Information AboutPyrolysis |
| CATEGORIES ABOUT PYROLYSIS | |
| biodegradable waste management | |
| chemical engineering | |
| organic reactions | |
| waste treatment technology | |
| fire protection | |
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It is used in Chemical Analysis to break down complex matter into simpler molecules for identification, for example by Pyrolysis Gas Chromatography Mass Spectrometry . Industrially, it may be used to convert one single chemical, for example Ethylene Dichloride is pyrolysed to Vinyl Chloride to make PVC . It may also be used to convert complex materials such as Biomass or Waste into substances which are either desirable or less harmful. Extreme pyrolysis, that leaves only Carbon as the residue, is called Carbonization . Pyrolysis is a special case of Thermolysis . ANHYDROUS PYROLYSIS Pyrolysis is usually understood to be Anhydrous (without water). This phenomenon commonly occurs whenever solid organic material is heated strongly in absence of oxygen, e.g. when Frying , Roasting , Baking , toasting. Even though such processes are carried out in a normal atmosphere, the outer layers of the material keep its interior oxygen-free. (Which is why the outer layer oxidizes (burns) but not the inside.) The process also occurs when Burning compact solid fuel, like wood. In fact, the flames of a wood fire are due to combustion of gases released by pyrolysis, not combustion of the wood itself. Thus, the pyrolysis of common materials like wood, plastic and clothing is extremely important for Fire Safety and Fire Fighting . An ancient industrial use of anhydrous pyrolysis is the production of Charcoal through the pyrolysis of Wood . More recently, pyrolysis has been used on a massive scale to turn Coal into Coke for Metallurgy , especially Steelmaking . Anhydrous pyrolysis has been assumed to take place during Catagenesis , the conversion of Kerogen to Fossil Fuels . In many industrial applications the process is done under pressure and at operating temperatures above 430 °C (806 °F ). Anhydrous pyrolysis can also be used to produce liquid fuel similar to Diesel from solid Biomass or Plastic s. US DOE The most common technique uses very low residence times (<2 seconds) and high heating rates using a temperature between 350-500 °C and is called either fast or flash pyrolysis. PYROLYSIS AND WASTE MANAGEMENT The application of pyrolysis to Journal, August p22-23 An example is the conversion of agricultural waste into bio-oil, using mobile pyrolyzer technology from Agri-Therm . The agricultural waste is pyrolyzed at a temperature of 450 to 550 ºC. There are 3 pyrolysis products: #A combustible gas that is burned to generate the heat required for the endothermic pyrolysis reaction. No extra heat or fuel source is required. #A liquid bio-oil that can be used as a fuel, after removal of valuable bio-chemicals that can be used as food additives or pharmaceuticals. The bio-oil cannot be used directly in most car engines. It can either be combusted to generate electricity or converted to a Syngas from which clean fuels and petrochemicals can be synthesized, using well-established technologies.http://www.geagroup.com/imperia/md/content/presse/2005.11.30_presentation_dr_plass_e.pdf #A solid char that can either be burned for energy or recycled as a Fertilizer . Such a fertilizer is very attractive since it ameliorates the Soil Texture and releases fertilizer slowly. When compared to chemical fertilizers, it contains oligoelements, such as selenium, which help achieve higher crop yields. When compared to other “natural” fertilizers such as Manure or Sewage , it is completely safe since it has been disinfected at high temperature and, being a solid, greatly reduces any risk of Water Table contamination. Pyrolytic char is thought to be a major component in the formation of ancient Terra Preta soils. Efforts are underway to recreate these soils through the production of Biochar which is designed to promote nutrient retention and enhance soil ecology. Another example is the conversion of sawdust or waste wood into bio-oil for the production of electricity or syngas, using a stationary fluidized bed pyrolyzer from Dynamotive . HYDROUS PYROLYSIS See Also: Hydrous pyrolysis The term pyrolysis is sometimes used to encompass thermolysis in the presence of water, such as Steam Cracking of oil, or more generally Hydrous Pyrolysis . An example of the latter is Thermal Depolymerization of organic waste into light Crude Oil . VACUUM PYROLYSIS In vacuum pyrolysis organic material is heated in a Vacuum in order to decrease Boiling Point and avoid adverse chemical reactions. It is used in Organic Chemistry as a synthetic tool. In '''flash vacuum thermolysis''' or '''FVT''' the residence time of the substrate at the working temperature is limited as much as possible again in order to minimize secondary reactions. PROCESSES FOR BIOMASS PYROLYSIS Fast pyrolysis of biomass feedstocks is required to achieve high yields of liquids. It is characterized by rapid heating of the biomass particles and a short residence time of product vapors (0.5 to 2 s). Rapid heating means that the biomass must be ground into fine particles and that the insulating char layer that forms at the surface of the reacting particles must be continuously removed. Since pyrolysis is slightly endothermic,Fang He, Weiming Yi and Xueyuan Bai, Investigation on caloric requirement of biomass pyrolysis using TG–DSC analyzer, Energy Conversion and Management, Volume 47, Issues 15-16, September 2006, Pages 2461-2469 various methods have been proposed to provide heat to the reacting biomass particles:
The following technologies have been proposed for biomass pyrolysis:
FIRE PROTECTION Destructive Fires in buildings will often burn with limited oxygen supply, resulting in pyrolysis reactions. Thus pyrolysis reaction mechanisms and the pyrolysis properties of materials is important in Fire Protection Engineering for Passive Fire Protection . SEE ALSO
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