RU2089603C1 - Detergent mc-11 for membrane devices - Google Patents

Abstract

FIELD: washing of membrane devices. SUBSTANCE: detergent comprises, %: disodium salt of ethylene diamine tetracetic acid (EDTA), 8-35; polyethylene glycol ether of primary fatty alcohols of C 10 C 18 fraction 1-6; sodium tripolyphosphate, 10-40; sodium hydroxide, the balance. EFFECT: improved quality of desired product. 2 tbl

Description

 The invention relates to means for cleaning membrane equipment, in particular ultrafiltration equipment operating on dairy raw materials.

 Known detergent for membrane installations containing a complexing agent and polyethylene glycol ether of synthetic primary fatty alcohols of the C 10 C 18 fraction. (1) Either sodium tripolyphosphate or the sodium salt of ethylenediaminetetraacetic acid is used as a complexing agent. In addition, the product contains sodium carbonate.

 The use of this tool for washing membrane equipment that runs on dairy raw materials will not allow you to effectively clean protein contaminants from the surface of ultrafiltration membranes. Moreover, the sodium carbonate contained in the known detergent forms insoluble calcium carbonate, which clogs the pores of the membrane, with calcium present in the milk, which is also a big disadvantage.

 The aim of the invention is to increase the washing ability of the product.

 To achieve this goal, a detergent for membrane installations containing a complexing agent and polyethylene glycol ether of synthetic primary fatty alcohols of fraction C 10 C 18 contains sodium tripolyphosphate and disodium salt of ethylenediaminetetraacetic acid as a complexing agent and additionally contains sodium hydroxide in the following ratio of components in wt.

ethylenediaminetetraacetic acid disodium salt 8 35
sodium tripolyphosphate 10 40
polyethylene glycol ether of synthetic primary fatty alcohols fraction C 10 C 18 1 6
sodium hydroxide up to 100.

 The detergent is a white powder, which can be obtained in an industrial environment using standard equipment.

 The proposed detergent is used in the form of a 0.5 to 2 aqueous solution to restore the performance of ultrafiltration units equipped with synthetic ultrafiltration membranes. Since the membrane is the most vulnerable place in the installation, special requirements are placed on the detergent, which consists in the fact that it must not only effectively clean the surface of the membrane and the pores present in the body of the membrane, but also should not have a harmful effect on the membrane material and introduce additional contaminants that can reduce the performance of the membranes and, therefore, the installation as a whole.

The effectiveness of the proposed and well-known detergent is evaluated by the ability to restore the membrane permeability to water after washing under the same conditions of pollution from the membrane surface using an appropriate detergent. The evaluation technique is as follows. Various liquids are successively passed through a laboratory setup containing three cells connected in series with ultrafiltration membranes placed in them, and, taking the filtrate passing through the membranes, the change in their permeability over time is evaluated. First, distilled water is passed to assess the permeability of pure membranes, then the membranes are artificially contaminated with a model fluid, which is a 6% solution of dry protein concentrate obtained from raw whey. At the same time, a precipitate layer is formed on the surface of the membrane, consisting of whey proteins, which are retained by the membrane. After that, the stage of washing the membrane with the appropriate detergent at a temperature of 60 ^o C for a predetermined time (15 minutes). Then at the final stage after rinsing the unit, distilled water is again passed in order to evaluate the effectiveness of washing the membranes. Fresh membranes are used for each subsequent experiment.

The effectiveness of the detergent is assessed using the coefficient K _eff , which is the ratio of the permeability of membrane impurities to the permeability of a fresh membrane in water: the higher the K _eff value, the more effective the washing.

 Example: A 1% solution of the proposed detergent (MS-11), containing in wt. sodium hydroxide 45.5, trilon B 21.5, syntanol ALM-10-3, sodium tripolyphosphate 30.

To assess the effectiveness of the composition was determined by the initial permeability Q _beg. water of ultrafiltration membranes, which amounted to 120, 125, 127 l / m ² hour for identical membrane samples in three different cells, respectively.

After membrane contamination and washing according to the method described above, the membrane permeability to distilled water was up to 115, 119, 117 l / m ^2, respectively. The average permeability is Q _beg. 124 l / m ² hour and Q _con. 117 l / m ² hours. Thus, the efficiency coefficient K _eff Q _con. / Q _beg. 0.94.

 The formulations of the described funds are presented in table. one.

The values of the efficiency coefficient of the described detergent with a different ratio of components and different concentrations of solutions are given in table. 2. In the table. 2 also shows the values of K _eff for a known detergent at various concentrations of solutions.

 Tested 0.5-2% aqueous solutions of the proposed detergent. All of them have a higher regenerative ability compared to the known detergent.

Claims (1)

A detergent for membrane installations containing a complexing agent and polyethylene glycol ether of synthetic primary fatty alcohols of the C _{1 0} C _{1 8} fraction, characterized in that it contains sodium tripolyphosphate and disodium salt of ethylenediaminetetraacetic acid and additionally it contains sodium hydroxide in the following ratio of components, wt. Ethylenediaminetetraacetic acid disodium salt 8 35
Sodium tripolyphosphate 10 40
Polyethylene glycol ether of synthetic primary fatty alcohols fraction C _{1 0} C _{1 8} 1 6
Sodium hydroxide up to 100,

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