Orange County NC Website
Browse       Search
92 <br />Comprehensive Review of <br />Solid Waste Collection and Disposal Options <br />• Waterwall Units. This design has the furnace constructed with water tube membrane <br />walls to recover the beat energy directly from the furnace unit. Waterwall designs are <br />more commonly used because their thermal efficiency is higher than refractory units. <br />Boilers convert the heat released to steam, which can be used to either generate electricity or for <br />industrial steam applications (if a customer is nearby). Turbine - driven generators driven by the <br />steam generate electricity. <br />12.3.1.3 Products of Combustion <br />Other than the release of energy in the form of heat, the products of combustion of solid waste <br />are fly ash and bottom ash. Each of these byproducts of combustion, air emissions, and ash, <br />present further environmental permitting, handling, and disposal challenges for the WTE <br />technology. <br />Fly ash is carried in the combustion gas, which also contains a number of contaminants, <br />including acid gases, and other products of incomplete combustion. The gases are passed <br />through a variety of air pollution control devices for cleanup before being discharged out of the <br />stack into the atmosphere. <br />Bottom ash is the non- cornbusted material, which is discharged at the end of the grate subsystem. <br />The bottom ash, as it is discharged from the grates, is still burning and is normally quenched by <br />water. In the United States, the two ash streams, fly ash and bottom ash, are normally combined <br />for management and disposal in a permitted MSW or industrial landfill. The two combined ash <br />streams are commonly referred to as solid waste combustor ash, or just ash. In Europe, these two <br />ash streams are not usually combined and are normally managed separately. <br />12.3.2 Mass Burning <br />"Mass- burning" refers to the generic name for the type of technology used to incinerate <br />unprocessed solid waste, and thereby releasing its heat energy. The thermal reduction of solid <br />waste through mass- burning has been a common procedure throughout the world. There are <br />decades of experience in constructing and operating some 500 mass burn facilities in the United <br />States and Europe. Such facilities were in operation as early as 1896 in Hamburg, Germany, <br />converting solid waste into electricity. <br />12.3.2.1 Process description <br />An illustration of a typical mass - fired, WTE facility is shown in Exhibit 12 -1. Solid waste <br />collection and transfer vehicles proceed into a tipping area where their waste is discharged into a <br />large storage pit, which is usually sized to allow two to three days storage or stockpiling of <br />refuse so that plant operations can continue over weekends and holidays when deliveries will not <br />be accepted. There are some facilities which differ in design by utilizing a tipping floor with a <br />front loader and belt conveyor system as their form of storage and feed system. In almost all <br />facilities, however, the refuse is fed into the furnaces by means of overhead cranes manipulated <br />by a crane operator. Much of the success of the operation depends upon the skill of the crane <br />operator to remove large or unusual objects in the waste stream that would otherwise prove to be <br />a problem if fed into the boiler. The operator is also responsible to observe the nature of the <br />v2.1 158 10/22/12 <br />