- •Introduction научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •The steam power plant
- •The internal-combustion-engine power plant
- •The gas-turbine power plant научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •The nuclear power plant
- •Burning equipment
- •Furnaces научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •Cyclone furnace (crushed coal)
- •Pulverized coal furnace
- •Gas burner
- •Stokers
- •Spreader stokers
- •Chain- and travelling-grate stokers
- •Chapter II научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров heat transfer and steam generation
- •Modes of heat transfer
- •Steam generation
- •Boilers
- •The two-drum water-tube boiler
- •The bent-tube boiler научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •The horizontal straight tube boiler
- •The horizontal-return tubular boiler
- •Superheaters
- •Economizers and air heaters
- •Types of economizers
- •The air heater
- •Air preheaters
- •The steam-generating unit научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •High-capacity, high-efficiency steam-generating units научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •Heat exchangers
- •Direct-contact feed-water heaters
- •Closed peed-water heaters
- •Condensers
- •Turbines
- •Types of turbines научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •Choice of type
- •The turbine nozzle
- •Pumps, draft; fans, blowers, compressors
- •Pump types научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •Centrifugal pumps
- •Mechanical draft научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •Fans научно-информационный центр санкт-петербургского государственного технологического университета растительных полимеров
- •Blowers
- •Centrifugal compressors
- •Power-plant cycles
- •The rankine cycle
- •The simple, open, gas-turbine power cycle
Chain- and travelling-grate stokers
A chain-grate stoker has a moving grate in the form of a continuous chain. The upper and lower runs of the chain are supported on a structural steel frame. The chain is driven from the stoker front by means of sprockets mounted on a rotating shaft which is actuated by a ratchet mechanism and hydraulic cylinder. The grate bars are made of heat-resistant cast Iron, are cooled by the air supplied for combustion, and form a flat undisturbed surface for the fuel bed.
Coal from the stoker hopper is placed on the moving grate in a uniform layer, the depth of which is controlled by the vertical movement of an adjustable fuel gate. The depth of the fuel bed is usually between 3 and 8 in depending upon the kind of fuel being burned. The speed of the grate may be adjusted, usually between the limits of 4 and 20 in. per mm, so that the combustible material is burned before the ash is discharged from the rear end into the ashpit.
НАУЧНО-ИНФОРМАЦИОННЫЙ ЦЕНТР САНКТ-ПЕТЕРБУРГСКОГО ГОСУДАРСТВЕННОГО ТЕХНОЛОГИЧЕСКОГО УНИВЕРСИТЕТА РАСТИТЕЛЬНЫХ ПОЛИМЕРОВ
The shearing action of adjacent grate bars as they pass around the curved supporting member at the rear of the stoker provides a self-cleaning action for the grate bars. Air is supplied under adjustable pressure to several compartments under the grate. Thus the supply of air to various sections of the fuel bed may be adjusted to suit the combustion requirements.
When bituminous and other high-volatile coals are burned, high-velocity air jets are installed in, the front furnace wall. The volatile matter that is released from the incoming green coal is mixed with the swirling turbulent air that is introduced above the distillation zone. Two important results are thereby accomplished: 1) the volatile matter is burned smokelessly, and 2) a high-temperature zone is formed which provides for stable ignition of the incoming coal. The existence of this highly incandescent zone of turbulent combustion over the front end of the stoker makes mixing arches in the furnace unnecessary, and an open furnace with vertical walls similar to the spreader-stoker furnace may be used.
The small sizes of anthracite which cannot be sold for a domestic fuel and the small sizes of coke which are too small to charge into the blast furnace, called coke breeze, are important stoker fuels in certain localities. These fuels contain practically no volatile matter. Because of the fine size and large total surface of the incandescent carbon in the fuel bed, all the oxygen combines with carbon a short distance above the grate unless fuel-bed air velocities are so high as to almost lift the fuel from the grate. Under these conditions, large amounts of fine particles of carbon are blown upward into the furnace.
It is necessary to maintain a hot zone above the entering fuel to ignite the fuel on the grate. Accordingly, furnaces for burning anthracite and coke breeze are constructed with a long rear arch and over-fire air injection through the rear arch.
The net effect is to maintain a hot zone over the incoming fuel and to blow the fine particles of carbon onto the front of the stoker so as to assist ignition and retain them in the combustion zone until they are burned. Over-fire air injection and a high furnace are necessary to burn the CO that is formed in the fuel bed.
The travelling-grate stoker is similar in general appearance and operation to the chain-grate stoker except that individual grate bars or keys are mounted on carrier bars which extend across the width of the stoker and are attached to and driven by several parallel chains. Since adjacent grate bars have no relative motion with respect to each other, this stoker is particularly applicable to the burning of the fine sizes of anthracite and coke breeze in which all the fuel may pass through a screen having 3/16-in, round openings.