SU939031A1 - Adsorbent for cleaning water from organic substances - Google Patents

Description

The invention relates to physical chemistry, more specifically to sorption, and can be used to protect the environment from organic pollutants at local or biological wastewater treatment plants of petrochemical synthesis plants for the absorption of discharged water. . It is known to use activated carbons as a sorption material for purifying water from organic impurities l. It should be noted that active carbons, possessing universal sorption properties, are expensive and of low stability, especially in aggressive media. The purpose of the invention is to obtain an adsorbent in its properties close to active carbons, chemically durable and cheaper. The goal is achieved by using the well-known wine production waste - grape seed, as a starting material for obtaining still absorbent. These bones, in contrast to the above coal, already have a very specific form and therefore are not subject to special labor-intensive crushing and separation of the fraction during subsequent activation. In addition, this natural form is not only not disturbed during the activation process, but, on the contrary, is preserved and gives special strength to the coals obtained on the basis of these stones. As shown by experiments, active carbons obtained from grape seeds approach their sorption properties to microporous carbons of the first structural type 2, the adsorption of which can be interpreted from the point of view of the theory of volume filling. Based on the theory of volume filling of micropores, the equation of the adsorption isotherm from aqueous solutions by microporous active carbons of the first structural type Wu „o OLO JJg is obtained. p (gg Sfi-l - 2.303 where G is the equilibrium adsorption at temperature T and the equilibrium concentration Cp; V is a powerful volume of adsorbate; C is the concentration of an equilibrium saturated solution; V is the specific volume of the adsorption space; K is a constant characterizing this system -adsorbate (characteristic curve constant). If the experimental adsorption isotherms obey equation (1), then in coordinates 1; unitGy, (it should be a straight line with a tangent inclination angle of tgdb 2.303 KR T 9 im 2.303-where B - Structural and energy stanta, character this carbon; p is the affinity coefficient, representing the value of the relative differential molar work of adsorption. Figure 1 shows the experimental adsorption isotherms of sulfonic acid (1.1) dodecylbeneol (2.2), phenol (3.3), respectively, on the proposed sorbent in comparison with active carbon of the BAU brand; fig, 2 - the same, linearized in logarithmic coordinates. These isotherms made it possible to establish: the limiting volume of the adsorption space (Wp 0.2-0.3), the volume of micropores (, 2-0 , 25), structural energy constants (V.), is e sootvetstvukntsee adsorption maximum limit, for example, for sulfonol, equilibrium 5060 mg / l and confirm the similarity of the sorption properties of the resultant adsorbent with activated charcoal. Along with the sorption properties that approximate samples of sorbents obtained from Kboi seed grapes to known active carbons, the Sorbent filter also offers its primary differences: first, it has high mechanical strength, which allows it to be repeatedly used after regeneration in agricultural environments; secondly, in the process of preparation of the sorbent does not disappear. the need for special crushing, as the basis of the very form of braid dots, created by nature; Thirdly, this sorbent is much cheaper, since it is obtained from a material that is a large tonnage waste of winemaking production, utilization of which in order to obtain the desired sorption material can be an important task, which is of great national importance, as a point of view of using waste from the point of view of environmental protection. It should also be noted that in the technology of wine preparation, the grape seeds during fermentation process are well separated from the masses and settle down to form Bottom sediments, which are easily separated from the liquid part. The ability of the bones to quickly separate during fermentation, as well as the simple process of their removal, open up great possibilities for realizing the technology of preparing the sorbent and making it cheaper in general, Example 1, The natural grape seeds dried under natural conditions are treated with an 8-10% solution of sulfuric acid for 6-7 hours, separated from acid, dried at room temperature. The dried stones are then poured into a steel tube (120x х 20) mm in size, having two nozzles: one for inlet, the other for discharging compressed air. The tube is placed in the case of the SUOL-0.15 1/12 MP furnace TU 7895-68. The temperature is maintained at 230-250 ° C with the appropriate voltage on the lator. At this temperature, in a stream of compressed air (Vei-80-100 ml / min) the pits are burned for 30–35 min. Example 2. Samples of the obtained sorbent sample are placed in flasks with ground stoppers, sewn up with a certain volume of phenol solutions of dodecylbenzene and sulfonol and shaken on a joke machine (130 vibrations / min) for the time required for the establishment of the adsorption equilibrium in the system. Equilibrium adsorption is calculated using the formula g- (Co-Cf) Y P 100 m where C and Cp are, respectively, the resultant and equilibrium concentration of sorbate in solution, mg / l; m is the sorbent sample, g; V is the volume of the studied solution, ml. . Determination of sorbate in solution in the case of phenol and dodecylbenzene is carried out by chromatographic method, in the case of sulfonol by spectrophotometric method, Example 3, the regeneration of the spent sorbent is carried out at 400-450 ° C in the same furnace as in Example D at the point of water vapor, 30-40 min. The table shows the dynamic characteristics of the regenerated proposed sorbent in comparison with coal BAU. As can be seen from the tabular data, all the parameters of the regenerated sorbent, obtained on the basis of grape seeds, approximate to the corresponding data of coal sorbents.

Dynamic characteristic of regenerated sorbent on the basis of grape seeds in comparison with BAU grade coal

Claims (2)

Invention Formula The use of grape seed as a starting material for obtaining a granular adsorbent for water purification from organic matter. Sources of information taken into account in the examination 1. Deep cleaning and reuse of wastewater. Overview. M., Gosstroyizdat USSR, 1974. 2. Standard A.M. et al. On the applicability of the theory of volume filling of micropores to the description of adsorption from aqueous solutions on active carbons, Journal of Applied Chemistry, 1975,  48, 1, p. 186-191 (prototype).