RU2077915C1 - Method of treating a liquid with adsorbent - Google Patents

Abstract

FIELD: adsorption technique. SUBSTANCE: in a method of treating a liquid with adsorbent involving introduction of adsorbent into liquid stream with simultaneous pulsing of adsorbent followed by its removal, adsorbent is used in dry state and pulsing is effected by way of affecting liquid stream with electrohydraulic pulses with disruptive distance 7-9 mm and pulse frequency 10-15 per 1 l of liquid. EFFECT: enhanced efficiency of adsorption. 1 tbl

Description

 The invention relates to methods for performing adsorption separation in liquids on moving layers of adsorbents.

 The prototype of the invention is a method of treating a liquid with an adsorbent comprising introducing an adsorbent into a fluid stream with its simultaneous pulsation and subsequent removal of the adsorbent (Karpacheva S.M. et al. Pulse apparatus in chemical technology, M. Chemistry, pp. 107-108, 1983). Due to the mechanical provision of the pulsation, the latter cannot provide sufficiently energetic adsorption separation.

 The objective of the invention is to increase the specific productivity of the separation process.

The essence of the invention lies in the fact that in a method comprising introducing an adsorbent into a liquid stream with its simultaneous pulsation and subsequent removal of the adsorbent, dry adsorbent is used. In this case, the pulsation is carried out by exposing the fluid flow to electro-hydraulic pulses with a discharge gap of 7 ^° C 9 mm per 10 ^° C of 15 pulses per 1 liter of liquid.

Example 1. Take a normally dry adsorbent, in particular powdered activated carbon brand OU-B GOST 4453-74 with activity on molasses 100% with a pH of aqueous extract of 4 to 6 and with an ash content of 6 wt. Immediately carried out the introduction of the adsorbent in a stream of heated to 60 ^o C liquid, in particular in a standard aqueous solution of molasses with an optical density of 600 units. modeling painted wastewater. At the same time, pulsation of the fluid flow was carried out by exposure to electro-hydraulic pulses with a discharge gap of 7 mm per 10 pulses per 1 liter of fluid. The duration of the flow pulsation stage was 1 5 s. After the pulsation was completed, the liquid was heated to 95 ^° C and the adsorbent was removed from the liquid stream. The results of the complete processing are given in the table.

 Example 2. Complete processing of the liquid is carried out according to example 1, except that the impact on the flow of pulsations was provided by the excitation of electro-hydraulic pulses with a discharge gap of 9 mm in the calculation of 15 pulses per 1 liter of liquid.

 The results of the complete processing are given in the table.

 Example 3. Complete processing of the liquid is carried out according to example 1, except that the impact on the pulsation flow was provided by the excitation of electro-hydraulic pulses with a discharge gap of 8 mm in the calculation of 12 pulses per 1 liter of liquid.

 The results of the complete processing are shown in the table.

 The advantage of the proposed method is the ability to exclude from processing the stage of soaking the adsorbent.

Claims (1)

 A method of treating a liquid with an adsorbent, including introducing an adsorbent into the liquid stream with its simultaneous pulsation and subsequent removal of the adsorbent, characterized in that the injected adsorbent is used dry, and the pulsation is carried out by exposing the liquid stream to electro-hydraulic pulses at a discharge gap of 7 9 mm per 10 15 pulses per 1 liter of fluid.

Images