RU62923U1 - WATER TREATMENT PLANT - Google Patents

Abstract

The invention relates to the field of water purification, and in particular to methods of water treatment using filter modules containing ion-exchange resins for water softening. A water treatment plant is proposed, which includes a preliminary preparation unit that is connected in series with nanofiltration units, a water softening unit, and a pH adjustment unit. The preliminary preparation unit comprises an ultrafiltration unit or a direct-flow coagulation unit with clarification filtering. To solve auxiliary problems, the installation may contain a reverse osmosis unit associated with the preliminary preparation unit and the output of the nanofiltration unit, which allows for processing of the concentrate obtained during cleaning in the nanofiltration unit, as well as an additional nanofiltration unit associated with the water softening unit to optimize the regeneration conditions cation exchange filter

Description

The invention relates to the field of water purification, and in particular to methods of water treatment using filter modules containing ion-exchange resins (IP) for water softening.

Currently, various filtration processes are widely used in water softening technological schemes for consumers' needs in the energy sector, as well as for heating boiler houses, during which the purified water is passed through one or more filter modules containing, in particular, ion-exchange resins (Chemical Reference- energetics / under the editorship of Gurvich SM: 3-vol., M., Energia, 1972, vol. 1, 455 pp .; SNiP. 2.04.02-84. Water supply. External networks and structures // Gosstroy USSR. - Introduction. 01.01.85). The choice of purification method is largely determined by the requirements for the filtrate obtained and the characteristics of the water being treated.

There are known installations for producing water based on its electrochemical treatment (Aut. St. USSR No. 572436, class C 02 F 1/46, 1975; Aut. St. USSR No. 1125206, class C 02 F 3/52, 1983; Aut St. USSR No. 1125000, class B 01 D 19/02, 1982). The installation, as a rule, includes blocks of ultrafiltration, sorption on activated carbon, electrochemical treatment, sludge removal and piping system.

The disadvantage of these installations is the relatively low degree of purification and the short duration of the filter cycle.

Closest to the claimed technical solution is the installation for integrated water treatment (PM RF 0034528, 2003).

Installation includes:

- blocks of preparation and supply of source water,

- pre-treatment unit, consisting of blocks of iron removal, dechlorination and removal of organic impurities and water softening,

- a deep-cleaning unit containing a reverse osmosis unit, a deionization unit, and micro- and ultrafiltration units, as well as a unit for the selection of treated water.

The disadvantage of this installation is the complex technological scheme and cumbersomeness, as well as the need for high energy costs.

The task facing the authors was to create a simpler technological installation.

This problem was solved by creating a water treatment plant based on nanofiltration.

The technical result was obtained due to the inclusion of a complex from a nanofiltration unit, a water softener using Na-cation and a pH correction unit after the preliminary water treatment unit. The specified complex allows for the purification of water, the quality of which is suitable for use by a wide range of consumers.

To solve auxiliary problems, the installation may contain a reverse osmosis unit associated with the preliminary preparation unit and the output of the nanofiltration unit, which allows for processing of the concentrate obtained during cleaning in the nanofiltration unit, as well as an additional nanofiltration unit associated with the water softening unit to optimize the regeneration conditions cation exchange filter.

The preliminary preparation unit (BPP) of water, depending on the task, contains a direct-flow coagulation unit with clarifying filtering (UKF) on a multilayer granular load, or an ultrafiltration unit (UVF).

The general installation diagram is shown in figure 1.

The installation consists of the following main blocks:

1. block of preliminary water treatment (BPP)

2. nanofiltration unit (BNF)

3. reverse osmosis unit (BOO)

4. softening unit (BOOM)

5. nanofiltration unit (BNF)

6. pH adjustment unit (BKR)

Installation works as follows. Source water is supplied to BPP 1, where in the case of direct-flow coagulation with clarification filtering, suspended particles, most of the colloids (SDI <5) and a significant proportion of organic matter (50-70%) are removed from the source water; and in the case of the use of UV - purification from colloids (SDI <2) and microbiological contaminants (Log 3-4) is performed.

After UF, the filtrate is fed to nanofiltration unit 2, where, at a small working pressure (up to 6 atm), color, other organic components remaining in the treated water after the pre-treatment stage, as well as 40-90% of polyvalent ions present in the dissolved water in the initial state are removed .

After the BNF 2 block, the liquid is divided into two flows: permeate and concentrate.

The concentrate enters the reverse osmosis unit 3, where it is subjected to deep desalination: from treated water under a pressure of up to 30 atm. 97-99% of dissolved salts are removed.

After BOO 3, the permeate stream is mixed with the permeate obtained in BNF 2 and fed for further processing, and the concentrate stream is returned to the BPP 1 for loosening the load of clarification filters or flushing with reverse current ultrafiltration membranes.

Depending on the value of the residual hardness and the carbonate index, the mixture of permeates after BNF 2 and BOO 3 can be directed either

directly to the pH 6 adjustment block, or first to the softening block using Na-cationization, and then to BKR 6.

In BUM 4 Na-cation provides softening of water by ion exchange. In this case, periodically there is a need for regeneration of the ion exchange resin with a solution of sodium chloride. After regeneration, the spent solution of sodium chloride is fed to the nanofiltration unit 5, where the bulk of hardness salts (from 70% to 95%) are removed and dumped into it, after which the regeneration solution can be reused for regeneration of the ion exchange resin in BOOM 4 under the condition additives of a small amount of fresh table salt.

The adjustment of the pH value of softened water is carried out in BKR 6, after which the softened water is sent to consumers (for example, in a heating system or in boilers).

Industrial applicability is illustrated by the following example.

Example. River water with a flow rate of 60 m ³ / h enters the ultrafiltration unit. The obtained filtrate in an amount of 60 m ³ / h is fed to the BNF 2 unit. After BNF 2, a concentrate is formed in an amount of 12 m ³ / h and permeate with a flow rate of 48 m ³ / h. As a result of treating the concentrate with BOO 3, the concentrate in an amount of 3 m ³ / h is sent to the backwash with UV membranes and subsequently discharged into the sewer, and the permeate with a flow rate of 9 m ³ / h is mixed with permeate after BNF 2. The resulting mixture with a flow rate of 57 m ³ / h is supplied to BOOM 4. The water consumption for the regeneration of cation exchange resin in the Na-form is less than 1%, therefore, the installation provides the supply of softened water to BKR 6 for pH adjustment and then to the consumer in the amount of 56.43 m ³ / h (or at the level of 94% of the original).

Regenerative effluents with BUM 4 in the amount of 0.57 m ³ / h are treated at BNF 6, as a result of which 0.4 m ³ / h of the regeneration solution is returned for reuse, and 0.17 m ³ / h is discharged into the sewer.

Claims (5)

1. Installation for water treatment, which includes a preliminary preparation unit and further water purification units, characterized in that the preliminary preparation unit is connected in series with nanofiltration units, a water softening unit and a pH adjustment unit. 2. Installation according to claim 1, characterized in that the preliminary preparation unit comprises an ultrafiltration unit. 3. Installation according to claim 1, characterized in that the preliminary preparation unit comprises a direct-flow coagulation unit with clarifying filtering. 4. Installation according to claim 1, characterized in that it further comprises a reverse osmosis unit associated with the preliminary preparation unit and the output of the nanofiltration unit. 5. Installation according to claim 1, characterized in that it further comprises a nanofiltration unit associated with a water softener.