ExxonMobil is launching a significant new program to research and develop next-generation biofuels Fuels composed of or produced from biological raw materials, such as plants, photosynthetic organisms, or animal waste. from photosynthetic algae. This is part of our ongoing commitment to advance breakthrough energy technologies to help address the world’s long term energy challenges.
Meeting the world’s growing energy demands will require a multitude of sources. Biofuel from algae could be a meaningful part of the solution in the future because of its potential as an economically viable, low emissions transportation fuel.
As part of the program, ExxonMobil Research and Engineering Company is joining with Synthetic Genomics, Inc (SGI)NaN to develop, test, and produce biofuels from photosynthetic algae. Algae produce bio-oil that can be processed into biofuels similar in structure to today’s gasoline and diesel fuels. This helps ensure the fuels are compatible with existing transportation technology and infrastructure.
This alliance brings together two distinctly different organizations, each with leadership and expertise in its field, to pursue a commercially viable solution to the significant energy challenges facing the world today:
• SGI’s expertise in genomics, synthetic biology, microbiology and biochemistry; and
• ExxonMobil’s expertise in the manufacture of transportation fuels and the development of technologies and systems to increase the production scale from benchtop concepts to large-scale manufacturing
Advantages of algae
ExxonMobil has been engaged in a long-term effort to examine the potential of next generation and renewable fuels. After considerable study, we have concluded that biofuels from photosynthetic algae have potential benefits and advantages.
• Algae can be grown using land and water unsuitable for plant or food production, unlike some other first- and second-generation biofuel feedstocks.
• Select species of algae produce bio-oils through the natural process of photosynthesis — requiring only sunlight, water and carbon dioxide.
• Growing algae consume carbon dioxide; this provides greenhouse gas mitigation benefits.
• Bio-oil produced by photosynthetic algae and the resultant biofuel will have molecular structures that are similar to the petroleum and refined products we use today.
• Algae have the potential to yield greater volumes of biofuel per acre of production than other biofuel sources. Algae could yield more than 2000 gallons of fuel per acre per year of production. Approximate yields for other fuel sources are far lower:
- Palm — 650 gallons per acre per year
- Sugar cane — 450 gallons per acre per year
- Corn — 250 gallons per acre per year
- Soy — 50 gallons per acre per year
• Algae used to produce biofuels are highly productive. As a result, large quantities of algae can be grown quickly, and the process of testing different strains of algae for their fuel-making potential can proceed more rapidly than for other crops with longer life cycles.
• If successful, bio-oils from photosynthetic algae could be used to manufacture a full range of fuels including gasoline, diesel fuel and jet fuel that meet the same specifications as today’s products.
Under the program, if research and development milestones are successfully met, ExxonMobil expects to spend more than $600 million, which includes $300 million in internal costs and potentially more than $300 million to SGI.
Ongoing technology efforts
Since 2004 we have invested more than $1.5 billion in activities that reduce greenhouse gas emissions and improve energy efficiency, and we will spend at least $500 million on additional initiatives over the next few years. The algae biofuels program reflects our ongoing commitment to develop a diverse set of technologies to meet the world’s growing energy and environmental needs.
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