Liquid Biofuels. Группа авторов
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Название: Liquid Biofuels

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119793014

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СКАЧАТЬ Sugarcane bagasse Discover microwave reactor 80 DMA-LiCl 42 [75] Microalgae (methyl palmitate) Batch reactor 390 Ni/meso-Y zeolite 64.8 [76] Microalgae Glass reactor 62 Sn 16 [77]

      Biomass is already broken down by biochemical processes in nature because biomass consists of natural substances. These processes, which can be listed as aerobic and anaerobic degradation, fermentation, enzymatic hydrolysis, are realized by breaking down the biomass of bacterial enzymes or microorganisms [79].

      CH4 and CO2 gases are formed together with the solid product in the anaerobic disintegration performed by the bacteria using oxygen in the biomass instead of oxygen in the air. In aerobic decomposition, microorganisms that break down the biomass produce CO2, heat and solid products by using oxygen in the air. The process in which biomass is converted to sugar and then to ethanol and other chemicals using yeast with acid or enzyme is also called fermentation. The product obtained from fermentation is liquid, unlike anaerobic breakdown. Although the conversion of starch and sugar-based raw materials to ethanol by fermentation is used for commercial purposes, it is difficult and expensive to break down lignocellulosic biomass, such as wood, into sugars. It is not commercially preferable to apply fermentation to lignocellulosic biomass as a hydrolysis pretreatment is required to convert cellulose and hemicellulose into sugar [80].

      1.4.6 Co-Conversion Methods of Pyrolysis (Copyrolysis)

      The pyrolysis of raw materials with two or more sources of biomass is called copyrolysis. The copyrolysis method is similar to normal pyrolysis processes that do not require any solvent or catalyst. Efficiency obtained from copyrolysis varies between 1.42% and 22% compared to normal pyrolysis depending on the substances used. At the same time, copyrolysis is more advantageous than pyrolysis in terms of the quality and quantity of bio-oil obtained. The synergistic effects of biomass used in copyrolysis with each other are the main factors causing an increase in the amount of oil and quality obtained [81].

      Ethanol is a liquid that is clean, colorless and non-toxic. Ethanol’s thermal value is lower than gasoline. Ethanol has the ability to mix with water in any proportion. Although ethanol has a high octane number, it can cause some problems in its use in diesel engines due to its very low cetane number and self-ignition resistance. The use of ethanol in gasoline engines is more advantageous, as the self-ignition resistance allows increasing the compression ratio in gasoline engines. Research is ongoing to improve the combustion quality of fuels with low cetane numbers in diesel engines. The idea of using ethanol in engines is more common in countries with large agricultural areas [83].

Schematic illustration of the processes used in bioethanol production from biomass.

      In addition to advancing technological developments and commercial applicability studies in the hydrolysis and fermentation of biomass, it is important to perform the necessary studies on the collection of products obtained as a result of fermentation, so that the fermentation products are mostly volatile than water and their collection is mostly done by distillation. Commercially developed distillation technology is widely used in the collection of suspension materials containing fermentation and volatile products. Bioethanol can be separated from water in liquid mixture with distillation system. The water content of unprocessed bioethanol is generally more than 80%. There is a very high energy requirement to bring ethanol to a concentration of 95.6% (the boiling mixture of ethanol with water) [91].

Biofuel Type Time frame Raw Material Type Reference
1st СКАЧАТЬ