algae photobioreactor plant biofuels gcc ecomena prospects germany power

Mazda continues supporting algae biofuels research - …

Mazda continues supporting algae biofuels research - …

Japan-based biotechnology company euglena (earlier post) has completed the construction of its demonstration-scale biorefinery in Yokohama for the production of renewable jet and diesel fuels from algae and waste oil.The plant, which will use the Biofuels ISOCONVERSION process (earlier post) licensed by Chevron Lummus Global / ARA, will have a production capacity of 5 barrels per day, with ...  · Biofuels from microalgae. Numerous biofuels, e.g., bioethanol, biodiesel, bio-oil, biomethane, bio-hydrogen, and others, have been extracted from microalgae [46, 47].Nano-particles’ incorporation with microalgae cultivation (e.g., cell suspension, cell separation, and cell harvesting), biofuel conversion technologies, and biofuel application have amplified the overall yield in every stage [].

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Design of Photobioreactors for Algal Cultivation ...

Design of Photobioreactors for Algal Cultivation ...

Microalgae are considered one of the most promising feedstocks for biofuels. The productivity of these photosynthetic microorganisms in converting carbon dioxide into carbon-rich lipids, only a step or two away from biodiesel, greatly exceeds that of agricultural oleaginous crops, without competing for arable land. Worldwide, research and demonstration programs are being carried out to develop ...  · Photobioreactor must work under conditions of intense foaming, as often occurs in reactors with high rates of mass transfer. • The reactor should have minimum non-illuminated part. Different types of photobioreactors have been designed and developed for the production of algae. 2.1. Vertical tubular photobioreactor

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Waste to bioenergy: a review on the recent conversion ...

Waste to bioenergy: a review on the recent conversion ...

The use of fossil fuels is now widely accepted as unsustainable due to depleting resources and the accumulation of greenhouse gases in the environment that have already exceeded the “dangerously high” threshold of 450 ppm CO2-e. To achieve environmental and economic sustainability, fuel production processes are required that are not only renewable, but also capable of sequestering ...  · The futuristic-looking, gleaming green facility was officially put into operation at the end of April, and its makers claim it is the world’s first photobioreactor (PBR) facade. Hosting 200m² of integrated photobioreactors, the five-story, 15-unit apartment complex grows algae on its surface and produces heat and power as a result.

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Frontiers | The Use of Microalgae for Coupling Wastewater ...

Frontiers | The Use of Microalgae for Coupling Wastewater ...

Our advanced biofuels research portfolio includes joint research collaborations focused on algae-based biofuels with Synthetic Genomics, Inc. (SGI), Colorado School of Mines and Michigan State. We are also exploring a variety of biomass conversion processes that could be used with non-food based feedstocks such as whole cellulosic biomass, algae feedstocks and cellulose-derived sugars.  · Prospects of Algae Biofuels in GCC The demand for fossil fuels is growing continuously all around the world and the GCC countries are not an exception. GCC’s domestic consumption of energy is increasing at an astonishing rate, e.g. Saudi Arabia’s consumption of oil and gas rose by about 5.9 percent over the past five years while electricity demand is witnessing annual growth rate of 8 percent.

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Algae for Biofuel Production – Farm Energy

Algae for Biofuel Production – Farm Energy

Present economic reality of liquid fuels. There are considerable challenges to making biofuels capable of competing with petroleum. Certainly, a premium price is warranted for clean fuels (fuels that have a 50% lower CO 2 cradle-to-grave footprint than petroleum); however, estimated costs of a barrel of algae-based fuel using current technology is US$300–2600, compared with $40–80 (2009 ... GCC has a wide coastline that stretches across its countries and is ideal for algae production. The carbon dioxide emissions from oil and power refineries can be effectively utilized and the climate is also favourable for algae cultivation. The waste water treatment plants are also a vital source of algae.

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Advanced biofuels and algae research | ExxonMobil

Advanced biofuels and algae research | ExxonMobil

 · Algae are typically found growing in ponds, waterways, or other wetlands which receive sunlight and CO 2. Growth varies on many factors and can be enhanced for temperature, sunlight utilization, pH control, fluid mechanics, and more [49, 50]. Man-made production of algae tends to replicate the natural environments to achieve ideal growth ... EcoMENA is a volunteer-driven initiative to create mass environmental awareness and to foster sustainability worldwide, MENA in particular. Our core areas of focus include renewable energy, sustainable development, waste management, environment protection, energy efficiency, green buildings, water management and resource conservation.

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Composition of Algal Oil and Its Potential as Biofuel

Composition of Algal Oil and Its Potential as Biofuel

There are over 100,000 genetically diverse strains of algae. This is an advantage for researchers, who can harness algal strains’ numerous unique properties to develop promising algal biofuels and bioproducts. The key to algae’s potential as a renewable fuel source involves the increase of algal biomass productivity per acre. Ethanol from lignocellulosic biomass is produced mainly via biochemical route. The three major steps involved in ethanol production via biochemical route are …

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The future of second-generation biomass | McKinsey

The future of second-generation biomass | McKinsey

 · Photobioreactor system includes Solix’s proprietary Lumian panels, Solix Lumian™ Algae Growth System (AGS™). Solix’s demonstration plant has three algae cultivation basins totaling 3/4 of an acre (0.3 hectares). The plant has over 150,000 liters of algae under cultivation. A photobioreactor is a bioreactor that utilizes a light source to cultivate phototrophic microorganisms. These organisms use photosynthesis to generate biomass from light and carbon dioxide and include plants, mosses, macroalgae, microalgae, cyanobacteria and purple bacteria.Within the artificial environment of a photobioreactor, specific conditions are carefully controlled for respective species.

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Algae Industry Magazine | Algae Industry Magazine

Algae Industry Magazine | Algae Industry Magazine

 · Mazda continues to be involved in joint research projects and studies as part of an ongoing industry-academia-government collaboration to promote the wide-spread adoption of biofuels from microalgae growth. (Earlier post.) As part of its Sustainable Zoom-Zoom 2030 long-term technology development program, the company is committed to reducing its average Well-to-Wheel... Algae biofuels contain no sulphur, are non-toxic and are biodegradable. A number of strains produce fuel with energy densities comparable to those of conventional (fossil) fuels. They are made from a renewable resource that is carbon neutral: the emissions that result from burning the fuel are balanced by the absorption of CO 2 by the growing organisms.

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Biofuel - Wikipedia

Biofuel - Wikipedia

Scientific studies have demonstrated that it is possible to generate a wide variety of bioenergy from biomass residues and waste, and however its cost is not competitive with petro-fuels and other renewable energy. On-going efforts are continued extensively to improve conversion technologies in order to reduce production costs. The present review focuses on the conversion technologies for ... A photobioreactor or an algae bioreactor is used to cultivate algae to produce biomass or fix carbon dioxide emissions. Algae bioreactors are used for the production of fuels such as bioethanol and biodiesel for the reduction of pollutants such as CO 2 and NOx in flue gases emitted from power plants.

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Ethanol Production via Biochemical Route | BioEnergy Consult

Ethanol Production via Biochemical Route | BioEnergy Consult

Biofuels can be produced from plants (i.e. energy crops), or from agricultural, commercial, domestic, and/or industrial wastes (if the waste has a biological origin). Renewable biofuels generally involve contemporary carbon fixation, such as those that occur in plants or microalgae through the process of photosynthesis.. Some argue that biofuel can be carbon-neutral because all biomass crops ...  · This plant is collaborating with the National Cheng Kung University to develop a photobioreactor sequestration system for CO2. The Industrial Technology Research Institute (ITRI) itself is actually working very closely with Taiwanese universities in transformation of algae, photobioreactor systems, belt screen based harvesting technologies and supercritical extraction systems.

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Bilal Bomani: Plant fuels that could power a jet | TED ...

Bilal Bomani: Plant fuels that could power a jet | TED ...

The promise of the second-generation (2G) bioconversion industry is that it will transform cellulose-based, nonedible biomass and agricultural waste into clean and affordable high-value fuels or chemicals. (The first-generation, or 1G, technology converts edible biomass.) In this way, 2G could offer an alternative source both of energy and of chemical-industry inputs, which other renewable ... We have developed a unique Photobioreactor for demonstration and testing purpose and all prospective companies/organization should install the demonstration plant to start with algae so they can customize the mix of algae species and nutrients for the climatic conditions and water quality of the plant’s location and take appropriate decision for big investment.

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Second Generation Biofuels: High-Efficiency Microalgae …

Second Generation Biofuels: High-Efficiency Microalgae …

Production and emission of CO2 from different sources have caused significant changes in the climate, which is the major concern related to global warming. Among other CO2 removal approaches, microalgae can efficiently remove CO2 through the rapid production of algal biomass. In addition, microalgae have the potential to be used in wastewater treatment. First test flights using blends with algae oil are already carried out and expectations by the aviation and other industries are high. On the other hand technical data about performance of cultivation systems, downstream processing, and suitability of algae oil as fuel are still limited. The existing microalgae growing industry mainly produces for the food and feed market.

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