SU587961A1 - Adsorbent regeneration method - Google Patents

Description

one

This invention relates to an adsorption techie, in particular, to the regeneration of adsorbents saturated with combustible substances.

Various methods of regenerating adsorbents are known, for example, including blowing through a layer of an adsorbent of water vapor, organic solvent vapors, inert or other gases, preheated or using external heating of desorber 1.

However, BiCe the above methods, as a rule, require a significant amount of heat.

Most closely related to the inventive invention and its technical essence, the achieved result is a method of regenerating adsorbents, combustible substances, including blowing through a layer of adsorbent a mixture of gaseous nonproducts of combustion, water vapor and oxygen containing 15% 20% steam and 5% oxygen, whereby the temperature of the adsorbent is maintained through the combustion of the desorbed substances and the recycling of a part of the combustion products, i.e. the calorific value of the desorbed substances is used, which reduces the the energy costs of the process 2.

However, in a known way there are

thermal costs of heating the desorbing components that are not involved in the combustion process before the combustion tem- perature, and the heat exchange from the gaseous medium to the adsorbent has conversion, which results in a relatively low desorption rate and a non-ecomomicity of the process.

In order to nitrify and increase the process of regeneration of adsorbents from combustible substances, air is used as an oxidizing gas, and desorbed combustible substances are supplied in a stream of air to flameless.

The technology of the method is as follows. Saturated with combustible substances adsorbents are placed in a desorber, heated outside by gas radiation burners. Through the stripper, air is blown at a rate sufficient to effectively desorb and dilute the stripped substances so that their concentration in the effluent stream is no less than two times lower than the lower limit of explosion capacity. The outgoing gas from the stripper is shifted with gaseous fuel and radpation: puffy burners are fed to food.

Example. AR-3 activated carbon, saturated with kerosene vapor, is loaded into desorber, heated by gas, radiation burner MI GIIV-1. Through a layer of coal, whose temperature is maintained at 160 ° C, air is blown through. The maximum concentration of desorbate in the exhaust gas (48 g / m) is reached 15 minutes after the start of the process, and after 75 minutes the regeneration process ends (IB of exhaust air found only traces of kerosene lars). The waste gas is mixed with natural gas and added to the burner. The consumption of gas fuel for regeneration is 2 liters / 1 min.

Compared with the known method of adsorbent regeneration using the calorific value of absorbed combustible substances, the proposed method allows halving the regeneration time and 1.6 times reducing the consumption of gaseous fuel.

Claims (2)

1. Romanov P. G., Lepilin V. N. Continuous adsorption of gases and vapors. L., 1968, with. : 80-83. 2. US patent number 2390708, cl. 252-418, 11.:12.45.