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<br />It!:. - t.nvlronmental IntO. <br /> <br />;.r13 <br /> <br />http:JtWWW.leeCO.COmJenvlronL.htm <br /> <br />Nitrogen Oxides (NOX) These are gaseous pollutants created in the <br />combustion process because of the presence of nitrogen in the air and in <br />the materials being burned. Control of NOX emissions from crematories is <br />diffICult to achieve. <br /> <br />Sulfur Dioxide (S02) LP gas, along with the remains and container, contain <br />small amounts of sulfur, which can be released as sulfur dioxide during <br />combustion. Natural gas contains lower levels of sulfur than LP gas. Coal <br />burning power plants are major emitters of sulfur dioxide because of the <br />high sulfur content of the coal. <br /> <br />Metals <br /> <br />The metals regulated are cadmium, lead and mercury. The mercury comes <br />mainly from dental fillings. Cadmium and lead are found in the remains in <br />trace amounts and may be present in materials included with the container. <br /> <br />Dioxins and Furans <br /> <br />Dioxins and furans are complex compounds released from many different <br />combustion sources. They are quite hazardous even in relatively small <br />amounts. It is known that the presence of chlorine in the combustion <br />process is an important factor for dioxin and turan formation. <br /> <br />Am bient Oust <br /> <br />AlthOugh notl8g$ted by the EPA, ambient dust from the cremation <br />process js C}18o aeoncem for the operator. Dust becomes airborne when <br />A!mainsare sweptfmm a cremation chamber, placed into a processing unit <br />and transferred to urns. <br /> <br />Reducing Pollutant Output <br /> <br />Just as knowing which pollutants are emitted from your cremator is <br />important, it is also benefICial to know how your equipment reduces these <br />pollutants and what other methods are available to reduce them further. <br /> <br />How well a cremator reduces pollutant output depends largely on the <br />design, upkeep and operation of the equipment. We will discuss several <br />methods of reducing pollutant output. Each of the following methods is <br />being utilized at cremator installations in the United States and Canada, <br />although some are not as practical as others are. <br /> <br />Scrutinizing Input <br /> <br />One of the best methods of reducing pollutant output is also one of the <br />easiest: scrutinizing the materials included with the remains and container <br />for cremation. Non-chlorinated plastics should be requested whenever <br />possible, so the amount of hydrogen chloride produced from the cremation <br />can be minimized. It is also important to cremate the heaviest bodies first <br />and to request from your clients that no unnecessary items be included in <br />the cremation container. These practices minimize the chance of cremating <br />at a speed that exceeds the capacity of the equipment, which can lead to <br />visible emissions from the exhaust stacie <br /> <br />Increasing Retention Time <br /> <br />Retention time is how long the gases produced from cremation are held in <br />the cremation equipment and exposed to proper temperatures (14000F - <br /> <br />30f9 <br /> <br />8/1/0 I 8:04 AM <br />