SU1346820A1 - Method of preventing self-inflammation of coal in excavated space - Google Patents

Abstract

This invention relates to coal industry and is intended for safety purposes. The purpose of the invention is to increase the efficiency and cost-effectiveness of the method by ensuring the timeliness of preventive treatment of coal. To do this, before each treatment of coal with antipyrogen, coal is sampled from the bottom and physical parameters are determined. Taking into account these parameters, the processing frequency is determined by the following formula: t-Cn (T, p. -T,.) + W / V / 100 + //. U / 24Kp.i xC Q, where i- is the period before i-th treatment, day, С - average coal heat capacity in the range of temperatures cal / g, hail, T. -critical temperature of spontaneous combustion of coal before the ith treatment. C, T is the coal temperature in the cluster before the i-th treatment, w | - working humidity of coal before i-th treatment,%, V - hidden heat of water evaporation, cal / g, JH, - - natural gas content of coal before i-th processing, cm / g, U - heat of methane desorption, cal / cm, К .. is the average value of the oxygen sorption rate constant by the carbon in the temperature range 25 - T before the i-th treatment, ml / g h. С, - - oxygen concentration in the mine atmosphere before the i-th treatment, about a fraction, Q - oxygen sorption heat, cal / ml i (L

Description

This invention relates to safety in coal industry and can be used to prevent endogenous fires in mines.

The aim of the invention is to increase the efficiency and cost-effectiveness of the method by ensuring the timeliness of preventive treatment of coal.

The method is carried out as follows.

Example. In order to prevent spontaneous combustion of coal in the developed space of lava, coal samples are taken from the bottom and critical

the temperature of spontaneous combustion of coal (T.) and the rate of oxygen sorption rate by standard carbon (T. 0.0218 ml / g h), as well as technical analysis of coal on the content of volatile substances (V 43.6%), working humidity (wj 7.4%) and ash content (A 3.2%).

 The average concentration of oxygen (C 0.21% by volume) and the temperature of the crust in the cluster (T - 30 C) were taken according to measurements in the mine. The natural gas content of coal (ju.2,22) is calculated taking into account the residual gas content of coal on the hot mass of the ash content of coal A and the working humidity wP according to the formula

t, / fdOO-A -WJ) r 100

Acceptance of values: heat capacity C 0.3 cal / g-hail, latent heat of evaporation of water K 539 cal / h, heat of desorption of methane, 3 cal / m, and heat of chemisorption of oxygen by coal Q 4 cal / ml.

Then, according to the proposed formula, an incubation period of 120 days is calculated.

After the expiration of this period, the developed space of lava is processed by the antipyrogen at the rate of 3 kg of antipyrogenic agent per 1 ton of coal. 200 kg of antipyrogen are consumed per treatment.

Laboratory studies of samples of coal treated with antipyrogen showed that the oxygen sorption rate constant with coarse coal decreased to 0.02 ml / gh, and the critical temperature of spontaneous combustion of coal increased and amounted to T

KRG

 75 p. 0c

The main parameters remain the same. Taking into account these changes, the incubation period for the spontaneous combustion of coal after the first treatment in the fabotatory space is 132 days.

Therefore, the second processing of the developed space was done in 132 days. Two months later, the area was modified without signs of spontaneous combustion of coal and locked and therefore preventive treatments were no longer carried out.

Thus, in order to prevent coal from spontaneously burning in the clearing face, only two treatments of the developed space with anti-pyrogen were required.

If prophylactic treatment of the developed space at the site was carried out in a known manner after about 5 months, then it would be necessary to carry out 20 treatments, and the cost of work would be much higher than that performed by the proposed method.

Claims (1)

Invention Formula A method for preventing coal to self-ignite in an exhausted space, including periodic treatment of coal with an antipyrogen, characterized in that, in order to increase the efficiency and effectiveness of the method by ensuring timely preventive treatment of coal, coal is sampled from the bottom and determined physical parameters before each treatment with pyrogen and determining physical parameters taking into account which determine the frequency of processing of the following mathematical simulation: five / 7 one 100 -JU.-U Where i 0 m t - - 61 e Chr, fci w: 24gp. C.-Q. . period before the i-th treatment, days average heat capacity of coal in the temperature range. , cal / g.grad; critical temperature of self-ignition of coal before the i-th treatment, C; coal temperature in the cluster before the i-th treatment, C; working humidity of coal before the i-th treatment,%;  1346820  - the heat of evaporation is hidden by fine coal in the interval water, cal / g; temperatures - before ju {- natural gas content by the i-th treatment, ml / g h; before the i-th treatment, CMVg; .С - oxygen concentration in and - the heat of desorption of methane; the miner atmosphere in front cal / cm treatment, about share, Cr. - the average value of the constant Q - the heat of oxygen sorption sorption rate with oxygen, cal / ml