing Fukushima saga in Japan19.
2.
3.
Long project lead times
Multi-year construction estimates plus regularly experienced delays have
historically meant nuclear power was unresponsive to resolving current
energy demands, and led to dramatically increasing capital costs. The
worldwide experience in building third generation advanced reactors has
been mixed. It appears smaller footprints and greater design
standardization have shortened construction and licensing times, though
not materially so. The most recent reactor builds in both Korea and China
have required 4-5 years to construct and connect to the grid, which is a
slight improvement on past experience. Whereas, Finland started
construction on the Olkiluoto-3 reactor in August 2005, and as yet
remains unfinished with expected start-up in 2016. The US eia estimates
6-year lead times for advanced nuclear plant construction compared to 3
years or less for wind, solar, and gas-fired plants. To remain competitive
with continual advancements in renewable power generation, the
commercial nuclear industry must reduce reactor construction times to a
similar window to minimize capital costs and maintain government
support (Table 10).
Capital costs
Capital costs represent at least 60% of the total cost of building,
operating, and decommissioning a nuclear reactor. Capital costs include
all investment and expenditures required to prepare, build, and bring the
reactor to operational status; and as such are a function of the weighted
average cost of capital (WACC) and the time required to construct and
connect to the grid. Third generation advanced reactors have yet to
become competitive with fossil fuels on a capital cost basis (Table 10).
Worse, the history of the commercial nuclear fleet has been littered with
major construction cost overruns, sometimes 2-3 times greater than the
initial budget. For example, the Capex for Finland’s Olkiluoto project
are now estimated at €8.5 billion or 283% more than the initial
estimate20. Capital expenditure overruns may become an ever greater
problem for utilities in the developed world as most have standalone
credit ratings that are below investment grade, and are domiciled in
jurisdictions whose domestic governments’ ability to lend support is
potentially compromised by increasingly large debt burdens21. The PwC
2012 global survey of power and utility companies found 85% of
respondents listed the ability to finance at economic rates as medium to
very high risk for capital intensive projects. The recently announced UK
deal to build a new commercial reactor hinged on selling a 30%
Yuriy Humber & Tsuyoshi Inajima, “Tepco Split Looms as Utility Lacks Motive to Fix Fukushima”,
Bloomberg, Oct 2013
20
Mycle Schneider, Antony Froggatt et al., World Nuclear Industry Status Report 2013, pg 49
21
Ibid, pg 58, Table 3
19
9
Table 10. OECD Overnight Construction Costs, 2010
Technology
Pre-financing
charges
(USD/kW)
Investment as share
of total costs*
5%
10%
Construction
period (years)
Nuclear
1600-5900
60%
75%
N/A
Wind
1900-3700
77%
87%
1-2
Gas
520-1800
12%
16%
2-3
*Investment includes financing but excludes non-operating liabilities
**Onshore
Source: IEA/NEA/OECD
To
remain
competitive
with
the
combination of gas and renewables for
electricity generation, construction of
nuclear reactors will need to reduce both
the required capital investment and lead
time.
10. RESEARCH & OPINION
NOVEMBER 2013
Insufficient domestic human capital
Operators of reactors require special knowledge and qualifications to
prevent adverse situations and respond to emergencies. An often cited
criticism of the Fukushima containment and clean-up effort has been the
use of inadequately trained personnel 22. Importing specialized workers
from various countries to build nuclear reactors has been blamed for
causing delays as language and cultural barriers have inhibited
communication. New reactor designs have reduced both the number of
moving parts and placed greater reliance on passive safety systems in an
effort to minimize the risk of human error and system weak points.
However, the number of potentially obsolete reactors, those built using
designs that pre-date the twin Three Mile Island and Chernobyl
accidents, is still greater than the number of more modern designs,
increasing the risk of other nuclear incidents due to an inferior design
and/or human error. The situation will take years to correct (Chart 7).
Unlike during its infancy, nuclear power does not exist in a clean energy
vacuum. Today, there are other competitors that do not emit air pollution, and
whose costs are falling on an annual basis illustrating positive learning curves.
Continuing technological improvements for renewables, especially wind and
solar, are changing the electricity generation landscape. Combined with
advancements in the extraction of natural gas, renewables offer an alternative
portfolio mix that is currently more politically malleable. General Electric
(GE) CEO Jeff Immelt, recently stated, “some combination of gas, and either
wind or solar” was the most attractive energy mix due to the increasing
number of gas discoveries. Low natural gas prices were blamed as the culprit
for the announced withdrawal from the US nuclear industry by the French
state utility Electricité de France (EDF), the global leader in nuclear power
production23.
30
30
number of
reactors
25
25
Total net
electrical
generating
capacity
20
20
15
15
10
10
5
5
0
0
0
3
6
9 12 15 18 21 24 27 30 33 36 39 42
Age (Years)
Source: IAEA|PRIS
Table 11. Share of Global Electricity Generation
Jacob Adelman, “Tepco Says Rains Causing Spikes in Fukushima Radiation Readings”, Bloomberg, 2013
World Nuclear Status Report, http://www.worldnuclearreport.org/Duke-Energy-Abandons-MoreReactor.html
24
“Global Trends in Renewable Energy Investment 2013” Frankfurt School UNEP Centre & Bloomberg New
Energy Finance
22
23
10
Nuclear
Wind + Solar
1993-2002 average
17.2%
0.0%
2003
15.7%
0.4%
2004
15.7%
0.5%
2005
15.1%
0.6%
2006
14.8%
0.7%
2007
13.8%
0.9%
2008
13.5%
1.1%
2009
13.5%
1.5%
2010
12.9%
1.8%
2011
A survey of 72 power and utility companies in 43 countries completed by
PwC in 2012 highlight some very interesting viewpoints by industry insiders.
Investment in new gas generation was the most popular with 55% of survey
participants identified as making material investments in the space. While,
over 80% believe onshore wind and solar will not need subsidies by 2030.
Between the 2Q09 (2nd quarter of 2009) to 1Q13, levelized costs for onshore
wind and solar PV decreased by 15% and 50%, respectively 24. Whereas,
global levelized costs for nuclear over the same period were flat (Table 11).
The IEA expects renewables to make up 1/3 of global electricity generation by
35
12.0%
2.3%
2012
11.0%
Source: BP Statistical Review 2013
2.7%
Gigawatts of Capacity
4.
Chart 7. Weighted-average Age of
Reactors Worldwide
35
Number of Reactors
ownership stake to Chinese investors, illustrating how limited the UK
public purse has become.
11. RESEARCH & OPINION
NOVEMBER 2013
2035. In fact, 2012 marked the first year that China consumed more wind
power than nuclear and became the global leader in solar investment.
Chart 8. Reactors in Permanent
Shutdown Breakdown by Country
Nuclear Drivers #3 – and the ugly: Fukushima?
Following the Fukushima disaster on March 11, 2011 and the ongoing issues
with containing irradiated water within the site, the Japanese government and
National Regulatory Authority have made changes to safety guidelines and
policy. In 2013, Japan shut down operations at the last two operating reactors.
New regulatory policy will now require the support of prefectures and local
authorities where the shutdown reactors are domiciled before restarting. This
policy is eerily similar to additional US regulation following Three Mile
Island that led to the Shoreham nuclear reactor fiasco. The Shoreham nuclear
reactor was built in the 1970’s and was declared safe for operations in 1981 by
the US Nuclear Regulatory Commission. However, following the incident at
Three Mile Island in 1979, public opinion for commercial nuclear power
soured and the Shoreham plant operators were unable to develop agreeable
evacuation plans with state and local officials in New York. Shoreham was
never permitted to begin normal operations and was eventually
decommissioned – the total cost reaching $6 billion. The PwC survey found
80% of the global power and utility companies list the regulatory environment
as the biggest contributor to either encourage or inhibit investment. Therefore,
there exists material risk that many of the 50 shutdown Japanese reactors
listed as operable may never restart owing to negative public opinion and new
regulation. Grant Isaac, CFO of Cameco, estimates that 35-40 reactors will
eventually restart25. This scenario is important as restarts of Japanese reactors
are a commonly argued catalyst for rising uranium prices (Table 12).
Interestingly, Japanese reactor restarts – or lack thereof – indirectly impacts a
separate factor sure to help lift uranium prices. The 20-year agreement
between Russia and the US commonly refered to as “Megatons to Megawatts”
is in its final year. The agreement, called on Russia to downblend 500 tonnes
of weapons-grade highly enriched uranium (HEU) for use in western
commercial nuclear reactors. Over the last several years this secondary supply
has represented between 11-13% of global U3O8 demand. However, the loss
of this secondary supply will now be countered by a combination of several
factors. First, though the exact figures are hard to come by due to being
proprietary information, global utility stockpiles are estimated to be at all-time
highs, placing a ceiling on the speed of recovery for uranium prices. In
addition, as previously stated Japanese reactor demands will be materially
reduced, potentially displacing 20% of pre-Fukushima Japanese uranium
supply into the world market. Further, production from Cameco’s Cigar Lake
Project will commence shortly, with production estimated to top out at 18.1
million pounds of U3O8 by 2019. These headwinds make it difficult to argue
for immediate material upward uranium price movements.
25
Cameco Corp Presentation at the Canaccord Genuity Resource Conference, Oct 2013
11
US, 32
Other, 47
UK, 29
France, 12
Germany,
27
Source: IAEA|PRIS
Table 12. Global Nuclear Consumption
2010
2012
World
2768 TWh
Peak
Usage
USA
30.7%
2010
USA
32.7%
France
15.5%
2005
France
17.2%
Japan
10.6%
1998
Russia
7.2%
Russia
6.2%
2012
Korea
6.1%
Korea
5.4%
2011
Germany
4.0%
Germany
5.1%
2001
China
3.9%
Canada
3.2%
2006
Canada
3.9%
Ukraine
3.2%
2007
Ukraine
3.9%
Source: BP Statistical Review 2013
World
2477 TWh
12. RESEARCH & OPINION
NOVEMBER 2013
Fukushima has also had global implications. China placed a moratorium on
new reactor builds while leaders reviewed nuclear safety regulations and
oversight. Though the moratorium has since ended, China has had only one
reactor connected to the grid in 2013 and is now unlikely to fulfill its proposed
commercial nuclear power targets. In 2012, the European Union issued a
safety report on 145 reactors recommending immediate safety upgrades that
would cost an estimated €10 to €25 billion, and suggested that utilities
operating nuclear reactors take out liability insurance. Additional required
Capex to upgrade and maintain reactors increases the likelihood of premature
permanent shutdown as the existing nuclear fleet ages. This risk seems to
playing out in the US where four reactors have been, or are scheduled for,
early permanent shutdown26 (Chart 8). Worldwide, there are 435 reactors with
a weighted average age of 28 years (Chart 9). The assumption that older
reactors approaching their initial 40 year operating license will automatically
have their lives extended by an additional 20 years is no longer valid.
The slower pace of commercial nuclear expansion in China, uncertainty
regarding Japanese reactor restarts, and an aging reactor fleet in the US and
Western Europe threatens to keep the average annual uranium spot price from
again reaching the 2007 peak through 2023.
Zimtu Uranium Price Forecast – how does it compare?
More than 29 countries consume some
amount of nuclear energy. However, four
countries – the US, France, Japan, and
Russia represented 63% of total nuclear
energy consumption in 2010. Therefore, the
respective domestic nuclear policy for each,
as well as China, will determine the long
term health of the uranium market.
Chart 9. Operational Reactor. Regional
Breakdown
US, 100
Other, 194
Although more than 29 countries consume some amount of nuclear energy,
four countries – the US, France, Japan, and Russia – represented 63% of total
nuclear energy consumption in 2010. Therefore, special attention was given
to the unfolding energy policies in these markets as well as China. The future
of the domestic commercial nuclear energy programs for these countries will
materially impact the long term global demand for uranium.
Regression analysis was used to project average annual spot prices for
uranium over the 10-year forecast period. The World Nuclear Association
(WNA) listed global nuclear electricity generating capacity, and International
Monetary Fund (IMF) investment and inflation rates from 1980 to 2012 were
regressed over a blended annual uranium price (Table 13). The model had an
R2 of 83% indicating uranium prices in the long run are highly correlated to
capital investment decisions to expand the commercial nuclear reactor fleet in
the absence of early retirements. It is important to note that though the spot
market price of uranium is often quoted to the public, the spot market
represents on average only 15-25% of total uranium transactions27. The vast
majority of uranium transaction contracts are done using long term contracts
with end users, where the spot price may or may not be referenced.
France, 58
Japan*, 50
Russia,
33
Source: IAEA|PRIS
*none currently in operation
Table 13. Uranium Spot Price Estimates
World Nuclear Status Report, http://www.worldnuclearreport.org/Another-US-Reactor-Scheduled-for.html
27
WNA, “Uranium Markets”, http://world-nuclear.org/info/Nuclear-Fuel-Cycle/Uranium-Resources/UraniumMarkets/
12
Zimtu
Analyst mean
2013
39.74
48.47
2014
48.75
57.65
2015
54.03
65.09
2016
59.85
70.90
2017
26
Annual mean
65.74
70.50
2018
Source: ZC
69.89
N/A
13. RESEARCH & OPINION
NOVEMBER 2013
A fundamental analysis also leads to a similar conclusion. Depending on the
discount rate used, Capex represents 60-75% of total costs throughout the life
of a nuclear reactor. Multibillion dollar capital investment decisions to build
nuclear reactors depends on the belief that timely construction will be
completed on budget, with attractive financing – a discount rate of 5% is often
cited. Unfortunately, many quasi-public utilities throughout the OECD with
material exposure to building and operating nuclear reactors have seen their
standalone credit rating diminish overtime, and now rely on government
support to access the capital markets at economic rates to fund large scale
investments. Therefore, the planned commercial nuclear expansion in Asia,
especially China, is the major growth driver of uranium demand going
forward, and the basis for an upward trending uranium price.
LCOE – matters of import: assumed operating life and discount rate
The US eia estimate the 2013 overnight capital costs to build a Dual Unit
Nuclear Power Plant in the US to be $5,530 per kW; whereas, the OECD
found a median cost of $4,100 per kW globally in 201028, 29. Due to long
construction delays and convoluted regulatory environments, the most recent
reactors builds in the OECD have and continue to incur major cost overruns.
For example, the Tennessee Valley Authority (TVA) increased its cost
estimate for the Watts Bar Unit 2 in the US from $2 billion to over $4 billion,
now scheduled to be completed in December 201530.
To economically compare different sources of energy a levelized cost of
energy (LCOE) methodology is useful (Table 14). Essentially, this approach
utilizes a discounted cash flow (DCF) model and assumes an internal rate of
return (IRR) that is equal to the discount rate. The major assumptions built
into the model include:
Grid connection date – start of cash inflows
Operating lifespan – length of cash flows
WACC – the discount rate used
Decomissioning cost – required reserves
Material errors or ommissions in these assumptions that affect the start and
length of the cash flow period, understate the present value of liabilities, or
materially change the discount rate will directly impact Capex decisions.
Table 14. OECD LCOE Ranges, 2010 (USD/MWh)
Technology*
10%
Nuclear
29-82
42-137
Wind, onshore
48-163
70-234
Gas**
67-105
76-120
Coal**
54-120
67-142
*Solar not included as sample population too small
**Includes carbon price of $30/tonne
Source: IEA/NEA/OECD
The planned commercial nuclear expansion
in Asia, especially China, is the major
growth driver of uranium demand.
Given a low discount rate, nuclear is
competitive
with
other
electricity
generating technologies using a levelized
cost comparison.
25
Chart 9. US 2012 Electricity Production
Costs (O&M and Fuel costs measured in
cents per kWh)
20
Coal
15
Gas
Nuclear
Petroleum
10
A joint OECD/IEA/NEA 2010 study found that at low discount rates “more
capital-intensive, low-carbon technologies such as nuclear energy are the most
competitive solution”; whereas, at high discount rates “coal without carbon
capture equipment, followed by coal with carbon capture equipment, and gasfired combined cycle turbines (CCGTs) are the cheapest sources of
electricity”. France’s successful experience of scaling up nuclear power with
28
29
30
“Project Costs of Generating Electricity”, 2010 Edition, IEA, NEA, OECD
US eia, “Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants” April 2013
TVA, “http://www.tva.com/news/releases/octdec13/wbn2.html”, Oct 2013, www.tva.com
5
0
Source: Nuclear Energy Institute
13
Discount rate
5%
14. RESEARCH & OPINION
NOVEMBER 2013
strong government support appears to suggest the study’s low discount rate
conclusion is correct.
The low discount rate scenario in the study is assumed to be 5% for utilities,
due to either implicit or explicit government sponsorship. We find this
assumed discount rate valid in the current environment. For example, TVA, a
government owned but self-financed enterprise, last issued 30-year debentures
at a record low of 3.50% in December of 2012. At the time this was an
average premium of 62 basis points (bps) over the 30-year Treasury bonds for
the month of December 31, 32. With the median average annual yield of 4.52%
on US 30-year Treasuries since 2000, and assuming a 50-100 bps premium,
gives an approximate discount rate of 5% for TVA. Over an assumed 60-year
lifespan and a 5% discount rate, the estimated Capex is approximately 60% of
total costs over the life of a nuclear reactor, compared to operations and
maintenance (O&M) costs representing 24%, and fuel cycle costs just 16%
(Chart 9).
Importantly, the total cost breakdown over the life of nuclear reactors
highlights a disproportionate relationship. The number of operating reactors
generating electricity significantly influences the price of uranium. However,
the price of uranium as fuel is a marginal input in the decision to generate
electricity using commercial nuclear reactors.
The Athabasca Basin – epicenter for global uranium exploration
Uranium exploration expenditures in Canada have increased from C$45
million in 1990 to C$198 million in 2011, though much of this increase
occurred after 2004 (Table 15)33. Exploration costs in Canada adjusted for
inflation (constant 2012 CAD) measured as a ratio of annual exploration
expenditures per exploratory thousands of meters drilled decreased steadily
from 1990 to a trough of $389 thousand in 2005. The decline in real
exploration costs probably corresponds to the increasing density of
exploration and development activities within proximity of current high-grade
producing mines and deposits predominantly located around the eastern edge
of the Athabasca Basin (Map 2).
The eastern sections of the Basin, accounts for all current Canadian
production and are home to both the McArthur River and Cigar Lake mines,
the highest-grade known deposits in the world. Cameco has slated Cigar Lake
production to start in 201434. The increasing density of activity helps reduce
costs through two avenues:
TVA, “TVA Achieves Historically Low Cost 30-Year Financing” Dec 2012, www.tva.com
US Federal Reserve, http://www.federalreserve.gov/econresdata/statisticsdata.htm
Uranium – 2011 Annual Review and Outlook, Natural Resources Canada
34
Cigar Lake Project, Table 16-3, Cameco, www.cameco.com
31
32
33
14
The total generating capacity from nuclear
reactors is a significant influence on the
price of uranium. Juxtaposed, the price of
uranium has only marginal impact on
reactor generating capacity.
Table 15. Uranium Exploration in Canada
Expenditures
(millions of
CAD)
Exploration
drilling (000’s
of meters)
Year
1990
45
66
1991
44
67
1992
46
79
1993
40
62
1994
36
67
1995
44
75
1996
39
79
1997
58
104
1998
60
95
1999
49
89
2000
34
76
2001
27
47
2002
31
78
2003
31
74
2004
44
118
2005
91
266
2006
214
424
2007
413
655
2008
409
725
2009
188
410
2010
191
317
2011
198
412
2012 (e)
185
378
2013 (e)
158
343
2014 (e)
203
405
2015 (e)
222
432
2016 (e)
244
461
2017 (e)
264
486
2018 (e)
271
496
Source: Natural Resources Canada (NRC)
Exploration costs
per meter drilled
(CAD)
682
657
582
645
537
587
494
558
632
551
447
574
397
419
373
342
505
631
564
459
603
481
489
462
500
515
530
543
546
15. RESEARCH & OPINION
NOVEMBER 2013
1.
2.
Existing and expanding infrastructure can be treated as a public good –
roads, utilities, personnel, services, etc. can be shared reducing costs and
wait times.
Improved geological understanding of underground formations within
particular zones increases the probability of successful exploration.
The median exploratory distance drilled between 2006-2011 was 418km per
annum, which is almost a six-fold increase from the median 76km drilled per
annum between 1990-2003. Exploration costs per meter in 2011 measured in
2012 dollars were 54% below where they were in 1990. Increased exploration
in proximity to the recent large PLS discovery, a joint venture between
Fission Uranium (TSXv: FCU) and Alpha Minerals (TSXv: AMW), should
lead to reduced real exploration costs through the forecast period (Table 16).
Historically, Canadian uranium exploration has been correlated with
movements in real prices for uranium. Regressing kilometers drilled per
annum against the average annual inflation adjusted price of uranium over the
period of 1990-2011 yields an R2 of 77% indicating fairly robust correlation.
Intuitively, this result makes economic sense as higher real uranium prices
would be expected to attract financing for uranium exploration and
development. Nominal exploration expenditures in Canada materially
increased starting in 2004 and peaked at $413 million in 2007, corresponding
to upward price movements for uranium. We forecast exploration dollars to
bottom out in 2013 before trending upward; increasing approximately 70% by
2018, following a nominal uranium price increase of 76% over the same
period (Table 15)35.
Our uranium price estimates remain below the median analyst estimates,
though still above average extraction costs in the Basin (Chart 10 & Table 17).
This will attract greater exploration efforts to the Basin as other global
uranium deposits featuring marginal economics find it difficult to finance
future operations. In fact, the current $50 per pound long term price of U3O8 is
below the psychologically important $60 barrier that many analysts believe is
required to recoup total costs for approximately 1/3 of the industry’s current
global production. Though using figures from the 2011 OECD Redbook and
adjusting for mining inflation, we find 25% of globally identified uranium
resources unprofitable below $60 per pound (Table 17). However, if we
assume a desired profit margin of at least 20%, over half of the globally
identified uranium resources are unattractive if the long term price drops
below $44 per pound. Uranium maintaining a price significantly above $60
before 2016 will be difficult as the current global glut of uranium supplies due
to Japanese reactor shutdowns will need to be worked through. As previously
mentioned, over the medium term the combined affects from the ramp-up in
production coming from Cigar Lake and the reduced number of operating
Table 16. Real Exploration Costs per meter Drilled
(constant 2012 CAD)
Period
Absolute Change
1990-2011
-53.9%
2011-2018 est
-12.1%
Source: NRC and ZC estimates
CAGR
-3.6%
-1.8%
ZC anticipates 2013 to be a trough for
Canadian uranium exploration dollars,
and rebound strongly over the next five
years; increasing by approximately 70%
by 2018, following a nominal price
increase of 76% for uranium (Table 15).
100
Chart 10. Annual Average Spot Price of U3O8 and Canadian
Uranium Exploration in millions of USD
90
400
350
80
300
70
250
60
50
200
40
150
30
100
20
50
10
0
0
Source: Cameco, NRC, Federal Reserve, and ZC estimates
Table 17. Identified Resources of U3O8
Cost Ranges Adjusted for Mining Inflation per pound U3O8
< $18
Australia
Kazakhstan
Russia
Canada
Namibia
US
Niger
World total
< $36
< $59
< $117
-
3,508.1
4,319.8
4,520.5
123.2
1,263.0
1,635.5
2,131.0
-
144.0
1,266.6
1,690.6
912.0
1,083.6
1,218.5
1,597.3
-
17.2
678.5
1,346.9
-
101.7
539.2
1,227.4
14.3
14.3
1,094.5
1,158.2
1,770.2
8,003.4
13,849.5
18,449.6
2013 expected reactor requirements = 169 million pounds U3O8
35
Discrepancies in Canadian uranium exploration expenditures between Table 15 and Chart 10 resulting from
CAD to USD FX conversion
15
Source: OECD Uranium Red Book 2011 and ZC estimates
16. RESEARCH & OPINION
NOVEMBER 2013
Japanese reactors threaten to offset lost secondary supply from the end of the
Megatons to Megawatts program between the US and Russia 36 (Table 18).
Scenario Production Analysis – no place like home
Table 18. Uranium Production Se nse tivity Analysis base d
on ZC Adaptation of IEA's NPS, 2011-2035
R eacto r
s t a t us
Capitulation of many uranium exploration and production (E&P) projects in
high-cost jurisdictions appears only a matter of time. Both Namibia and Niger
have large high-cost uranium resources that are having difficulty in the current
pricing environment. For example, Australian uranium miner, Paladin, has
written-down assets and posted heavy losses from their mining operations in
both Malawi and Namibia.37 The Basin is like no other known uranium
production center in the world. Canada has over 900 million pounds of U 3O8
that could be attractive with a current long term price potentially as low as $22
per pound (assuming a 20% profit margin). Canada has approxmately 52% of
the global identified uranium resources in the lowest cost bracket as opposed
to 7% for Kazakhstan, the leading global producer. In this context,
Kazakhstan is surely struggling and faces difficult decisions. A material 41%
of Kazakhstan’s identified uranium resources are unprofitable below an
estimated $60 per pound. Generally, as the largest producer, Kazakhstan
should curtail production forcing uranium prices higher. However, a
combination of increasing uranium prices as a result of reduced production
from Kazakhstan would risk ceding market share to Australia. Globally,
Australia has the largest share of identified uranium resources, most of which
currently lie dormant waiting for higher uranium prices to become economic.
Whereas, the economics of uranium production from the Basin are materially
more advantaguous. High-grade uranium deposits with developed
infrastructure reduces the cost of extraction and ensures the Basin wll remain
attractive for exploration.
The IEA’s 2011 New Policy Scenario (NPS) calls for investment in new
nuclear plants of $1,125 billion between 2011-2035. We consider this our
base-case scenario, and assume overnight construction costs of $4.1 billion
entirely debt financed, with an average 5-years constuction period and a 5%
interest rate compounded semi-annually. This gives a total average Capex of
$5.2 billion per reactor.38 Under this scenario, the number of operational
reactors after accounting for permanent shutdowns following a 60-year
operating life, increases by 18% to 514 reactors by 2040. Assuming all
secondary supplies have been exhausted, such that all reactor requirements are
met through primary mining production, leads to a scenario where annual
uranium production would have to increase from 150 million pounds in 2012
to 219 million pounds by 2040 (Table 18).
WNA, Military “Warheads as a Sources of Nuclear Fuel”, http://world-nuclear.org/info/Nuclear-FuelCycle/Uranium-Resources/Military-Warheads-as-a-Source-of-Nuclear-Fuel/
37
Esmarie Swanepoel, “Paladin posts $193.5m interim loss”, Mining Weekly Online, Feb 2013
38
We assume new reactor constructions are net 1000 MW
36
16
Currently
Operable
N um be r
of
re a c t o rs
435
M e dia n
S upply f ro m
M ining
glo ba l
do wnble nd pro duc t io
re a c t o r
o f H EU
n est.
re quire m e nt
s
m illio n po unds o f U 3 O 8
171
21
150
Be st Case , 2040 O utlook
New grid
connections
294
permanent
shutdowns
119
Results
610
260
0
260
-100%
73%
Additional U3 O8 Production Requirements
Growth
40%
52%
131
As s um ptio ns : 1) 50 J a pa ne s e re a c to rs te m o ra rily s hutdo wn will re s ta rt
2) C o m ple tio n o f 2 J a pa ne s e re a c to rs unde r c o ns truc tio n
3) C a pe x pe r re a c to r fa lls to $ 3.5 billio n
4) R e a c to r no rm a l o pe ra tio ns = 60 ye a rs inc . e xte ns io n
Base Case , 2040 O utlook
New grid
connections
permanent
shutdowns
Results
198
119
514
219
0
Additional U3 O8 Production Requirements
Growth
18%
28%
219
90
-100%
46%
As s um ptio ns : 1) 50 J a pa ne s e re a c to rs te m o ra rily s hutdo wn will re s ta rt
2) C o m ple tio n o f 2 J a pa ne s e re a c to rs unde r c o ns truc tio n
3) C a pe x pe r re a c to r re m a in fixe d a t $ 5.2 billio n
4) R e a c to r no rm a l o pe ra tio ns = 60 ye a rs inc . e xte ns io n
Worst Case , 2040 O utlook
New grid
connections
permanent
shutdowns
Results
198
330
303
129
20
Additional U3 O8 Production Requirements
Growth
-30%
-24%
109
(41)
-7%
-27%
As s um ptio ns : 1) Only m o de rn re a c to rs in J a pa n will re s ta rt
2) Ge rm a ny is s uc c e s s ful in tra ns itio ning to no n-nuc le a r
3) Euro pe & US re a c to rs c lo s e pre m a ture ly (< 60 ye a rs )
Source: IEA’s WEO 2011 and ZC estimates
The Athabasca Basin is the global low-cost
uranium supplier. This factor is extremely
important if the worst case scenario
becomes a reality. The Basin will profit
from exploration dollars transitioning out of
high cost regions in Africa, Kazakhstan, and
Australia.
17. RESEARCH & OPINION
NOVEMBER 2013
Under the worst-case scenario, many assumptions are loosened including
allowing for early reactor retirements in the US and Europe, and material
secondary uranium supplies principally from phosphate production. Up until
the mid 1990’s, approximately 20% of US uranium demand was met as a byproduct from phosphate mines.39 This practice ended due to cost constraints.
However, a new process called PhosEnergy has the potential to supply up to
20 million pounds of U3O8 annually based on current global phosphate rock
production.40 Cameco is a material investor in the technology, and
PhosEnergy Limited forecasts cash operating costs of $18 per pound U3O8
derived from a pre-feasibility level engineering study concluded in March
2013. If cost estimates are to be believed then the PhosEnergy Process will
displace a material amount of high-cost uranium mining production. If the
worst-case scenario were to materialize, annual primary mining production
could fall 27% to 109 million pounds by 2040.
Table. 19 Share Information
TSX-V:
LK
FSE:
6LL
Shares Outstanding:
32.7 M
Options:
3.1 M
Warrants:
10.5 M
Fully Diluted:
46.3 M
Management, Founders,
and Insiders:
40%
Symbols:
Market Cap (as at closing
bid on 11/11/13):
Cash* (est. as at 10/31/13):
ZC share ownership
Source: LK
Table 20. Historic and Current Exploration Efforts for
Otherside & Riou Lake Properties
Eldorado
Nuclear
A s s a y ( be s t
re s ult )
E xplo ra t io n A c t iv it ie s
C o m pa ny
In conclusion, under either the best-case, worst-case, or any scenario in
between, the Basin offers upside exposure to higher uranium prices resulting
from strong growth in commercial nuclear energy generation, while offering
important downside protection from increasing uncertainty for the industry.
For this reason, exploration in the Basin will remain resilient and future
discoveries in the region should command a premium – potentially rewarding
properly diversified investors who stay the course.
C$3.4 M
C$987,063
4.6 M
Boulder Prospecting
4.9% U3O8
Soil Geochemical surveys
5-10 ppm U
Ground
Geophysics:
DC resistivity
Horizontal loop EM
Gravity
Drilling
UEX Corp Airborne
Geophysics:
0.18% U3O8
Eldorado and
UEX
exploration
efforts costs
upwards of
$3M
MegaT EM
Gravity
Magnetic
Lakeland Resources – update Gibbon’s Creek exploration
RadioMetric
LK
LK recently closed a C$1 million equity financing for exploration of the
Gibbon’s Creek target located within their Riou Lake property (Map 1, 3).
There exists extensive data from historical exploration conducted on the Riou
Lake property (Table 20). LK is currently conducting an at-surface
exploration program to better define attractive drill targets and intends to
commence a 1500-2000m drill program in 1Q14. We expect Radon Ex results
from the property shortly, and believe positive results will bring market
awarness to the stock. We have created a speculative exploration budget based
on LK’s quarterly financial statements and average Canadian uranuim
exploration costs (Table 21). There is potential for material cost savings while
drilling due to the property’s proximity to Stoney Rapids and year round
access. LK could presumably drill a total of 1700m and retain enough cash to
cover 1-2 months of sales, general, and administrative (SG&A) expenses.
Ideally, this would permit LK to raise additional financing for future
exploration at a price above C$0.10 on the back of positive drilling results.
Surface Scintillometer Prospecting
Line-cutting
Ground DC Resistivity
Source: LK press releases
Table 21. Potential Exploration Program Size Through
1Q14 Assuming No Additional Equity Raise
Opening cash balance
(11/01/13)
Monthly expenditures
$
987,063
$
(184,765)
$
802,298
$ 300,000
$
(300,000)
$
502,298
$
$
450
$ 36,953
Exploration budget
At-surface exploration
activities
Drilling budget
Cost per meter (range)
Source: LK & ZC estimates
17
start expected
1Q13
Drilling
Ending cash balance post
1700m drill program
WNA, “Uranium from Phosphate”, http://world-nuclear.org/info/Nuclear-Fuel-Cycle/UraniumResources/Uranium-from-Phosphates/
40
The PhosEnergy Process, PhosEnergy Ltd, www.phosenergy.com
39
Results to
follow shortly
Radon Ex soil survey
Maximum exploration
drilling (m)*
Max. number of drill holes
@ 150m each
-Derek Hamill
Research & Communications
identified 3x1
km gravity low
250
2,009
1,783
13
12
$ 77,298
$
37,298
18. RESEARCH & OPINION
NOVEMBER 2013
Zimtu Capital Corp. is a TSX listed
company focused on creating value through
new resource exploration company creation
and property generation.
SHARE INFORMATION:
OUR BUSINESS MODEL:
Fully Diluted:
12,680,387
Recent Price:
$0.33
Build and actively invest in new resource issuers.
Listed on which exchange? TSX, TSXv, CNSX, FSE, and ASX.
Symbols:
TSXv: ZC
FSE: ZCT1
Shares Outstanding:
11,265,487
Options:
1,414,900
(Avg. $1.06)
52 Week Range:
Locate and acquire mineral properties of merit and
connect them with exploration companies.
$0.28 - $0.90
*as of October 29th, 2013
Located where? Canada, USA, Tanzania, Australia, and Peru
Why
Zimtu?
Company Name
Western Potash
Commerce Resources
Pasinex Resources
Pacific Potash
Kibaran Nickel
Prima Fluorspar
Critical Elements
Equitas Resources
Arctic Star Exploration
Lakeland Resources
Big North Graphite
Red Star Ventures
Success with constant
project generation and
company building
Diversification
of commodities
and geography
Symbol
TSX:WPX
TSXv:CCE
CNSX:PSE
TSXv:PP
ASX:KNL
TSXv:PF
TSXv:CRE
TSXv:EQT
TSXv:ADD
TSXv:LK
TSXv:NRT
TSXv:RSM
Shares
2,757,154
3,756,178
10,435,500
1,750,000
714,300
7,520,000
1,500,000
8,394,000
1,955,283
4,647,000
2,603,000
1,650,000
46,682,41
5
Success with constant
project generation and
company building
Commodity
Potash
Rare Metals/Rare Earths
Base/Precious Metals
Potash
Graphite
Fluorspar
Rare Metals/Lithium
Copper/Gold
Gold/Diamonds
Uranium
Graphite
Oil/Gas
18
39 Other Public
Companies in
Portfolio:
18,605,973 shares
Zimtu Total
Exposure:
Public Companies:
53 companies
Private Companies:
18 companies
19. RESEARCH & OPINION
NOVEMBER 2013
Disclaimer and Information on Forward Looking Statements: All statements in this newsletter, other than statements of historical fact
should be considered forward-looking statements. These statements relate to future events or future performance. Forward looking statements
in this document include that discoveries in the Athabasca Basin should command a premium; that Lakeland can become a low cost producer
of uranium; that the Radon Ex results are expected shortly and positive news would bring market awareness to Lakeland’s stock; that Lakeland
can drill 1700 meters and retain sufficient G&A capital, and that Lakeland will be able to raise additional cash at prices above $0.10. These
statements involve known and unknown risks, uncertainties and other factors that may cause actual results or events to differ materially from
those anticipated in such forward-looking statements. Risks include misinterpretation of data, inability to attract and retain qualified people,
inabiilty to raise sufficient funds to carry out our plans or even to continue operations, among other risks. Risks and uncertainties respecting
mineral exploration companies and Lakeland in particular are disclosed in the annual financial or other filing documents of Lakeland and other
junior mineral exploration companies as filed with the relevant securities commissions, and should be reviewed by any reader of this article.
Despite encouraging results, there may be no commercially viable minerals on Lakeland’s property, and even if there were, Lakeland may not
be able to commercialize them.
About Zimtu Capital Corp. and this Newsletter
This newsletter is an online financial newsletter published by Zimtu Capital Corp. We are focused on researching and marketing resource
public companies where we have a pre-existing relationship (almost always as shareholder and a provider of services). Nothing in this article
should be construed as a solicitation to buy or sell any securities mentioned anywhere in this newsletter. This article is intended for
informational and entertainment purposes only. The author of this article and its publishers bear no liability for losses and/or damages arising
from the use of this article.
Be advised, Zimtu Capital Corp. and its employees are not egistered broker-dealers or financial advisors. Before investing in any securities, you
should consult with your financial advisor or a registered broker-dealer.
Never make an investment based solely on what you read in an online newsletter, including Zimtu's online newsletter, especially if the
investment involves a small, thinly-traded company that isn't well known.
Most companies featured in our newsletter, and on our website, are paying clients of Zimtu (including Lakeland - details in this disclaimer). In
many cases we own shares in the companies we feature. For those reasons, please be aware that we are extremely biased in regards to the
companies we write about and feature in our newsletter and on our website. Because our featured companies pay fees to us for our
administration and public relations services and rent and we almost always own shares in the companies we feature, you must recognize the
inherent conflict of interest involved that may influence our perspective on these companies. This is why we stress that you conduct extensive
due diligence as well as seek the advice of your financial advisor and a registered broker-dealer before investing in any securities. When
investing in speculative stocks of this nature, it is possible to lose your entire investment.
Information in this report has been obtained from sources considered to be reliable, but we do not guarantee that it is accurate or complete. Our
views and opinions regarding the companies we feature on in our newsletter are our own views and are based on information that we have
received, which we assumed to be reliable. We do not guarantee that any of the companies mentioned in this newsletter will perform as we
expect, and any comparisons we have made to other companies may not be valid or come into effect.
Cautionary Note Concerning Estimates of Inferred Resources:
This report may use the term "Inferred Resources". U.S. investors are advised that while this term is recognized and required by Canadian
regulations, the Securities and Exchange Commission does not recognize it. "Inferred Resources" have a great amount of uncertainty as to their
existence, and great uncertainty as to their economic and legal feasibility. It cannot be assumed that all or any part of an Inferred Resource will
ever be upgraded to a higher category. Under Canadian rules, estimates of "Inferred Resources" may not form the basis of feasibility or other
economic studies. U.S. investors are also cautioned not to assume that all or any part of an "Inferred Mineral Resource" exists, or is
economically or legally mineable.
19
20. RESEARCH & OPINION
NOVEMBER 2013
Questions? Contact Us.
VANCOUVER, CANADA
STUTTGART, GERMANY
TORONTO, CANADA
DAVE HODGE
SVEN OLSSON
SEAN CHARLAND
President & Director
PH. +1.604.681.1568
dhodge@zimtu.com
Director
PH. +49 7161 290 967
solsson@zimtu.com
Director
PH. +1.647.926.7326
scharland@zimtu.com
VANCOUVER, CANADA
VANCOUVER, CANADA
VANCOUVER, CANADA
DEREK HAMILL
MATT SROKA
RYAN FLETCHER
Research & Communications
PH. +1.604.681.1568
dhamill@zimtu.com
Corporate Communications
PH. +1.604.681.1568
msroka@zimtu.com
Director & Property Transactions
PH. +1.604.681.1568
rflectcher@zimtu.com
20