NL1036852C2 - DEVICE FOR TREATING WATER AND / OR WASTE WATER. - Google Patents

Description

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Device for treating water and / or waste water.

The invention relates to a combination of cleaning processes through which the cleaning of water and / or waste water comes about. It concerns the combination Settling and / or Flotation and Electrochemical treatment and Ultra membrane filtration of specifically the Silicon carbide material. The invention water and / or waste water treatment makes it possible to increase the efficiency of treatment and to reduce the investment costs and operating costs for water treatment. The three different components are brought together in independently operating treatment / purification (= further referred to as installation) or are part of a treatment installation with more different technologies. The three different components are connected by liquid flow pipes. Depending on the operation, some of these pipes are used as liquid return pipes, whereby the liquid flows back to a previously used process part. The three treatments; electrochemical treatment, settling / flotation and membrane filtration are connected by pipework called circulation circuit. Between the three treatments, electrochemical treatment, settling / flooding and membrane filtration, stock of buffer tanks can be included each time.

The invention is directed to the treatment / purification of liquid. The liquid to be treated can be: Groundwater, surface water, waste water, waste water and concentrated aqueous streams or a combination of these. Concentrated aqueous streams such as waters with dry matter contents up to 10 g / l. (further referred to as water)

The invention comprises the combination (treatment system) of - Electrochemical treatment of the water to be treated and - The separation of the substances originally present in the water or caused by the electrochemical treatment. The separation takes place in a settling device or Dissolved Air flotation device. And, the final separation of contaminants takes place in an Ultrafiltration membrane filtration device. The ultrafiltration takes place in membranes produced from the silicon carbide material.

35 The treatment system can be part of a more extensive water treatment.

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If possible, the invention will be expanded with Nanomembrane filtration or Reverse Osmosis, Biofilters and / or Active Carbon filters or disinfection apparatus.

The electrochemical treatment is based on invention 10 15 867.

Consisting of:

The reactor is used and controlled by direct dosing with or without reversible poles (Reverse Poling). The electrode is a flat or non-flat plate and / or of a water-permeable type. The electrode material is an alloy containing more than 90% iron. It is possible that a combination of electrode materials is used. In these cases the combination contains the 90% iron-containing alloy and aluminum. The positioning of the electrode with respect to the flow direction of the liquid flow is either perpendicular to the flow direction or in the same direction as the flow direction. The electrode plates can be placed separately in an electrode holder or can be placed as a package in a facility.

The packages with provision can then be placed in the rectangular compartment designed for the use according to invention 10 or an existing liquid-carrying pipe can be accommodated.

By an existing line is meant a liquid-carrying line to an existing purification component, which is not optimally geared to the placement of the electrodes. This makes it necessary to adapt the electrode holders to the existing situation.

The oxidation can be enhanced by dosing Hydrogen peroxide in the circulation circuit under the influence of the electrochemical process.

Other components belonging to the electrochemical treatment according to invention 10 15 867.

The flotable and / or settling contaminants are separated in a Dissolved Air Flotation installation or a settling system irrespective of the shape of the settling system (rectangular or circular formation). By separating the solid matter is brought into the device and kept at a desired optimum concentration.

The membrane filtration has as filter medium membranes of a water-permeable material with a certain pore size. The pores 3

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size can be adjusted depending on the application. The pore size can be set at from 0.04 to 0.1 microns. The membrane material is a Silicon Carbide composition (SIC content> 99%).

5 The membrane filtration consisting of water-permeable membranes. The membranes may or may not be provided with an enclosing housing.

The circulation tank, whether or not 1 or more circulation pumps, the membrane filter, and / or the pump impeller tank and the settling or flotation system and the drainage line belong to the circulation circuit of membrane filtration. In this membrane filtration circuit it is possible to incorporate the electrochemical treatment invention 10 15 867.

The membrane filtration required pre-pressure for a pressure potential over the membrane originates from a static pressure height in the preceding (circulation) tank, or pre-pressure generated by pumps.

A liquid flow flows through the membranes for the purpose of partially removing the filtered substances. These liquids and substances are collected in a joint drain drain pipe which subsequently flows into a pump stock tank. The liquid collected there is pumped back into the (circulation) tank, or into the settling or flotation system.

The shortage of water is added in the circulation pipe or at another point in the circulation circuit of the membrane filtration installation or the installation.

The solid substance in circulation is supplied with extra oxygen at one or more locations in the circulation conduit, which, depending on the amount required, comes from an oxygen source. This addition takes place with the aid of a device or by making use of an outflow construction in which oxygen is absorbed in the water or waste water. In addition to oxygen input, trace elements 30 for biology and / or trace elements for crystallization processes are also added. With this method of treatment, Calcium crystallization is provided in the membrane filtration installation itself. The same applies to Nitrate removal.

The membrane filtration installation is provided with 1 or more pump phases in the circulation pipe to provide sufficient pressure difference in the circulation circuit. The circulation line of the membrane filtration is specifically used as a reactor with a minimum volume content. Due to the properties of silicon carbide membrane material and the electrochemical pre-treatment, the flux of the membrane is not affected and even increased. There is no question of fouling. If sufficient static pressure height is present, these pumping phase (s) will be omitted.

The filtered liquid is discharged into the filtrate line.

The removal of the solid and contamination that occurs on the membrane filtration surface is removed by reversing the flow direction in the membrane. A consequence of reversing the pressure potential in the filtrate line.

Periodically it is desirable to clean one or more membranes at the same time, without or with chemicals in a pH range of 0-13 whether or not at elevated temperature 15-100 degrees Celsius. The combination of the use of Electrochemical treatment with the Silicon membrane filtration makes it possible that these membranes do not have to be cleaned periodically and the capacity is increased by a factor of 5. The non-cleaning of membranes, while maintaining the flux is achieved by the dosed addition of the electrochemical treatment. Every fouling is prevented on the Silicon carbide membrane.

The control of the electrical energy input in the electrochemical treatment takes place on the basis of currently measured process conditions in the liquid treated with electrical energy at that time.

By process conditions is meant current capacity, pH, and / or zeta potential measurement, or resistance measurement and / or energy measurements.

The control is connected directly from the PC / PLC or PLC to the electrical / electronic measuring & control cabinet and can be controlled and controlled remotely if possible.

30 35 1036852

Claims (10)

1. Device for treating water or waste water, according to a combination of techniques, wherein the treatment is effected by separating separable solids in Ultramembrane filtration device with membrane material Silicon carbide. The solids partly formed as a result of, among other things, electrochemical treatment. The substances prevent contamination of the membrane surface. 2. The installation is characterized in a random order of; the separation of substances by flotation or settling and electrochemical treatment and UF-membrane filtration with membrane material Silicon carbide. 3. The installation is characterized by the circulation of maximally oxidized solids (residual oxygen 3 mg / l) with the addition of chemicals if necessary. These chemicals as reaction accelerator (s) are put into circulation through the membrane filtration which acts as a reactor. 4. The installation is characterized by the addition of chemicals to strengthen the formation of solids and / or the disinfecting capacity of the liquid to be treated. During the filtration and PLC-controlled dosing of chemicals, softening, demanganing and denitrification take place in addition to the removal of organic substances. 5. The installation is characterized by adjustable solids contents in circulation from 0 to 100 gr / l 100% dry matter without clogging and contamination of the silicon carbide membrane material. 6. The membrane installation is characterized by circulation speeds of 25 2-3 m / s, in the membrane filtration section at differential pressures, Transmembrane pressures, from 0.1 to a maximum of 4 Bar operating pressure and flux (capacities) of 800 ltr / m2 / h per Bar. 7. The installation is characterized by the possibility of cleaning the membranes with water, steam or other chemicals. 8. The installation is characterized by the modular structure per component of the total of three different components (the separation of substances through flotation or settling followed by electrochemical treatment and membrane filtration) into 1 entire installation. 11. The installation is characterized by the metered use of electrical energy in the electrochemical treatment, whether or not based on directly measured process parameters in the electrochemical reactor and Ultra membrane filtration installation, (parameters such as capacity, pH, faraday / ltr, rH, oxygen, Amps and volts) 1036852 12. The installation is characterized as durable because there is no fouling on the membrane material, the membrane material does not show aging and does not have to be replaced. All other membrane materials age. 5 10 15 20 25 30 35 1036852