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Showing posts with label Gas to liquids. Show all posts
Showing posts with label Gas to liquids. Show all posts

Monday, April 25, 2011

Lithium-Ion battery manufacturer places executive on board of directors of Rodinia Lithium Corp.


Wednesday, April 13, 2011

Carbon Sciences Engages Industry Experts to Accelerate Commercial Development

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Gas-to-Liquid Experts to Assist in Commercial Catalyst Design and Process Engineering

Santa Barbara, CA - April 13, 2011 - Carbon Sciences, Inc. (CABN), the developer of a breakthrough technology to make transportation fuels from natural gas, today announced a development agreement with Emerging Fuels Technology (EFT), Tulsa, Oklahoma.

Wednesday, February 9, 2011

Carbon Sciences GTL Technology

Carbon Sciences Accelerates Development of Breakthrough CO2 to Fuel Technology
Company Energized by Solid Technology Foundation

Santa Barbara, CA - February 8, 2011 - Carbon Sciences, Inc. (CABN), the developer of a breakthrough technology to transform greenhouse gases into gasoline and other portable fuels, today announced details of its plan to accelerate the development of its breakthrough CO2 to fuel technology.

Carbon Sciences’ technology is based on a high performance catalyst for the efficient transformation of CO2 and methane gas into a synthesis gas, which can then be processed into gasoline and other fuels. The fundamental reaction being catalyzed is known as CO2 reforming of methane.

Thursday, February 3, 2011

Making Gasoline without Crude Oil - GTL Technology

Carbon Sciences CEO article featured in Corp! Magazine

Santa Barbara, CA - February 3, 2011 - Carbon Sciences, Inc. (CABN), As a recent UC Davis study indicates, the global oil supply is set to run dry 90 years before replacements, such as renewable energy, are ready. Such measurements are helpful in driving development and establishing market-ready deadlines, but perhaps their largest contribution is the conversation they spark about how to address this problem.

Thursday, January 27, 2011

Cougar Oil and Gas upgraded in Analysts estimates - Alberta Oil Sands Junior seeks AMEX listing!

Oil and Gas Investors Reacting to Positive Corporate Developments

NEW YORK--(BUSINESS WIRE)-- (Investrend Research Syndicate) -- Ernest C. Schlotter, a senior analyst with Zurich, Switzerland-based SISM Research and a four star analyst according to StarMine, has issued an update on Cougar Oil and Gas Canada, Inc. (OTCBB: COUGF) in a four-page report dated January 24, 2011, which includes an updated 18-month stock target valuation and analyst's rating/recommendation.

The full report includes important disclosures, disclaimers and analyst information. Investrend and SISM Research both advise investors to exercise a reasonable degree of due diligence before trading in the equities of any public company, including carefully reading entire analyst reports and report disclosures, and then only in conjunction with advice from a registered financial advisor or broker. Investrend and SISM Research both further advise that any analyst rating, recommendation, target valuation, price target or opinion should be considered merely a portion of an investor’s total investigative process. More about ratings and valuations is available via Investrend (at http://www.investrend.com/ratings).

A complimentary copy of the report is available for download via Investrend Syndications (at http://www.investrend.com/sism) as well as via the SISM Research website (at http://www.sism.com/researchreportscougar.htm).

According to Schlotter’s report:

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.

Subscribe to the Carbon Sciences Newsletter

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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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Monday, September 20, 2010

Rodina Lithium discovers high grade lithium deposit on it's Argentina property.

TORONTO, ONTARIO, Sep 17, 2010 (MARKETWIRE via COMTEX) -- Rodinia Lithium Inc. ("Rodinia" or the "Company") /quotes/comstock/11v!e:rm (CA:RM 0.32, +0.04, +14.29%) (), is pleased to report that it has discovered high-grade lithium and potash during its first reverse circulation drill program on its Salar de Diablillos lithium-brine project in Salta, Argentina ("Diablillos" or the "Salar"). The Company is encouraged by these results and believes, based on analysis and previously published data, that they may be indicative of a sizeable, continuous aquifer capable of becoming a producer.



William Randall, President and CEO of Rodinia, commented "It is encouraging that this discovery drill hole has intersected grades similar to our auger drill program, only now to depths of 120 metres. The results of this drill hole, and the geophysical data available, provides further encouragement for the potential to delineate a large scale resource. Rodinia has mounted the first ever drill campaign for new lithium and potash on Diablillos and will continue to work on defining a National Instrument 43-101 compliant resource estimate on the Salar by year's end."



Results from the discovery drill hole D-RC-01, the first drill hole completed on the project, intersected lithium ("Li") values of up to 810 milligrams per litre ("mg/L") and returned averages of 713 mg/L Li, 9,000 mg/L potassium ("K"), and 543 mg/L boron ("B") over the 120 metre drill hole depth. The hole, located in the north western portion of the salar nucleus, intersected lithologies primarily composed of sand and gravel, with coarser material encountered down hole. The zone continues to be open at depth and in all directions.



The lithium concentrations measured in the discovery drill hole range from 650 to 810 mg/L, demonstrating a remarkably even grade distribution over the aquifer, identifying the entire stratigraphic column as a potential producer. Samples were taken every six metres to ensure different characteristics of the brine column were captured, with the intention of identifying the horizons with the most potential for production. The geochemistry of the brine samples remained comparable to those encountered during auger drilling (see previous press release dated May 26, 2010), with average magnesium-to-lithium ratio of 3.7 and a sulphate-to-lithium ratio of 9.3.





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depth (metres) milligrams per litre ratio

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Sample From To Li K B Mg:Li SO4:Li

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D-RC-01-001 6 12 810 8800 570 3.5 10.7

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D-RC-01-002 12 18 800 8800 560 3.5 10.5

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D-RC-01-003 18 24 720 8900 540 3.8 9.3

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D-RC-01-004 24 30 760 8700 560 3.7 10.9

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D-RC-01-005 36 42 650 8900 530 4.2 8.5

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D-RC-01-006 42 48 660 9000 540 4.1 6.1

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D-RC-01-007 48 54 650 8800 540 4.0 7.7

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D-RC-01-008 54 60 650 8800 520 4.0 8.8

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D-RC-01-009 60 66 660 9000 500 3.8 8.2

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D-RC-01-010 66 72 710 9200 540 3.7 9.7

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D-RC-01-011 72 78 700 9100 550 3.7 9.6

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D-RC-01-012 78 84 750 9100 560 3.6 9.9

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D-RC-01-013 84 90 720 9300 540 3.6 8.6

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D-RC-01-014 90 96 710 9100 540 3.8 9.2

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D-RC-01-015 96 102 730 9300 540 3.4 9.9

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D-RC-01-016 102 108 740 9300 550 3.1 10.5

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D-RC-01-017 108 114 720 9000 560 3.3 10.4

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D-RC-01-018 114 120 700 8900 540 3.6 9.1

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A sampling procedure was enforced by management to ensure sample integrity during the drill program. Where possible, brine and sediments samples were air lifted, and water restricted to the upper part of the hole before the water table was intercepted. Once brine bearing horizons were intercepted, drilling was halted and the drilling pipe lifted 2 feet or more to allow the total flushing of the internal pipe by means of air pressure for approximately ten minutes or until the brine appeared reasonably clean of sediment. After sufficient air lifting of the brine, a sample was collected in 500 ml sample bottles that had been washed three times with the brine. Liquid was also collected in five gallon buckets and the time of filling of the bucket recorded, so as to aid in quantifying the formational flow.



Rodinia has completed 6 drill holes on the newly discovered Salar de Diablillos basin. Generally, the holes intersected unconsolidated sand and gravel saturated with high salinity brines. Flow rates in the sand and gravels have been highly variable ranging from 40 litres per minute to 1,080 litres per minute, including artesian conditions in some drill holes. The Company intends to provide updated information on the remaining discovery drill holes upon receipt of assay results from the laboratory.



The Project is supervised by William Randall, MSc (Geology), the President and CEO of Rodinia, and by Ray Spanjers, Rodinia's Manager of Exploration. Both Messrs. Randall and Spanjers are considered qualified persons, as defined by National Instrument 43-101, and both have reviewed and approved the scientific and technical information in this release. According to the Company's sampling protocol, sample size is to exceed 300 millilitres and be stored in clean, secure containers for transportation. The prepared samples are then forwarded to the ALS Laboratory Group, Environmental Division, in Fort Collins, Co (USA) for analysis. A rigorous QA/QC program is implemented consisting of regular insertion of standards and blanks to ensure laboratory integrity.



About Rodinia Lithium Inc.:



Rodinia Lithium Inc. is a Canadian mineral exploration company with a primary focus on lithium exploration and development in North and South America. The Company is positioned to capitalize on the expected increase in demand for lithium carbonate that is projected to result from the anticipated paradigm shift to mass adoption and use of key lithium applications like lithium-ion batteries as well as glass ceramics, greases, pharmaceuticals etc.



Rodinia is currently exploring its Clayton Valley project in Nevada, USA, which surrounds the only lithium-brine producer in North America, and its Salar de Diablillos project in Salta, Argentina.



Please visit the Company's web site at www.rodinialithium.com or write us at info@rodinialithium.com. Follow us on Twitter: http://twitter.com/RodiniaLithium."

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Carbon Sciences Successfully Synthesizes Revolutionery Catalyst Needed to Make Gasoline Without Using Crude Oil

Se below
Making Gasoline "without oil"!


Catalyst is Key to Demonstrating the Commercial Feasibility of the Company’s Breakthrough CO2 Based Gas-to-Liquids (GTL) Technology

Santa Barbara, CA - August 9, 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 synthesis of a proprietary raw catalyst, an essential step toward demonstrating commercial feasibility of the technology.

“In June of this year, we filed a landmark patent application for our breakthrough CO2 based Gas-to-Liquids technology,” said CEO Byron Elton. “The production of this catalyst is the actual laboratory scale implementation of the catalyst formulation and its synthesis process disclosed in the patent. It is a major step forward for us,” he added.

The major challenge in CO2 based GTL reactions is the activation of stable carbon dioxide and methane molecules. This company’s novel and proprietary catalyst provides a simpler and cleaner route by activating these stable molecules and converting them to gasoline. Gas-to-liquid reactions are regulated through temperature, concentration, pressure and contact time. This catalyst accelerates these reactions, enabling them to be carried out under the most favorable thermodynamic regime and at much lower temperature and pressure. “Our catalyst, in conjunction with an optimized reactor and total plant design, will be the key factors in reducing both the capital and operating costs of our next generation GTL technology”, Elton said.

“A fully active and stable catalyst will be the key to our success,” said Dr. Naveed Aslam, inventor of the technology. “Synthesizing our proprietary raw catalyst is a vital step in a multi-stage catalyst synthesis and activation process,” he added.

Gas-to-liquids (GTL) is a complimentary refinery processes that converts natural gas and other gaseous hydrocarbons into longer chain hydrocarbons such as gasoline. Carbon Sciences estimates that they can produce 138 billion gallons of gasoline a year (the annual amount used in the U.S.) with 23 trillion cubic feet of natural gas and 586 million tons of CO2 without using crude oil or competing with current natural gas consumption.

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. 



Website
http://www.carbonsciences.com.

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Previous Articles about Carbon Sciences:
Oil Company exec jumps into Green Tech
Carbon Sciences files landmark patent application 
Carbon Sciences files second patent application 
Belief in energy independence drives Carbon Sciences 
Getting in on the ground floor of world changing green technology

CNN interviews Carbon Sciences CEO
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