MANAGEMENT OF SOLID WASTE 653
This is equivalent to 500 to 1000 ppm of NO x in the off-
gas depending on the refuse composition and the amount
of excess air. Other trace components can be found in the
off-gas and air summarized in Table 18. Their presence or
absence is very much dependent on the type of refuse incin-
erated and the operating conditions.
Particulate matter is also present in the stack gas and is
removed by the usual techniques discussed in the section on
Air Pollution. Particulate loadings of 3 to 25 pounds per tonne
of refuse burned have been reported. 21,22 Typically, particles
range from 5 to 350 microns in size with 30% by weight
under 10 microns and 75% less than 200 microns in size.
Solids residue from incinerators will vary widely with the
type of feed and incinerator operating conditions. Typical resi-
dues have been examined by the Bureau of Mines. The results
of this work are summarized in Table 19. A typical ash and
slag chemical analysis may be found in Table 20. This residue
can be utilized in road fill or separated (see Reclamation).
Incineration can effectively be divided into local, onsite
and central methods. The basic principles are the same but
the applications vary considerably. Central incineration facil-
ities handle refuse from many sources and a wide variety of
feeds. Local incinerators handle either special feeds, onsite,
such as industrial or hospital wastes, or serve a particularsmall location such as an apartment house. Size is not nec-
essarily a criterion although generally central incineration
facilities have capacities in excess of 100 tons per day.
At the present time there are about 200 central incin-
eration facilities in use (making this type of waste reduction
facility the most prevalent one). Central incineration handled
about 15 million tons of waste annually and is concentrated
in the northeastern part of the United States. It is also widely
practiced in Europe. The practice of incineration of wastes
was growing as land for fill, particularly in urban areas,
becomes scarcer and technological improvements provide
more efficient and cleaner systems.
A typical incineration facility will have a capacity rang-
ing from 100 to 1200 tons per day with individual furnaces
usually limited to a 300 ton per day rating. Most large incin-
erators today are continuous-feed rather than batch design
because operation is more controlled and easier. In addition
the absence of the heating and cooling cycle results in lower
maintenance and a higher capacity per investment dollar. Air
pollution control is improved significantly in continuous-feed
incinerators are compared to batch plants.
A large central incineration facility is schematically
shown in Figure 3. It can be divided into five areas: (1) the
receiving section which includes the weight station, storage
hopper and bucket crane; (2) the furnace—which includes
the charging hopper, stokers, furnace chamber and air feed
system; (3) the effluent gas treating facilities; (4) the ash
handling system; and (5) the cooling water system. The par-
ticular system shown does not have provision for waste-heat
recovery; only a few systems incorporate this at present.
For mixed refuse, a typical refractory-wall incinerator
will have 12.7 cubic feet in the primary furnace chamber and
18.5 cubic feet in the secondary chamber per ton of refuse per
24 hours with a grate loading of 77 pounds per square foot
per hour. Volume and loading requirements will vary with the
type of feed as well as furnace configuration. Typically the
values quoted correspond to a 12,500 Btu per hour per cubic
foot heat release. A detailed discussion of furnace design isTABLE 12
Generation by type of solid wastes from the mineral and fossil and fuel industries (1965)Industry Mine waste Mill tailingsWashing
plant rejects SlagProcessing plant
wastesTotal
(thousands
of tons)Copper 286,600 170,500 — 5,200 — 466,700
Iron and steel 117,599 100,579 — 14,689 1,000 233,877
Bituminous coal 12,800 — 86,800 — — 99,600
Phosphate rock 72 — 54,823 4,030 9,383 68,308
Lead-zinc 2,500 17,811 970 — — 20,311
Aluminum — — — — 5,350 2,350
Anthracite coal — — 2,000 — — 2,000
Coal ash — — — — 24,500 24,500
Other — — — — — 229,284
Total 419,571 288,900 144,593 23,919 40,233 1,146,500TABLE 11
Unit generation ratesAnimal Waste (tons unit yr)Cattle 12.0
Cows, milk 10.6
Hogs 8.0
Sheep 3.0
Chicken, broilers 0.0045
Turkeys 0.025
Chicken, layers 0.047C013_002_r03.indd 653C013_002_r03.indd 653 11/18/2005 2:27:20 PM11/18/2005 2:27:20 PM