Читать книгу Liquid Biofuels - Группа авторов - Страница 13
1.1 Introduction
ОглавлениеNon-fossil biomass can be used for bioenergy production. This bioenergy is called biomass energy and is defined as the conversion of energy from the sun by plants. Its principle is to use the energy stored in the plant in its transformed form when needed. Biomass energy is examined in two groups as classical and modern. Classical biomass energy consists of firewood, plant and animal residues obtained from conventional forests. The main character of the use of classical biomass energy is that the energy from the biomass material is obtained through various combustion tools and direct combustion techniques from primitive to developed ones. Modern biomass resources are listed as energy forestry products, forest and wood industry wastes, energy agriculture, vegetable and animal wastes in the agricultural sector, urban wastes, and agriculture-based industrial wastes [1].
Biomass materials are transformed into biofuels after pre-preparation and conversion. Biofuels can be used for heat and electricity production. Biofuel use ranges from large central power station to vehicles. Modern biomass energy techniques are based on transforming the material so that the physical condition remains constant and/or changed. Biomass is divided into low biomass techniques and high biomass techniques. Low biomass techniques are direct combustion, anaerobic decomposition, fermentation-distillation processes. High biomass techniques consist of pyrolysis, hydrogasification, acid hydrolysis, and biological hydrogen production processes. Modern biomass energy is a sustainable energy source, in full compliance with the environment. Biofuels are the general names of gas, liquid and solid products obtained by passing agricultural products, wood, animal, plant and urban waste through various biochemical and/or thermochemical conversion processes. Gas biofuels; bio-hydrogen, biogas, synthetic gases, solid biofuels; wood coal, bio-char, bio-pellet, bio-bricket, liquid biofuels; bioethanol, biodiesel, bio-methanol, bio-methyletheter and vegetable oils [1, 2].
It is possible to produce both energy and new chemicals using different methods from biomass. Biogas and ethanol can be produced by fermentation in anaerobic environment [3]. Gas fuel and activated carbon are produced by pyrolysis from wastes with a high percentage of solid with thermal decomposition. Synthetic fuel (syngas) production can be made by hydrogasification and hydrogenation. Heat energy and electricity are produced by burning garbage and solid wastes directly with air. Organic fertilizer is produced as a result of composting of garbage and animal feces [1].