Power Plant Engineering
Fig. 7.9 Table 7.2 : Excess air required by some fuel systems
Download 3.45 Mb. Pdf ko'rish
|
Power-Plant-Engineering
- Bu sahifa navigatsiya:
- 7.7 CYCLONE FURNACES
|
Fig. 7.9
Table 7.2 : Excess air required by some fuel systems Fuel System Excess air, % Coal Pulverized, completely water-cooled furnace 15—20 Pulverized, partially water-cooled furnace 15—40 Spreader stoker 30—60 Chain grate and travelling stoker 15—50 Crushed, cyclone furnace 10—15 Fuel oil Oil burners 5—10 Multifuel burners 10—20 Gas : Gas burners 5—10 Multifuel burners 7—12 The total air-fuel ratio is greater than stoichrometric (chemically correct) but just enough to ensure complete combustion without wasting energy by adding too much sensible heat to the air. Table 7.2 gives the range of excess air, percent of theoretical, necessary for good combustion of some fuels. Initial ignition of the burners is accomplished in a variety of ways including a light-fuel oil jet, itself spark-ignited. This igniter is usually energized long enough to ensure a self-sustaining flame. The con- trol equipment ranges from manual to a remotely operated programmed sequence. The igniters may be kept only for seconds in the case of fuel oil or gas. In the case of pulverized coal, however, they are usually kept much longer, sometimes for hours, until the combustion-zone temperature is high enough to ensure a self-sustaining flame. It may also be necessary to activate the igniter at very light loads, especially for coals of low volatility. The impeller is the part of the burner that is subject to severe maintenance problems and is usually replaced once a year or so. 7.7 CYCLONE FURNACES Cyclone-furnace firing, developed in the 1940s, represents the most significant step in coal firing since the introduction of pulverized-coal firing in the 1920s. It is now widely used to burn poorer grades FUELS AND COMBUSTION 231 of coal that contain a high ash content with a minimum of 6 percent to as high as 25 percent, and a high volatile matter, more than 15 percent, to obtain the necessary high rates of combustion. A wide range of moisture is allowable with pre-drying. One limitation is that ash should not contain a high sulfur content or a high Fe 2 O 3 ; (CaO + MgO) ratio. Such a coal has a tendency to form high ash-fusion temperature materials such as iron and iron sulfide in the slag, which negates the main advantage of cyclone firing. The main advantage is the removal of much of the ash, about 60 percent, ao molten slag that is collected on the cyclone walls by centrifugal action and drained off the bottom to a slag-disintegrating tank below. Thus only 40 percent ash leave, with the flue gases, compared with about 80 percent for pulverized-coal firing. this materially reduces erosion and fouling of steam-generator surfaces as well as the size of dust-removal precipitators or bag houses at steam-generator exit. Other advantages are that only crushed coal is used and no pulverization equipment is needed and that the boiler size is reduced. Cyclone-furnace firing uses a range of coal sizes averaging 95 percent passing a 4-mesh screen. The disadvantages are higher forced-draft fan pressures and therefore higher power requirements, the inability to use the coals mentioned above, and the formation of relatively more oxides of nitrogen, NO 2 which are air pollutants, in the combustion process. The cyclone is essentially a water-cooled horizontal cylinder (Fig. 7.10) located outside the main boiler furnace, in which the crushed coal is fed and fired with very high rates of heat release. Combustion of the coal is completed before the resulting hot gases enter the boiler furnace. The crushed coal is fed into the cyclone burner at left along with primary air, which is about 20 percent of combustion or secondary air. The primary air enters the burner tangentially, thus imparting a centrifugal motion to the coal. The secondary air is also admitted tangentially at the top of the cyclone at high speed, imparting further centrifugal motion. A small quantity of air, called tertiary air, is admitted at the center. The whirling motion of air and coal results in large heat-release-rate volumetric densities, between 450,000 and 800,000 Btu/(h.ft) (about 4700 to 8300 kW/m 3 ), and high combustion temperatures, more than 3000°F (1650°C). These high temperatures melt the ash into a liquid slag that covers the surface of the cyclone and eventually drains through the slag-tap opening to a slag tank at the bottom of the boiler Replaceable Rear lines Oil Burner Radial Burner Primary Air Tertiary Air Crushed Coal Inlet Emergency Standby Oil Burner Secondary Air Gas Burners Re-entrant Throat Slag Tap Opening Download 3.45 Mb. Do'stlaringiz bilan baham: 
|