CS196094B1 - Method of removing the exhalations at the putting out of operation and putting in operation of generators from the warm reserve - Google Patents

Description

The present invention relates to a method for the removal of exhalations during shutdown and when generators are put into operation from a warm reserve.

The main source of exhalation of the generator station is in chimneys, which have so far discharged the raw generator gas when commissioning the generators and putting them into hot reserve or out of operation. These emissions contain a significant percentage of carbon monoxide, hydrogen sulphide, ammonia, phenols and tar vapors. The disposal of emissions is a serious problem in terms of economy, health and the environment.

If the generator is placed in a warm reserve, the air and steam supply has been shut off under the grate and the generator is placed on the chimney. When the gasification medium is shut off, the gasification process essentially ceases and the accumulated heat only affects the carbonization of the coal in the generator. At first glance, this results in the fact that the rest of the air when the generator is shut down causes a short-term temperature increase.

Gas analysis shows that this phase, which consumes all air and steam and carbonization with disproportionately less gas evolution, takes approximately half an hour. During this time, the carbon monoxide content of the gas drops to 10 to 15%, but the hydrogen content increases to 20 to 25 methane also noticeably increases, the carbon dioxide content reaching about 12 7 *. Free oxygen almost disappears from the gas and the amount of nitrogen in it is reduced by 80 to 90 Z. It is therefore essentially a real, high-quality carbonization gas from brown coal. The gas composition remains almost constant for a long time; only a slow increase in the carbon dioxide content can be observed in connection with the lowering of the temperature.

The principle of the method according to the invention is that when the generator is shut down, the generator remains connected to the gas collecting pipe and supplies air instead of the steam-air mixture in an amount sufficient to maintain the generator bed temperature equal to the initial saturation temperature. The hot reserve is fed to the generator, which remains connected to the gas manifold, after steam flushing with the steam-air mixture.

The advantage of the process according to the invention is, in particular, the fact that by discharging the carbonization products and the gasification products into the manifold, the difficult exhalations are completely eliminated while increasing the fuel utilization by their efficient utilization. By keeping the generator connected to the manifold all the time, the number of dead work operations during shutdown and restarting is reduced. A special advantage in terms of operational economy is the continuous readiness of the generator for immediate commissioning. Also, decommissioning in unforeseen operating situations is as simple, easy and safe as possible.

The invention is based on the findings verified by numerous tests on a working scale, that after the decommissioning the generator can be kept in operable state practically indefinitely by supplying air below the grate in an amount corresponding approximately to the amount of air which the generator was able to suck in. on the chimney. Depending on the operating conditions, this amount of air is between 0.1 and several percent of the operating state. The introduction of these small amounts of air into the generator is no problem. half-open fitting, separate small diameter pipe, etc./. The analysis of the operating conditions convincingly shows that, during decommissioning, a highly calorific carbonizing gas is developed, which is fully reduced by the process according to the invention.

Detailed measurements show that, after being put into a hot reserve by the method of the invention, the gas generator drops within a few minutes in the entire generator and is fully equalized to the manifold pressure, even if the supply air in said small amount is not measurable by a differential pressure. This air has yet another important mission in operation, namely that the oxidizer atmosphere is maintained in the generator all the way up to the vortex zone, and from it to the outlet of the gases into the manifold then a reducing atmosphere. This maintains and maintains the state of operation, enabling immediate commissioning without any danger. A brief steam flushing before the air is triggered then creates a separating neutral zone for added safety.

By the method of the invention, the most difficult part of the emissions generated during the decommissioning of the generators or into the hot reserve and during commissioning without investment costs can be disposed of, saving operating costs by utilizing valuable carbonaceous gas previously discharged into the air. The process according to the invention does not entail any disadvantages of an investment or operating nature, nor an operational danger, but on the contrary it represents an improvement of the environment, fuel economy, increased operational readiness, operability and safety.

Example

The 3 m shaft generator, gasifying brown coal, consumed 215.3 kg of coal in one hour on standstill, and gasification and carbonization products escaping through the cork at 379 m3 / h of combustion heat of 6,700 to 8.400 MJ / m 2 represented a loss of 2.650 GJ / h. By introducing the method of shutting down the generator to the hot reserve according to the invention, the generator was fed under the grate through a pipe φ 40 mm / with the main air valve fully closed (approx. 280 m ^ / h air). This amount was fully sufficient to keep the generator in a warm reserve for the entire duration of the downtime, while the generated generator and carbonization gas was fed to the main gas manifold for consumption. The combustion heat of the gas in the manifold increased by 83.8 to 336 KJ / m 2 and the gas yield increased by 3.5 to 5.2%.

Claims (1)

Subject A method for removing exhalations during shutdown and generators from a hot reserve, characterized in that, during shutdown, the generator remains connected to a continuous flow manifold and is supplied with air in an amount sufficient to maintain the temperature instead of the steam-air mixture. OF THE INVENTION in the generator bed, identical to the original saturation temperature, while commissioning from a hot reserve, the steam-air mixture is fed to the generator after the gas purge after steam purification.