Post by account_disabled on Feb 22, 2024 15:43:17 GMT 10
The fuel generated with algae comes from the use of solar energy and co 2 that is around it, for its photosynthesis process that, during its growth, the algae accumulate fat and it is from this fat that the fuel is made. Algae do not compete with human food for water and arable surfaces. Their exploitation is much less polluting and takes 20 to 30 times less space compared to other crops. Therefore, the cultivation of algae for energy purposes is considered to be another avenue studied for the biomass energy sector. As such, algae are considered third generation biofuels , after oilseeds (currently commercialized) and biofuels based on wood, straw and leaves. These ancient marine plants aim to be a good source of energy with many advantages. Algae also contain significant amounts of lipids that can be transformed into biofuels, whether biodiesel, biomethane or bioethanol. One hectare of algae could produce up to 60,000 liters of oil per year versus 6,000 liters per hectare of palm. Unlike other crops that are used to generate biofuel, algae are not used to feed the population.
They produce a very good level of fuel, almost ready for combustion, and can be grown in areas that are unsuitable for agricultural activity, such as deserts. One of the main and attractive features of algae fuel is that it can be produced using saline and wastewater. They are biodegradable and relatively harmless Singapore Phone Number in the event of a spill into the natural environment. In a time span of 48 years; a process that naturally requires many years. From 1 ml, approximately 500 million algae of 2 to 4 microns can be harvested. To feed these plants, sunlight is required for the photosynthesis process and carbon dioxide (co2). The co2 is recovered through pipes and integrated so that it can multiply. The vegetable concentrate is filtered to eliminate water and omega 3. Subsequently, the algae that contain the most fat are selected or chosen. The resulting biomass is converted into artificial oil as a result of thermal cracking.
That is, they undergo a chemical process (which breaks the molecules to generate simpler compounds) of high temperatures and pressure. This oil works like a classic hydrocarbon and has the same calorific value as coal. Likewise, this biomass can be used in byproducts: *silicon for photovoltaic energy panels and cellulose for paper, among others. Biofuel can be used in endless cycles for thermal plants that produce electricity. Is producing sufficient quantities of this product on a commercial/industrial scale profitable? Estimated industrial production costs differ. Different studies evaluate different assessments but they are not so far from each other. For example, the french scientific team shamash evaluated in january 2009 at 10 euros per liter of biofuel at the cost of industrial production. A canadian company, seed science ltd estimated the cost of industrial production in developed countries at a figure of between.
They produce a very good level of fuel, almost ready for combustion, and can be grown in areas that are unsuitable for agricultural activity, such as deserts. One of the main and attractive features of algae fuel is that it can be produced using saline and wastewater. They are biodegradable and relatively harmless Singapore Phone Number in the event of a spill into the natural environment. In a time span of 48 years; a process that naturally requires many years. From 1 ml, approximately 500 million algae of 2 to 4 microns can be harvested. To feed these plants, sunlight is required for the photosynthesis process and carbon dioxide (co2). The co2 is recovered through pipes and integrated so that it can multiply. The vegetable concentrate is filtered to eliminate water and omega 3. Subsequently, the algae that contain the most fat are selected or chosen. The resulting biomass is converted into artificial oil as a result of thermal cracking.
That is, they undergo a chemical process (which breaks the molecules to generate simpler compounds) of high temperatures and pressure. This oil works like a classic hydrocarbon and has the same calorific value as coal. Likewise, this biomass can be used in byproducts: *silicon for photovoltaic energy panels and cellulose for paper, among others. Biofuel can be used in endless cycles for thermal plants that produce electricity. Is producing sufficient quantities of this product on a commercial/industrial scale profitable? Estimated industrial production costs differ. Different studies evaluate different assessments but they are not so far from each other. For example, the french scientific team shamash evaluated in january 2009 at 10 euros per liter of biofuel at the cost of industrial production. A canadian company, seed science ltd estimated the cost of industrial production in developed countries at a figure of between.