Encyclopedia of Renewable Energy. James G. Speight
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Название: Encyclopedia of Renewable Energy

Автор: James G. Speight

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119364092

isbn:

СКАЧАТЬ both being endemic ingredients in many coal bearing rock strata.

Coal: Bituminous Subbituminous Lignite
SiO2 20-60 40-60 15-45
Al2O3 5-35 20-30 20-25
Fe2O3 10-40 4-10 4-15
CaO 1-12 5-30 15-40

      Toxic constituents depend upon the specific coal bed makeup, but may include one or more of the following elements or substances (in alphabetical order and not in order of occurrence) in quantities from trace amounts to several percent: arsenic, beryllium, boron, cadmium, chromium, cobalt, lead, manganese, mercury, molybdenum, selenium, strontium, thallium, and vanadium. Organic constituents of ash include dioxins and polynuclear aromatic compounds.

      Fly ash solidifies while suspended in the exhaust gases and is collected by electrostatic precipitators or filter bags (Baghouse). Since the particles solidify while suspended in the exhaust gases, fly ash particles are generally spherical in shape and range in size from 0.5 micron to 100 µm. They consist mostly of silica (SiO2), which is present in two forms: amorphous (rounded and smooth) and crystalline (sharp, pointed, and hazardous), aluminum oxide (Al2O3), and iron oxide (ferric oxide, Fe2O3). Fly ash is generally highly heterogeneous and consisting of a mixture of glassy particles with various identifiable crystalline phases such as quartz, mullite (3Al2O3.2SiO2 or 2Al2O3.SiO2), and various iron oxides.

      In the past, fly ash was generally released into the atmosphere, but pollution control equipment mandated in recent decades now requires that it be captured prior to release. In the United States, fly ash is generally stored or placed in landfills or is often used to supplement Portland cement in concrete production as well as in the synthesis of geopolymers and zeolites.

      Ash Content

      Ash content (which is a thermal manifestation of the inorganic content of a fuel, such as biomass) is the inorganic oxides that remain after complete combustion of the feedstock. The amount of ash between different types of feedstocks differs widely (0.1% w/w for wood and up to 15% w/w for some agricultural products) and influences the use of the fuel as well as the design of the reactor, particularly the ash removal system. The chemical composition of the ash is also important because it affects the melting behavior of the ash. Ash melting can cause slagging and channel formation in the reactor. Slag can ultimately block the entire reactor.

      Generally, the ash-forming inorganic materials in most solid fuels, including biomass, can be divided into two broad fractions: (i) the inherent inorganic material and (ii) the extraneous inorganic material.

      The inherent inorganic material exists as part of the organic structure of the fuel, and is most commonly associated with the oxygen-, sulfur-, and nitrogen-containing functional groups. These organic functional groups can provide suitable sites for the inorganic species to be associated chemically in the form of cations or chelates. Biomass materials tend to be relatively rich in oxygen-containing functional groups, and a significant fraction of the inorganic material in some of the lower ash biomass fuels is commonly in this form. It is also possible for inorganic species to be present in fine particulate form within the organic structure of some of the fuels, and to behave essentially as an inherent component of the fuel.

      The extraneous inorganic material has been added to the fuel through geological processes, or during harvesting, handling, and processing of the fuel. Biomass fuels, for instance, are commonly contaminated with soil and other materials, which have become mixed with the fuel during collection, handling, and storage.

СКАЧАТЬ
Chemical Characteristics
Ash, % Sulfur, % w/w Potassium, % w/w Ash melting temperature (oC)
Bioenergy Feedstocks corn stover 5.6
sweet sorghum 5.5
sugarcane bagasse 3.2-5.5 0.10-0.15 0.73-0.97
sugarcane leaves 7.7
hardwood 0.45