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Comprehensive Review of <br />Solid Waste Collection and Disposal Options <br />The low -Btu gases produced by the combustion process in the first chamber are typically <br />introduced into a secondary chamber where they are burned at temperatures ranging from 1,800 <br />to 2,000 °F. Heat energy is recovered by convection in waste heat boilers in this secondary <br />chamber, although waterwall boiler units for the primary and secondary chambers have been <br />constructed. <br />In recent years, several manufacturers have entered the modular plant marketplace using a batch <br />oxidation process (BOS — Exhibit 12 -3). The batch process integrates slow gasification and long <br />exposure time at moderate temperatures followed by turbulent oxidation of gases at high <br />temperature. After the waste is loaded into the primary chamber and sealed tight, an auxiliary <br />burner is ignited to raise temperatures to about 200 °C. The interior temperature is then <br />monitored with controls and maintained by allowing sub - stoichiometrie amounts of air into the <br />chamber during the gasification process, The combination of relatively low temperatures and <br />only sub - stoichiometrie amounts of air in the primary chamber during gasification do not disturb <br />the gasification bed, which is said to minimize particulate emissions, heavy metals, and many <br />combustion gasses. Depending on the waste type and system layout, the waste reduction process <br />in the primary chamber will take approximately 10 to 15 hours. <br />Exhibit 12 -3. Cross - Section of Batch Oxidation System, Modular <br />Facility <br />Air Emissions Contrc <br />System <br />Man <br />Source: Waste2Energy, Inc., 2009 <br />Primary Chambers <br />Emissions produced during the gasification process pass through to the preheated secondary <br />chamber also called an "afterburner" where these emissions are thermally treated. As the gasses <br />from the primary chamber enter- a preheated secondary chamber, auxiliary burners and excess <br />oxygen create a very turbulent high temperature environment (typically between 850 °C and <br />1,200 °C). For most applications within the European Union (EU) 850 °C is the required <br />minimum, though 1,100 °C is required for halogenated wastes, and in North America, 982 °C is <br />usually required. Additionally, residence time in the secondary chamber is important for proper <br />destruction of emissions from the primary chamber. In both the EU and North America, a <br />minimum residence time of 2 seconds is required. Operation of these units is subject to stringent <br />v2.1 162 10%22/12 <br />