As SynBio leader, Ginkgo Bioworks, prepares to enter 2025, it is undertaking several strategic initiatives aimed at enhancing its financial performance and strengthening its market position.

  

These initiatives are designed to drive revenue growth, improve operational efficiency, and capitalize on emerging opportunities in synthetic biology and biomanufacturing. Here are key steps Ginkgo is taking:

1. Expanding Strategic Partnerships and Collaborations

• Diversifying Applications: Ginkgo continues to expand its partnerships across various industries, including pharmaceuticals, agriculture, and environmental sustainability. By diversifying the application of its synthetic biology platform, Ginkgo aims to capture revenue from multiple high-growth sectors.
• High-Value Partnerships: Ginkgo has formed key collaborations with companies such as Bayer (for agricultural biotech) and Synlogic (for synthetic biology-driven therapeutics). These partnerships provide immediate revenue opportunities while enhancing Ginkgo’s market credibility.
• New Partnerships: The company has been exploring partnerships with biosecurity and biomanufacturing players, positioning itself as a leader in these fields. In areas like pandemic preparedness and government contracts, it sees ongoing demand for biosecurity solutions, which can lead to stable long-term revenue.

2. Scaling its Biomanufacturing Platform

• Increasing Production Capacity: Ginkgo is scaling up its biomanufacturing capabilities to meet the growing demand for customized microbes. This includes investments in automation and robotics to increase the efficiency and speed of its platform. These efforts will not only enable Ginkgo to handle more projects but also lower the cost per project, improving profit margins.
• Reducing Costs: By automating more processes and integrating advanced data analytics into its workflow, Ginkgo aims to reduce its operational costs. Automation will allow Ginkgo to reduce the time it takes to design and deliver biological solutions, helping to increase its output and lower costs.

3. Focusing on High-Margin Revenue Streams

• Cell Programming: Ginkgo is increasingly focusing on its cell programming business, which offers high-margin revenue streams. By providing custom-engineered cells and microorganisms to partners in pharmaceuticals, agriculture, and chemicals, Ginkgo can command premium prices.
• Intellectual Property: The company continues to enhance its IP portfolio, licensing proprietary technologies to partners and clients. As its IP portfolio grows, this could become an additional revenue stream with high profitability.
• Biosecurity: Biosecurity has become an essential component of Ginkgo’s revenue model, particularly during and after the COVID-19 pandemic. Ginkgo has played a major role in biosecurity testing and surveillance, and it is expected to continue capitalizing on this high-margin, government-backed work.

4. Pursuing New Market Opportunities

• Environmental and Sustainability Solutions: Ginkgo is positioning itself as a leader in synthetic biology-driven sustainability. It is working on projects related to sustainable materials, carbon capture, and reducing environmental impact through biomanufacturing processes. This shift opens new markets, particularly as industries aim to reduce their carbon footprints and meet ESG (environmental, social, and governance) goals.
• Pharmaceutical and Healthcare Applications: Ginkgo is expanding its offerings in the healthcare space by working on new biopharmaceuticals and therapeutics, which offer potentially lucrative market opportunities. Collaborations with biotech companies to engineer cells for drug discovery and development could be significant drivers of future revenue.

5. Acquisitions and Strategic Investments

• Acquisition Strategy: Ginkgo has been acquiring smaller biotech companies and technologies that complement its platform. These acquisitions not only broaden its technological capabilities but also accelerate its growth by bringing in new revenue streams and expanding its customer base.
• Investment in New Technologies: Ginkgo has been actively investing in cutting-edge technologies that enhance its ability to design and scale biological products. This includes automation, machine learning, and AI-powered data analysis to improve efficiency and reduce the time-to-market for new biomanufacturing projects.

6. Financial Management and Reducing Cash Burn

• Cost Control: Ginkgo is working to control its cash burn rate by optimizing its R&D expenditures and increasing efficiency in its operations. This will be critical as it continues to grow and seeks to become profitable in the long term.
• Cash Reserves: The company’s substantial cash reserves give it flexibility to invest in high-growth areas while maintaining financial stability. Ginkgo is likely to continue utilizing its strong cash position to support R&D and strategic acquisitions, positioning it for long-term growth.
• Path to Profitability: While still operating at a loss, Ginkgo is focused on improving its revenue-to-cost ratio by scaling its platform more effectively and tapping into higher-margin projects. Investors are watching closely for signs that Ginkgo is making progress toward profitability, which would significantly enhance its stock valuation and financial standing.

7. Building Market Leadership in Synthetic Biology

• Establishing Industry Leadership: Ginkgo continues to position itself as the leader in the synthetic biology space. Its partnerships, technological advancements, and high-profile contracts with government and private sector players are designed to solidify its leadership.
• Raising Awareness and Visibility: Ginkgo is also focusing on raising awareness about its capabilities in synthetic biology through media campaigns and thought leadership. As the field of synthetic biology grows in prominence, Ginkgo aims to be seen as the go-to partner for companies looking to leverage biological engineering.

8. Stock Performance and Investor Relations

• Improving Investor Confidence: Ginkgo has been actively communicating its long-term growth strategy to investors, emphasizing its potential in synthetic biology’s emerging markets. As it scales, the company will likely continue to focus on investor relations to maintain confidence and potentially drive stock price appreciation.
• Future Public Offerings: Given its cash needs and growth trajectory, Ginkgo may consider secondary stock offerings or other financing methods, but it will focus on reducing dilution by improving its revenue streams.

Summary:

As Ginkgo Bioworks heads toward 2025, it is focusing on expanding partnerships, scaling its biomanufacturing platform, and enhancing operational efficiency. The company is also **diversifying into new markets

The information provided is a synthesis of both Ginkgo Bioworks' own public communications (such as investor reports, press releases, and earnings calls) and independent analyses from third-party sources like industry experts, financial analysts, and market reports. Here's how the sources break down:

1. Ginkgo Bioworks' Communications:

   • Revenue growth strategies, partnerships, and technology development plans are often highlighted in Ginkgo’s quarterly earnings reports and press releases. The company's forward-looking statements often outline plans to scale biomanufacturing, expand into new markets, and enhance automation.
   • Ginkgo’s cash position, debt status, and financial strategies are typically reported in their financial filings (like 10-Q or 10-K filings) and discussed during investor calls.

2. Independent Sources:

   • Analyst Reports: Independent financial and industry analysts provide projections on Ginkgo’s market opportunities, challenges, and growth prospects. These reports help gauge how Ginkgo’s strategies are perceived in the broader context of the biotech and synthetic biology sectors.
   • Market Trends: Broader trends in synthetic biology, biomanufacturing, and biotechnology sectors are drawn from independent sources. These include assessments of the potential for sectors like pharmaceuticals, agriculture, and biosecurity, which are aligned with Ginkgo’s activities.
   • Competitor Comparisons: Independent analysts also provide comparisons of Ginkgo’s financial position and business strategy relative to competitors, offering insights into its market positioning and leadership in synthetic biology.

In summary, while much of the data about Ginkgo's internal operations comes from their own reporting, key perspectives on the company's market prospects and financial health also come from independent analyses and industry reports.

Bayer, Roche, Moderna, Cronos, Synlogic, Sumitomo, Biogen, Aldevron, are just some of the big companies now partnered with Ginkgo Bioworks SynBio platform!

These "Microcap" companies operate in innovative and emerging sectors, which may position them for significant growth.

Target: Cancerous tumors- TransCode's technology is designed to target dysregulated microRNAs implicated in cancer progression, metastasis, and resistance to existing therapies.

We asked noted Ai, ChatGPT, what the consequences of Trumps Project 2025, would have on America. This article is written by ChatGPT!

 

Project 2025, also known as the Presidential Transition Project, is an initiative led by the Heritage Foundation and supported by over 100 conservative organizations. Its primary goal is to prepare for a potential conservative administration starting in January 2025. The project focuses on developing a comprehensive policy agenda, training personnel, and creating a detailed 180-day playbook for implementing conservative policies across the federal government.

Key objectives of Project 2025 include:

1. Restructuring the Federal Government: This involves reclassifying many federal civil service positions to political appointees, thereby allowing a new administration to replace current employees with individuals aligned with conservative values. The project aims to reduce the size of the administrative state and increase executive power.

2. Policy Changes: Project 2025 proposes significant changes across various sectors. This includes cutting environmental and climate change regulations, dismantling the Department of Education, reducing funding for social programs, and eliminating certain civil rights protections. The project also seeks to implement tax cuts, enhance fossil fuel production, and reduce government intervention in the economy.

3. Social Policies: The initiative emphasizes restoring traditional family values, limiting reproductive rights, and promoting Christian principles in government. It aims to restrict access to abortion and emergency contraception, criminalize pornography, and reduce support for LGBTQ+ rights.

Critics argue that Project 2025 represents an authoritarian and Christian nationalist vision that could undermine democratic institutions, civil liberties, and the separation of powers. They express concerns that the project could lead to increased discrimination, reduced social safety nets, and environmental degradation.

 it could have significant effects on markets and investments across various sectors. Here are some key potential impacts:

1. Energy Sector

• Positive Impact on Fossil Fuels: The project's emphasis on reducing environmental regulations and promoting fossil fuel production could benefit oil, gas, and coal industries. This could lead to increased investment in these sectors due to expected higher profitability and fewer regulatory hurdles.
• Negative Impact on Renewables: Conversely, the reduction in climate change regulations and support for renewable energy sources could negatively impact investments in solar, wind, and other clean energy technologies.

2. Healthcare Sector

• Pharmaceuticals: By stopping efforts to lower prescription drug prices, pharmaceutical companies might see higher revenues, potentially attracting more investments.
• Reproductive Health: Restrictions on reproductive health services, including abortion and emergency contraception, could affect companies in these markets, potentially leading to reduced investment in women's health services.

3. Technology and Communications

• Deregulation: The plan to take partisan control of agencies like the Federal Communications Commission (FCC) might lead to deregulation efforts that could benefit large tech and telecom companies by reducing compliance costs and fostering a more business-friendly environment.

4. Financial Markets

• Tax Cuts: Proposed tax cuts could boost corporate profits, leading to increased stock prices and greater investment in the stock market. However, this could also increase the federal deficit, which might impact long-term economic stability.
• Regulatory Changes: Dismantling parts of the administrative state and reducing financial regulations could create a more favorable environment for businesses, potentially boosting market confidence and investments.

5. Education Sector

• Reduced Funding: The proposal to abolish the Department of Education and cut funding for programs like Head Start could negatively affect companies that rely on federal education funding, such as educational technology firms and service providers.
• Private Education: There could be an increased focus on private education and school choice, potentially benefiting companies and investors involved in private education and related services.

6. Social Safety Nets

• Cutting Social Programs: Reducing or eliminating social safety net programs could lead to decreased consumer spending power, especially among low-income populations. This might negatively impact sectors that rely heavily on consumer spending, such as retail and consumer goods.

7. Environmental and Social Governance (ESG) Investments

• ESG Challenges: The project’s stance on climate change and civil rights could deter ESG-focused investors, leading to potential divestments from companies that align closely with Project 2025's policies.

8. Overall Economic Impact

• Short-Term Gains vs. Long-Term Risks: While certain deregulation and tax cut measures could boost market performance and investments in the short term, long-term risks include increased federal deficits, potential social unrest due to reduced social services, and environmental degradation, which could affect long-term economic stability and investor confidence.

Sources

• Project 2025 Overview
• Democracy Docket Analysis
• Democracy Forward Guide
• 
  
• Here are five probable negative consequences of the initiative:

  1. Erosion of Democratic Norms: Project 2025 includes plans that could undermine democratic institutions and norms. This involves targeting political opponents, controlling the Justice Department, and potentially using the military against demonstrations. Such actions pose a serious threat to the independence of government institutions and the rule of law​ (Democracy Docket)​​ (NECC Observer)​.

  2. Reduction in Workers' Rights and Protections: The project aims to roll back various labor protections, including overtime pay and minimum wage standards. It seeks to allow more workers to be classified as independent contractors, which would reduce their benefits and protections. Additionally, young workers might be allowed to work in more dangerous jobs, increasing risks and potentially reducing safety standards​ (Truthout)​​ (Democracy Forward)​.

  3. Rollback of Civil Rights Protections: Project 2025 could lead to significant rollbacks in civil rights protections, particularly for LGBTQ+ individuals. This includes rescinding non-discrimination regulations based on sexual orientation and gender identity, which would negatively impact the rights and freedoms of these communities​ (NECC Observer)​.

  4. Cuts to Social Services and Education Programs: The plan includes efforts to cut or eliminate critical social programs such as the Head Start early education program and food assistance initiatives. These cuts would adversely affect millions of low-income families and children who rely on these services​ (Democracy Forward)​.

  5. Negative Impact on Climate Policy: Project 2025 advocates for dismantling climate initiatives and removing regulations that support clean energy transitions. This includes efforts to halt climate-related programs and funding, which would impede progress on addressing climate change and could lead to increased environmental degradation​ (Covering Climate Now)​.

  These potential impacts highlight the significant and far-reaching consequences of Project 2025, raising concerns about the future direction of U.S. policies and their effects on various communities and democratic principles.

Project 2025 could fundamentally alter the fabric of American society, potentially increasing inequality, reducing rights and protections for vulnerable populations, and destabilizing democratic governance.

Acquisitions in Biotech and SynBio stocks are on the horizon again and here is one that we believe may be in the crosshairs!

 Ginkgo Bioworks operates several advanced biotechnology platforms and technologies that would be particularly attractive to an acquiring company. These include:

1. Foundry and Codebase:

   • Automated Foundry: Ginkgo's high-throughput, automated biological foundry integrates robotics, advanced software, and cutting-edge biotechnology to design, build, and test organisms at scale. This foundry enables rapid prototyping and optimization of microorganisms for various applications, significantly reducing the time and cost associated with developing new biological products.
   • Codebase: Ginkgo has built a massive repository of biological knowledge, including genetic sequences, metabolic pathways, and optimized strains. This codebase is continually expanded and leveraged to improve the efficiency and success rate of genetic engineering projects.

2. Cell Programming and Synthetic Biology:

   • Genetic Engineering: Ginkgo specializes in engineering microorganisms (such as bacteria, yeast, and fungi) to produce a wide array of products, including pharmaceuticals, biofuels, chemicals, and food ingredients. Their expertise in gene editing, metabolic engineering, and strain optimization is a core technology.
   • Synthetic Biology Tools: Ginkgo utilizes advanced synthetic biology tools, including CRISPR, gene synthesis, and genome-scale engineering, to design and construct complex genetic circuits and pathways.

3. Biomanufacturing Capabilities:

   • Scale-Up Expertise: Ginkgo's ability to scale up engineered microorganisms from lab-scale to industrial-scale production is a significant asset. Their biomanufacturing capabilities include fermentation technology, downstream processing, and production optimization.
   • Partnerships and Collaboration: Ginkgo has a track record of successful partnerships with companies across various industries, including pharmaceuticals, agriculture, and consumer goods. Their collaborative approach and ability to integrate their technologies with partners’ processes enhance their attractiveness to potential acquirers.

4. Data and Software Infrastructure:

   • Data Analytics and Machine Learning: Ginkgo uses sophisticated data analytics and machine learning algorithms to analyze vast amounts of biological data, identify patterns, and predict successful genetic modifications. This data-driven approach accelerates the discovery and optimization of new biological products.
   • Bioinformatics and Computational Biology: Their software infrastructure supports advanced bioinformatics and computational biology, enabling the design, simulation, and optimization of genetic constructs and metabolic pathways.

5. Platform Applications:

   • Pharmaceuticals and Therapeutics: Ginkgo's platform can be used to develop new therapeutics, including biologics, vaccines, and gene therapies. Their ability to engineer microorganisms for drug production and discovery is particularly valuable.
   • Agriculture and Food: Ginkgo's technologies are applied to create sustainable agricultural products, such as engineered microbes for crop enhancement, pest control, and soil health. Additionally, they develop fermentation-based food ingredients and alternative proteins.
   • Environmental and Industrial Applications: Ginkgo engineers microbes for environmental applications, such as bioremediation and waste treatment, as well as for the production of industrial chemicals and biofuels.

An acquiring company would likely be interested in Ginkgo Bioworks for its comprehensive suite of technologies that enable rapid and cost-effective development of biological solutions, its extensive biological codebase, its robust biomanufacturing capabilities, and its innovative use of data analytics and machine learning in synthetic biology.

In Bio Science, there is a race for better Gene sequencing and genomics technology!

Consolidation in the BioTech realm is a given going forward. Ginkgo Bioworks technology looks attractive to larger companies in the space!

Pfizer is actively using artificial intelligence (AI) and machine learning (ML) to enhance its drug development processes.

Update June 25th

As of June 25, 2024, Ginkgo Bioworks (NYSE: DNA) is experiencing a significant decline in its stock performance! An Ai assessment!

Lidar (Light Detection and Ranging) technology holds intrinsic value for the robotics and automation industries

Lidar (Light Detection and Ranging) technology is extremely important to the automation and robotics industries for several key reasons:

1. High-Resolution Mapping and Sensing

Lidar provides high-resolution, accurate 3D mapping and environment sensing, which is crucial for automation and robotics. It generates detailed point clouds that can be used to create precise models of surroundings. This is essential for navigation, obstacle avoidance, and path planning in autonomous systems.

2. Accuracy and Precision

Lidar sensors offer high accuracy and precision in distance measurements. They can detect objects with millimeter-level accuracy, which is vital for tasks that require precise positioning and manipulation, such as robotic surgery or automated manufacturing processes.

3. Real-Time Data Processing

Lidar systems can capture and process data in real-time, allowing autonomous systems to react quickly to changes in their environment. This capability is particularly important for applications like self-driving cars and drones, where timely responses to dynamic conditions are critical for safety and efficiency.

4. All-Weather Operation

Unlike cameras, which can be affected by lighting conditions, Lidar can operate effectively in various weather conditions and lighting environments, including low light and total darkness. This reliability makes it a valuable sensing technology for autonomous vehicles and outdoor robots.

5. Versatility Across Applications

Lidar technology is versatile and can be used in a wide range of applications:

• Autonomous Vehicles: For navigation, obstacle detection, and collision avoidance.
• Industrial Automation: For precise measurement, quality control, and automation of manufacturing processes.
• Drones: For aerial mapping, inspection, and environmental monitoring.
• Service Robots: For navigation and interaction in complex indoor environments, such as hospitals or warehouses.
• Construction and Surveying: For creating accurate site surveys and managing construction projects.

6. Enhanced Safety

In safety-critical applications, such as autonomous driving, Lidar provides an additional layer of sensing that complements other systems like radar and cameras. Its ability to accurately detect and classify objects contributes to the overall safety and reliability of autonomous systems.

7. Integration with Other Technologies

Lidar can be integrated with other sensor technologies, such as cameras, radar, and GPS, to create a comprehensive perception system. This sensor fusion approach enhances the capabilities of autonomous systems, allowing them to perform more complex tasks with higher reliability.

8. Advancements in Technology and Cost Reduction

Recent advancements in Lidar technology, including solid-state Lidar, have led to improvements in performance and reductions in size and cost. This has made Lidar more accessible for a broader range of applications, accelerating its adoption in the automation and robotics industries.

Conclusion

Overall, Lidar technology is a cornerstone for the advancement of automation and robotics, providing the essential capabilities for precise sensing, mapping, and navigation. Its importance will continue to grow as the demand for autonomous systems in various industries increases, driving further innovation and integration of Lidar technology into these systems.

More...

Why did Tesla purchase 2,000 lidar units from Luminar Technologies? What might they be used for?

Luminar Technologies Inc (NASDAQ: LAZR) - AVs, Automation, Robotics and RoboTaxi's

A comparison of two leading Lidar technologies - AEVA vs LAZR as the use of Lidar becomes more and more integrated into robotics!

Alberta Oilsands Inc. Advances its Clearwater West SLP-SAGD Project Application

 Press Release Alberta Oilsands Inc. Advances its Clearwater West SLP-SAGD Project Application
NOT FOR DISTRIBUTION TO THE U.S.A. NEWS WIRE SERVICES OR FOR DISSEMINATION TO THE U.S.A.
Calgary, Alberta CANADA, January 07, 2013 /FSC/ - Alberta Oilsands Inc. (AOS - TSX Venture)("Alberta Oilsands" or the "Company")is pleased to announce that it has submitted to the Energy Resources Conservation Board (ERCB) its response to the remaining question in the third Supplemental Information Request (SIR) and an updated geo-mechanical reservoir model simulation relating to its Clearwater West SLP-SAGD project ("Clearwater").

Binh Vu, interim President of Alberta Oilsands stated, "The submission of the remaining responses and an updated geo-mechanical reservoir model simulation to the ERCB provides strong support for approval of AOS' Clearwater application. This is a significant step on the path to production at the Company's Clearwater project."

The Company initially filed an application to the ERCB for a Solvent Co-Injection Low Pressure Steam Assisted Gravity Drainage (SLP-SAGD) pilot project at Clearwater with a design production capacity of 4,350 bbl/d of bitumen through six horizontal SLP-SAGD well pairs. The Company has now responded to all outstanding SIRs from the ERCB and will continue to work with the ERCB during the coming months to advance the Clearwater application to the approval stage. Subject to the ERCB's approval of the Clearwater application and successful completion of the pilot program, the Company plans to proceed to the commercial production phase and increase the production capacity at Clearwater.

The Clearwater project area is now delineated by a total of 60 core holes over approximately 6 sections. The section that the Clearwater application encompasses has a core density of 14 core holes per section with 3D seismic coverage. The Company engaged GLJ Petroleum Consultants to prepare a NI 51-101 compliant resource report on the entire Clearwater project area based on delineation that included the results of the winter drilling program with an effective date of December 31, 2011. Gross lease contingent resources of 373 million barrels (MMbbl) were assigned on a best estimate basis. The contingencies which currently prevent the classification of the contingent resources as reserves are the pending successful piloting of the SLP-SAGD technology, further delineation drilling, facility design, regulatory approvals and firm development plans.

About AOS
Alberta Oilsands Inc. is engaged in the exploration and development of bitumen in the Athabasca oil sands region of northeast Alberta. Its head office is located in Calgary, Alberta, Canada and Alberta Oilsands' common shares are traded on the TSX Venture Exchange under the trading symbol AOS.
For further information please contact:
Binh Vu
Interim CEO & President
(416) 951-8800
bvu@aboilsands.ca

Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.
This news release contains forward looking information including expectations for proceeding with the commercial production phase at Clearwater, increasing production capacity at Clearwater and estimates of resources at Clearwater.
Forward looking information is based on management's expectations regarding the successful completion of the pilot program at Clearwater, future growth, results of operations (including production, operating costs, average realized bitumen prices), future capital and other expenditures (including the amount, nature and sources of funding thereof), plans for and results of drilling activity, environmental matters, business prospects and opportunities, future royalty rates, commodity prices and foreign exchange rates and future economic conditions. Forward looking information involves significant known and unknown risks and uncertainties, which could cause actual results to differ materially from those anticipated. These risks include, but are not limited to: the risks associated with the oil and gas industry (e.g., operational risks in development, exploration, production and start-up activities; delays or changes in plans with respect to exploration or development projects or capital expenditures; unanticipated operational upsets; the uncertainty of reserve and resource estimates; the uncertainty of estimates and projections relating to production, costs and expenses, and health, safety and environmental risks), the risk of commodity price and foreign exchange rate fluctuations and risks and uncertainties associated with securing and maintaining the necessary regulatory approvals and financing to proceed with the continued expansion at Clearwater. Additional risks and uncertainties relating to AOS and its business and affairs are described in further detail in AOS' Annual Information Form for the year ended December 31, 2011 which is available at www.sedar.com. Although AOS believes that the expectations in such forward looking information are reasonable, there can be no assurance that such expectations shall prove to be correct. The forward-looking information included in this news release is expressly qualified in its entirety by this cautionary statement. AOS assumes no obligation to update or revise any forward-looking information to reflect new events or circumstances, except as required by law.
This news release includes information pertaining to the resources of the Corporation as at December 31, 2011 as evaluated by GLJ Petroleum Consultants Ltd. ("GLJ") in their report for the year ended December 31, 2011. Statements relating to resources are deemed to be forward looking statements, as they involve the implied assessment, based on certain estimates and assumptions, that the resources described exist in the quantities predicted or estimated, and can be profitably produced in the future. Certain information and assumptions relating to the resources reported herein are set forth in AOS' annual information form for the year ended December 31, 2011 which is available at www.sedar.com. The resource estimates of AOS' properties described herein are estimates only. The actual resources on AOS' properties may be greater or less than those calculated. Readers are referred to AOS' annual information form for the year ended December 31, 2011 for additional information relating to the risks and levels of uncertainties associated with the recovery of the contingent resources.
References to "contingent resources" in this news release do not constitute, and should be distinguished from, references to "reserves". Reserves are estimated remaining quantities of crude oil and natural gas and related substances anticipated to be recoverable from known accumulations, as of a given date, based on the analysis of drilling, geological, geophysical, and engineering data; the use of established technology; and specified economic conditions, which are generally accepted as being reasonable. Contingent Resources are those quantities of petroleum estimated, as of a given date, to be potentially recoverable from known accumulations using established technology or technology under development, but which are not currently considered to be commercially recoverable due to one or more contingencies. There is no certainty that it will be commercially viable to produce any portion of the resources. "Best Estimate" is considered to be the best estimate of the quantity that will actually be recovered. It is equally likely that the actual remaining quantities recovered will be greater or less than the best estimate. If probabilistic methods are used, there should be at least a 50 percent probability that the quantity actually recovered will equal or exceed the best estimate.
In addition, design capacity is not necessarily indicative of the stabilized production levels that may ultimately be achieved at Clearwater.
To view this press release as a web page, click onto the link below:
http://www.usetdas.com/pr/albertaoilsands07012013.htm
Source: Alberta Oilsands Inc. (TSX-V AOS) www.aboilsands.ca

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Carbon Sciences breakthrough "gas to liquids" technology - Turning CO2 into gasoline!

Carbon Sciences Secures Worldwide Exclusive License to Breakthrough Greenhouse Gas Transformation Technology
License for Dry Reforming of Methane Technology Eliminates Major Development Hurdle for Company

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

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

Image via Wikipedia

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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Oil Company exec jumps into Green Tech
Carbon Sciences files landmark patent application 
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Getting in on the ground floor of world changing green technology

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