SU735870A1 - Apparatus for determining non-complete combustion of gaseous and liquid fuel - Google Patents

Description

bullhead, accompanied by a decrease in the level of pulsations. This device, while simplifying the hardware implementation in the measurement of t, however, has the disadvantage that only one of the losses, but the nominal one, can be counteracted with its help. At the same time, in practice, it is necessary to control the total losses (tj since, under different conditions of operation, when different types of fuel are burned, depending on the modes and loads of the unit, the formation of a and L. may develop differently, and for chains of mode optimization burning, it is necessary to know the total value (). The purpose of the invention is to expand the measurement range. For this, the device is equipped with a sensor of the oxidizing potential of combustion products, matching and displacement blocks, a damper and an accumulator; The orbgo is connected to an optical density sensor and through a matching unit with an oxidation potential sensor, and the output is connected to a pulsation measuring unit, the output of the matching unit being connected to the input of the unit through a damper and a displacement unit. Fig. 1 shows a structural diagram of the device; Fig. 2 shows statically the characteristics of signals depending on the coefficient of excess vo; from the ear A, the signal from the output of the optical density sensor 1 is fed to the input of the adder 2 E, through the pulsation measuring unit 3, to the unit 4, Simultaneously, the same signal from sensor 1 is fed to the selection unit 4 through the radiation measuring unit 5. The signal from the TSx of the oxidative noTeit sensor of combustion products 6 through the matching unit 7 enters the input of the torus 2 and then, together with the signal of the moment 1, passes through the block 3 on block 4. At the same time, the signal of sensor 6 from the output of block 7 passes to the selector unit 4 through the damper 8 and the bias block 9. The output signal-unit of village 4 (the larger of the three pkkh inputs to its signal inputs) is not a secondary device 10. - - -R In the Range of normal modes and loads of the unit (when the values of the optical density of the density Dl cbc eefCfsysSOTX are o, O, 5%, and the oxidation potential E, corresponding to the value o, 0.5%), the device operates on the variable component channel. The sum of the signals D and E of sensors 1 and 6 from the output of adder 2 passes through block 3, in which the selection of variable components in the selected frequency band is performed, straightening and smoothing of the resulting sum signal. In that case, if the input of the adder 2 receives a signal only from sensor 1, then when setting up block 3 on the frequency band Af, in which .D C.), the output of the measuring channel with a proper graduation of the scale of the secondary device 10 gives the value o,. If we apply to the input of adder 2 a signal only from sensor 6, then when setting up block 3 on the frequency range in which i (%) on, the output of the secondary device 10 will receive. If the input of block 3 is simultaneously sensor signals I and 6, and block 3 itself is set to a frequency range corresponding to the overlapping frequency response zone E., the output will be Z (using matching block 7, matching of the static characteristics is provided (Z} and a (. In the simplest case, if both these characteristics are linear, i.e. (y | Xx, and% the role of block 9 reduces only to the selection of K, K,. If ste is one or both of these static dependencies are non-linear, block 7 performs the role of a nonlinear converter, both combining them In addition, if the type of signal E differs from signal b, the task of block 7 also includes bringing them to a general form, for example, to a unified DC signal or voltage. Thus, the input to block 3 is summed two different random (variable) signals, and at the output of the measuring channel we get the total loss from the chemical () and mechanical (s) incompleteness burns off the Disconnect any of the sensors 1 and allows to measure only one of the components. Thus, when using the invention, it is necessary to preliminarily determine the zone of overlap of the frequency characteristics J) and E. and its dependence on people (and other factors), the type of static dependencies Ц K, (Cj,) and E / "K" (nd) conditions of their combination. Pos5, 73587, this is done by setting blocks 3 and 7. When using a pulsation opacimeter as the sensor 0, and as an E-high-temperature electrochemical cell with a solid electrolytic cell, the overlap of the frequency characteristics varies only slightly throughout the whole range of loads and modes the aggregate, and the static dependences D, (c) and E (€ jj) are close to linear in the entire working range-io zone from O to 0, which allows to simplify the whole procedure of tuning. In the event of abrupt changes in the load or in case of gross violations of the combustion mode, accompanied by an increase in the magnitude of -15: 0.5% and (or) 0.5%, the signals D "and E may decrease, giving false information. In this case, switching to the signal by the constant component B. In the various modes of equipment operation depending on the type of fuel burned, the number is made. included burners, unit load, etc; Factors either chemical or mechanical underburning can play a predominant role. The selection of the appropriate signal is carried out using the selection unit 4. For example, in the case of using the unit for selection in dividing the maximum by its output, the larger of the three signals arriving at it will pass. In order for the signal Un to interfere with the operation of the alternating component under normal conditions, this signal preliminarily shifts 35 06 seconds in the offset unit 9, as shown in FIG. 2, Inventive Formula A device for determining the non-flux combustion of gaseous and liquid fuels containing an optical density sensor for flue gas (f, connected through a measuring unit to one input of the ceneKTHpoBana unit, the other input connected to the pulsation measuring unit, and the output c; with the device, which, in order to expand the measurement range, it is equipped with an oxidation potential of the combustion products, matching and displacement units, a damper and an adder, whose input is connected to a sensor m of optical density and through the HHSJ matching unit with the oxidation potential sensor, and the output f. with the pulsation measurement unit, the output of the matched unit connected to the input of the selection unit through the damper and the bias unit, Sources of information taken into account Expertise 1. Informational Message - -, Nb T-10/66 Automatic control of air supply with impulse due to chemical incompleteness of combustion in a fuel oil boiler, M .: BTI ORGRES, 1967. 2. USSR author's certificate No. 514516, кп. F 23 N 5/24, 1973.

Claims (1)

Claim A device for determining incomplete combustion of gaseous and liquid fuels, comprising a flue gas optical density sensor® connected through a measuring unit to one input of a selection unit, the other input of which is connected to a pulsation measuring unit, and the output to an indicating device, the gong is that, in order to expand the measurement range, it is equipped with an oxidation potential sensor of combustion products, matching and bias units, a damper and an adder, the input of which is connected to the optical raft sensor spine and through the block matching with the oxidation potential sensor, and the output r from the pulsation measurement unit, wherein the output matching unit is connected with an input block selektirovaniya via a damper unit and offset.