DD282288B3 - METHOD FOR MEASURING THE ASH CONTENT AND THE QUANTITY OF CRUDE BROWN COAL ON A FOUNDER BELT - Google Patents

Abstract

The application relates to a method and an arrangement for measuring the ash content and the throughput of crude lignite on a conveyor belt. In order not to interrupt the measurement even when the layer height is exceeded in the centre, when the upper limit values of the elementary characteristic values MSK 60 . (RHO . H) = 6.5 and MSK 660 . (RHO . H) = 2.5 of a measuring channel in the central part of the conveyor belt is exceeded, the measured value detection is switched to a measuring channel in the off-centre part of the conveyor belt and on dropping below the lower limit values of the elementary characteristic values MSK 60 . (RHO . H) = 0.4 and MSK 660 . (RHO . H) = 0.25 of a measuring channel in the off-centre part of the conveyor belt, the measured value detection is switched to a measuring channel in the central part of the conveyor belt. <IMAGE>

Description

For this 1 page drawing

The invention relates to a method for measuring the ash content and the throughput of raw lignite on a conveyor belt on the basis of the absorption of hard and soft gamma radiation in the central and off-center part of the conveyor belt.

It is already known to arrange a Maßkanal with hard and soft gamma radiation in the middle of the conveyor belt. The disadvantage of this method of measurement is that the ash content and mass flow rate measurement at a Schütthöhenüberschreitung due to low pulse rates leads to a faulty ash measurement or is disturbed. Furthermore, it is known to arrange several measuring channels with hard gamma radiation in the horizontal and oblique part of the conveyor belt and to calculate the filling factor of the conveyor belt from the approximation of the bulk material surface. This method fails when some measuring channels in the horizontal part are disturbed due to too high a dumping height or in the sloping part due to too low dumping height. In order to avoid this phenomenon, it has already been proposed, by means of a special device, to bring the bulk material surface of the coal stream into a more favorable form for the measurement before the measuring location. This significantly increases the investment required for the measuring technology.

The invention has for its object to ensure the ash content and mass flow rate measurement of lignite coal on a conveyor belt on the basis of the absorption of hard and soft gamma radiation even when exceeding the usual allowable layer heights.

According to the invention, this is achieved by the filling factor of the conveyor belt troughing from the upper limit values in the central part and the exceeding of the lower limit values in the off-center part and the elementary value MSK60 for the ash measurement optionally from the central or off-center part and the elementary parameter RHO.H for the quantity measurement is determined additively from the switching point in the central part of the conveyor belt, the elementary measured value RH · H in the off-center part of the conveyor belt and the form factor. The invention will be explained in more detail below using an exemplary embodiment. The accompanying drawing shows an arrangement for measuring the ash content and throughput of raw lignite on a conveyor belt. Between the upper strand 1 and the lower strand 2 of a conveyor belt, a radiator 4.1 and in the off-center part a radiator 4.2 with hard and soft gamma radiation are arranged in the central part. The radiators 4.1; 4.2 is above the conveyor belt in each case a detector 5.1; 5.2 permanently assigned. The two-channel selective detectors 5.1; 5.2 are coupled via a cable connection 6 and an adapter 7 with a microcomputer 8. The lower and upper limit values of the elementary characteristic values MSK60 · (RHO · H) and MSK660 · (RHO · H) for switching the measuring channels 3 are stored in the microcomputer 8 and are constantly controlled by a nominal-actual-value comparison. When exceeding the upper limits in the central part of the conveyor belt is switched to the measuring channel 3.2 in the off-center part of the conveyor belt and there continue the ash and flow measurement.

When the lower limits in the off-center part are not reached, the measuring channel 3.2 in the off-center part switches over to the measuring channel 3.1 in the central part of the conveyor belt. From below the upper limits in the central part of the conveyor belt and the exceeding of the lower limits in the off-center part of the conveyor belt, the filling factor of the conveyor belt trough is determined. By the solution according to the invention, the ash content and mass flow rate measurement can be continued even with a central layer height exceeded on the conveyor belt with exact measurement results.

Claims (1)

Claim: Method of measuring the ash content and the throughput of crude lignite on a conveyor belt on the basis of the absorption of hard and soft gamma radiation in the central and off-center part of the conveyor belt, characterized in that the filling factor of the conveyor belt troughing falls short of the upper limits in the central part and the excess the lower limit values in the off - center part and the elementary value MSK60 for the ash measurement optionally from the central or off - center part and the elementary value RHO · H for the quantitative measurement additive from the switching point in the central part of the conveyor belt, the elementary mass value RHO · H in the off - center part of the conveyor belt and the form factor.