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Showing posts with label clean. Show all posts
Showing posts with label clean. Show all posts

Tuesday, February 21, 2012

Talison Lithium to Present at the Jefferies 2012 Global Clean Technology Conference


Perth, Western Australia, February 21, 2012 – Talison Lithium Limited (“Talison” or the “Company”) (TSX: TLH | US: TLTHF ) announced today that it will present at The Jefferies 2012 Global Clean Technology Conference, held in New York City on February 23, 2012. Peter Oliver, Chief Executive Officer and Managing Director, will present at 10.00am EST.
The Jefferies Global Clean Technology Conference will highlight over 100 leading public and private companies across the clean technology spectrum, bringing together industry leaders to help investors identify near and long-term investment opportunities, and to discuss clean technology trends globally.
The presentation will be webcast, and a link to the webcast will be available on Talison’s website, prior to the event, at www.talisonlithium.com.
For more information about the conference or to schedule a one-on-one meeting with Mr. Oliver, please contact Talison’s investor relations representative listed below.
About Talison
Talison is a leading global producer of lithium. Talison mines and processes the lithium bearing mineral spodumene at the Greenbushes Lithium Operations in Western Australia. In addition, Talison explores for lithium at the Salares 7 lithium project made up of seven salars (brine lakes and surrounding concessions) located in Region III, Chile. Talison has an extensive, well established global customer network and a leading position in the growing Chinese market.
To view the entire press release please visit: 2012-02-21 Talison Lithium Ltd. Press Release
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Friday, December 23, 2011

Rodinia Lithium solidifies resource estimate!

RODINIA LITHIUM FILES FAVOURABLE PRELIMINARY ECONOMIC ASSESSMENT TECHNICAL REPORT
  • FAVOURABLE PEA TECHNICAL REPORT FILED ON SEDAR
     
  • NO MATERIAL DIFFERENCES FROM RESULTS ANNOUNCED IN PRESS RELEASE DATED NOVEMBER 7, 2011
     
  • PEA CONTAINS A COMPREHENSIVE SUB-SURFACE SALAR MODEL TO END GATE BREAKDOWN OF THE DIABLILLOS LITHIUM BRINE PROJECT WITH PRE-TAX NPV OF US$561 MILLION FOR 15,000 TPA LITHIUM CARBONATE AND US$964 MILLION FOR A 25,000 TPA LITHIUM CARBONATE OPTION
Toronto, Canada, December 23, 2011: Rodinia Lithium Inc. (“Rodinia” or the “Company”) (TSX-V: RM; OTCQX: RDNAF) is pleased to announce that the Company has filed a National Instrument 43-101-compliant Technical Report dated December 22, 2011, effective as of November 8, 2011 entitled “NI 43-101 Technical Report Preliminary Economic Assessment Salar de Diablillos Project Salta, Argentina”, prepared by SRK Consulting (U.S.) Inc. (the “Report”) under the Company’s profile on SEDAR at www.sedar.com.  The Report contains a comprehensive sub-surface to end gate breakdown of Rodinia’s Preliminary Economic Assessment (“PEA”) on the 100% owned Salar de Diablillos lithium brine project (“Diablillos” or “Salar”) located in Salta Province, Argentina, the results of which were announced in a press release dated November 7, 2011.
The Report includes:
  • Detailed geological overview and sub-surface brine model
  • Preliminary processing flow sheets and site layout
  • Overview of connections to key infrastructure including, water, power and transportation
  • Sensitivities of the project to changes in lithium carbonate price, operating and capital costs
  • High level project development schedule
There are no material differences between the results announced in the press release dated November 7, 2011 and the final PEA.
PEA Highlights (all currency is US$, pre-tax)
The PEA outlines an operation producing 15,000 tonnes lithium carbonate (“LC”) per year and approximately 51,000 tonnes of KCl (“potash”) per year, projecting a 34% internal rate of return (“IRR”) pre-tax and a $561 million pre-tax net present value (“NPV”) at an 8% discount rate.  The PEA also outline’s Rodinia’s available option to increase production to 25,000 tonnes LC and 85,000 tonnes potash per year.  This increased production scenario generates a much higher pre-tax NPV estimate of $964 million, along with a pre-tax IRR of 36%.  A summary of the key economic findings, as reported in the November 7, 2011 press release, includes:
Production Case: 15,000 tpa LC 25,000 tpa LC
NPV at 8% discount rate $561 million $964 million
IRR 34% 36%
Total Initial Capital Costs $144 million $220 million
Operating Costs per tonne LC* $1,519 $1,486
Operating Costs per tonne LC with potash and boric acid credits ($703) ($762)
Operating Costs per tonne KCl* $170 $160
Average annual free cash flow* $89 million $150 million
Mine life 20+ 20+
Annual production rate of potash* 51,000 85,000
Annual production rate of boric acid* 18,000 31,000
Projected commencement of production 2015 2015
Years to payback 1.6 years 1.5 years
*Averaged using years of full production, discounting ramp up period.
*Assumes average sale price of US$5,500/t LC; US$620/t KCl; and US$1,150/t boric acid.
The PEA is preliminary in nature, includes inferred brine resources that are considered too speculative geologically to have the economic considerations applied to them that would enable them to be categorized as mineral reserves, and there is no certainty that the estimates of the PEA will be realized.
About Rodinia Lithium Inc.:
Rodinia Lithium Inc. is a Canadian mineral exploration and development company with a primary focus on Lithium exploration and development in North and South America.  The Company is also actively exploring the commercialization of a significant Potash co-product that is expected to be recoverable through the lithium harvesting process.
Rodinia’s Salar de Diablillos lithium-brine project in Salta, Argentina, contains a recoverable resource of 2.82 million tonnes lithium carbonate equivalent and 11.27 million tonnes potassium chloride equivalent.  The project contains a recoverable inferred resource of 952,553,000 m3 grading 556 mg/L lithium and 6,206 mg/L potassium. Throughout 2011, Rodinia will focus on continuing to develop the Diablillos project by completing additional drilling and advancing through scoping study.
The Company also holds 100% mineral rights to approximately 70,000 acres in Nevada’s lithium-rich Clayton Valley in Esmeralda County, and is currently in the process of assessing the size, quality and processing alternatives of this deposit.  The Clayton Valley project is located in the only known lithium-brine bearing salt lake in North America, and looks to represent the only new source for domestic lithium carbonate supply.
The Projects are supervised by Ray Spanjers, Rodinia’s Manager of Exploration. Mr. Spanjers is considered a Qualified Person, as defined by National Instrument 43‐101.
Please visit the Company’s web site at www.rodinialithium.com or write us at info@rodinialithium.com
For further information please contact
Investor Cubed Inc.   Aaron Wolfe
Investor Relations   Vice-President, Corporate Development
Tel: +1 (647) 258-3311  Tel: +1 (416) 309-2696
Cautionary Notes
Except for statements of historical fact contained herein, the information in this press release constitutes “forward-looking information” within the meaning of Canadian securities law. Such forward-looking information may be identified by words such as “plans”, “proposes”, “estimates”, “intends”, “expects”, “believes”, “may”, “will” and include without limitation, statements regarding the impact of the drill program at the Diablillos property and results of such drill program; the potential of the Diablillos property; anticipated timing with respect to the development of the Diablillos property, the potential results and timetable for further exploration with respect to the Clayton Valley project and the Diablillos property, the timetable with respect to future acquisitions and exploration developments at Clayton Valley and Diablillos, timetable for further exploration, analysis and development, title disputes or claims; and governmental approvals and regulation. There can be no assurance that such statements will prove to be accurate; actual results and future events could differ materially from such statements.  Factors that could cause actual results to differ materially include, among others, metal prices, competition, financing risks, acquisition risks, risks inherent in the mining industry, and regulatory risks. Most of these factors are outside the control of the Company. Investors are cautioned not to put undue reliance on forward-looking information. Except as otherwise required by applicable securities statutes or regulation, the Company expressly disclaims any intent or obligation to update publicly forward-looking information, whether as a result of new information, future events or otherwise.
NEITHER THE TSX VENTURE EXCHANGE NOR ITS REGULATION SERVICES PROVIDER (AS THAT TERM IS DEFINED IN THE POLICIES OF THE TSX VENTURE EXCHANGE) ACCEPTS
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Monday, November 22, 2010

Carbon Sciences Announces Successful Performance Testing of Company’s Proprietary Catalyst , for transforming greenhouse gases into pure gasoline.


Novel Catalyst Is Key to Transforming Greenhouse Gases into Gasoline

Santa Barbara, CA - November 22, 2010 - Carbon Sciences, Inc. (CABN), the developer of a breakthrough technology to transform greenhouse gases into gasoline and other portable fuels, today announced the successful performance testing of its novel catalyst.

“In August of this year, we successfully synthesized the raw catalyst, a vital step in the development process. Now, we have tested the catalyst and it works as planned. This performance validation is a major milestone for us in demonstrating the commercial feasibility of our breakthrough technology,” said CEO Byron Elton. “The results from our laboratory tests have been very encouraging and represent an important step forward in our quest to make gasoline without using crude oil,” he added.

“From literally thousands of options, we have narrowed down our choice to two catalyst designs. More importantly, our rigorous testing shows that the catalysts work in accordance with earlier computer simulations,” said Dr. Naveed Aslam, the company’s Chief Technology Officer.

Dr. Aslam continued, “The key features we have confirmed in our tests are high conversion efficiency and potential for catalyst longevity, which translates directly into commercial viability. High conversion efficiency means lower capital cost to produce substantial quantities of fuel. Longevity means that our systems will not require frequent shutdown for maintenance and catalyst cleaning. These are the primary challenges faced by previous industry attempts. Our initial laboratory results lead us to believe that we will be able to overcome these challenges at commercial scale. Lastly, unlike catalysts previously considered by others, our catalysts are designed using common metals that are plentiful and inexpensive.”
 

The United States consumes 140 billion gallons of gasoline each year and spends nearly a billion dollars per day on foreign oil. Carbon Sciences estimates that its technology, when commercialized, can be used to meet all the country’s gasoline requirements using just 23 trillion cubic feet of natural gas and 586 million tons of CO2 without using a single drop of crude oil or competing with current natural gas consumption. 

“The successful commercialization of our technology will address the global fuel crisis, result in domestic energy independence and will create millions of green jobs to power America and revitalize our economy,” said Elton. “Because we are using significant amounts of CO2 in the process that would otherwise be emitted into the atmosphere, it is an environmentally friendly technology,” he added.

About Carbon Sciences, Inc.

Carbon Sciences Inc. is developing a breakthrough CO2 based gas-to-liquids technology to transform greenhouse gases into liquid portable fuels, such as gasoline, diesel and jet fuel. Innovating at the forefront of chemical engineering, we are developing highly scalable clean-tech processes to produce liquid fuels from naturally occurring or human-made greenhouse gas emissions. From sources such as natural gas fields, refinery flare gas, landfill gas, municipal waste, algae and other biomass, there is an abundant supply of inexpensive feedstock available to produce large and sustainable quantities of liquid fuel to replace petroleum for global consumption, thereby eliminating our dependence on petroleum. To learn more about the Company, please visit our website at http://www.carbonsciences.com.

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Safe Harbor Stmt: Matters discussed in this press release contain statements that look forward within the meaning of the Private Securities Litigation Reform Act of 1995. When used in this press release, the words "anticipate," "believe," "estimate," "may," "intend," "expect" and similar expressions identify such statements that look forward. Actual results, performance or achievements could differ materially from those contemplated, expressed or implied by the statements that look forward contained herein, and while expected, there is no guarantee that we will attain the aforementioned anticipated developmental milestones. These statements that look forward are based largely on the expectations of the Company and are subject to a number of risks and uncertainties. These include, but are not limited to, risks and uncertainties associated with: the impact of economic, competitive and other factors affecting the Company and its operations, markets, product, and distributor performance, the impact on the national and local economies resulting from terrorist actions, and U.S. actions subsequently; and other factors detailed in reports filed by the Company.


Previous Articles:
Carbon Recycling will help power the future
Carbon Sciences files second patent in GTL technology




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