KR200373511Y1 - Apparatus making fresh water from sea water using reverse osmosis - Google Patents

Abstract

The present invention relates to a reverse osmosis seawater desalination apparatus, and a high pressure pump (10) for supplying a high pressure that can pass through the reverse osmosis membrane membrane to the pretreated seawater; An inverter (60) for controlling the rotational speed of the high pressure pump (10); A flow sensor 40 for detecting a flow rate of fresh water passing through the reverse osmosis membrane membrane 30; A feedback controller 50 for controlling the frequency of the inverter 60 in accordance with the flow rate input from the flow sensor 40, comprising a, the rotational speed of the high-pressure pump 10 in accordance with the flow rate of fresh water produced As a technical point that the desalination of the constant flow rate is controlled automatically, the control of the seawater introduced into the reverse osmosis membrane membrane can be efficiently controlled and adjusted so that the desalination of the constant flow rate can be automatically performed, and the desalination of the constant flow rate is achieved. Accordingly, the present invention relates to a reverse osmosis seawater desalination apparatus that can reduce unnecessary energy consumption.

Description

Reverse osmosis seawater desalination system {APPARATUS MAKING FRESH WATER FROM SEA WATER USING REVERSE OSMOSIS}

The present invention relates to a reverse osmosis seawater desalination apparatus, and more specifically, a high-pressure pump for supplying a high pressure to the reverse osmosis membrane membrane to control and adjust the rotational speed according to the flow rate of fresh water produced through the reverse osmosis membrane membrane to desalination of a constant flow rate It is made automatically, and relates to a reverse osmosis seawater desalination apparatus that can reduce the seawater pressure energy to the reverse osmosis membrane by using an energy recovery turbine driven by the high pressure concentrated seawater discharged to the outside of the reverse osmosis membrane membrane.

In general, in order to obtain fresh water from seawater, dissolved or suspended components in seawater should be removed to meet the standard of water and drinking water.For seawater desalination, reverse osmosis and electrodialysis using special membranes, and desalination by changing seawater to steam Evaporation method, refrigeration method, solar heat utilization method. However, evaporation and reverse osmosis are mainly used for seawater desalination, and reverse osmosis and electrodialysis are mainly used for desalination.

The seawater desalination plant by the reverse osmosis membrane method filters out the ionic substance dissolved in the seawater by a semi-permeable membrane (membrane) through which pure water is almost eliminated. In order to separate ionic substances and pure water from seawater, a high pressure of more than osmotic pressure is required. The pressure is called reverse osmosis. In case of seawater desalination, a high pressure of 42 ~ 70bar is required.

As a prior art using such a reverse osmosis membrane technique will be briefly described for the water treatment method using the membrane separation device of Patent Registration No. 402556 shown in FIG.

The prior art undergoes a calibration process for pressure, ph, flow rate, and temperature in order to make raw water suitable for filtration in a membrane separation device. Particularly, in temperature, the temperature of water is lower in winter, so that the water is filtered relatively. Since the efficiency is lowered, the temperature of the water is kept constant using a heat exchanger, and then the membrane separation apparatus 5 is passed.

The conventional technology uses a heat exchanger with a large amount of heat and power to maintain a constant temperature of the water, so that the energy consumption is large when continuously applied, and the device itself is used even if solar energy, geothermal heat, waste heat steam, etc. are used in consideration of energy consumption. There was a problem that the number of.

The present invention for achieving the above object is to provide a reverse osmosis seawater desalination apparatus capable of automatically controlling and adjusting the flow rate of the seawater introduced into the reverse osmosis membrane membrane to automatically desalination of a constant flow rate.

1-a water treatment process diagram according to the prior art.

Figure 2 is a block diagram showing an embodiment of a reverse osmosis seawater desalination apparatus according to the present invention.

<Description of Major Symbols Used in Drawings>

1: seawater high pressure line 2: freshwater production line

3: brine water discharge line 10: high pressure pump

20: energy recovery turbine 30: membrane

40: flow sensor 50: feedback controller

The present invention for achieving the object as described above, the high-pressure pump 10 for supplying a high pressure that can pass through the reverse osmosis membrane membrane to the pre-treated seawater; An inverter (60) for controlling the rotational speed of the high pressure pump (10); A flow sensor 40 for detecting a flow rate of fresh water passing through the reverse osmosis membrane membrane 30; A feedback controller 50 for controlling the frequency of the inverter 60 in accordance with the flow rate input from the flow sensor 40, comprising a, the rotational speed of the high-pressure pump 10 in accordance with the flow rate of fresh water produced It is a technical point that desalination of a constant flow rate is automatically performed by being controlled.

Here, the seawater high pressure line (1) between the high pressure pump 10 and the reverse osmosis membrane membrane 30, the turbine is rotated by the high pressure of the concentrated solution discharged from the reverse osmosis membrane membrane in a high pressure state It is preferably configured to include; energy recovery turbine 20 for repressurizing the seawater on the seawater high pressure line (1).

Therefore, there is an advantage that the desalination of a constant flow rate can be automatically performed by efficiently controlling and adjusting the flow rate of the seawater introduced into the reverse osmosis membrane membrane.

In addition, there is another advantage that by desalination of a certain flow rate, unnecessary energy consumption can be reduced and seawater pressurized energy to the reverse osmosis membrane can be efficiently reduced.

The present invention having the configuration as described above will be described in detail with reference to the following drawings. Figure 2 is a block diagram showing an embodiment of the reverse osmosis seawater desalination apparatus according to the present invention.

The reverse osmosis seawater desalination apparatus according to the present invention includes a high pressure pump 10, an inverter 60, a flow sensor 40, a feedback controller 50 as main components, and is produced through the reverse osmosis membrane membrane 30. By detecting the flow rate of fresh water by the flow sensor 40, by adjusting the inverter 60 for controlling the rotational speed of the high-pressure pump 10 by the feedback controller 50 connected to the flow sensor 40 Ensure a certain amount of desalination.

The high pressure pump 10 is a component that provides a high pressure capable of permeating the reverse osmosis membrane membrane 30 to the pretreated sea water, and the reverse osmosis membrane membrane 30 has a low water temperature, so that the osmotic pressure is increased, so that fresh water productivity is lowered. Accordingly, in order to produce a constant flow of fresh water, the pressure of the high pressure pump 10 should be lowered in the summer providing a high temperature environment, and the pressure of the high pressure pump 10 should be set relatively high in the winter providing a low temperature environment.

Conventionally, the design pressure of the high pressure pump 10 is designed and manufactured on the basis of the seawater temperature in winter in order to maintain the production quantity more than a certain amount regardless of the season, but in summer, the pressure of the high pressure pump 10 is higher than necessary and unnecessary. Energy consumption has occurred.

In the present invention, in order to reduce the unreasonable energy consumption due to the change of the temperature environment, the inverter 60 is used to control the motor rotation speed of the high pressure pump 10, and when the inverter 60 is used, the high pressure pump 10 In the initial driving of the motor), the rotational speed can be increased slowly and linearly, and the initial starting load generated by driving the motor to the maximum rotation speed at the initial operation of the general high pressure pump can be reduced up to 1/6. The change in startup is also gradually flexible to prevent excessive operation of the equipment, and easy to operate and adjust to change the flow rate and pressure.

The flow sensor 40 is installed on the fresh water production line 2 through which the fresh water passing through the reverse osmosis membrane membrane 30 is discharged, and detects the production flow rate of fresh water, and the feedback controller 50 has the flow sensor. A component that automatically controls the frequency of the inverter 60 in accordance with the flow rate input from the 40, proportional_integral control or proportional compared to the set production of fresh water according to the signal detected by the flow sensor 40 _ Differential _ Integrate feedback control so that fresh water production is automatically controlled.

The present invention by applying the feedback controller 50 that can continuously measure the production flow rate of fresh water with the flow sensor 40 and control the frequency of the inverter 60, the high pressure according to the flow rate of fresh water produced The rotational speed of the pump 10 is automatically controlled to enable the production of a constant fresh water flow rate without a separate operation of the driver.

In general, when the seawater is desalted by applying the high pressure to the reverse osmosis membrane membrane 30 at high pressure, the whole seawater is not desalted, but passes through the osmosis membrane and is produced at low pressure through the freshwater production line 2 without passing through the reverse osmosis membrane. It is divided into brine water (concentrated water) discharged to outside through brine water discharge line under high pressure.

The present invention is to recover the pressure energy of the brine water discarded in a high pressure state as shown in Figure 2 to apply the energy recovery turbine 20 to increase the efficiency of the energy of the overall fresh water system, the energy recovery turbine ( 20) is installed on the seawater high pressure line (1) between the high pressure pump 10 and the reverse osmosis membrane membrane (30) inside by the moving pressure of the brine water discharged from the reverse osmosis membrane membrane in a high pressure state The turbine is rotated and primarily pressurized by the high pressure pump 10 to repressurize the seawater being moved to the reverse osmosis membrane membrane 30.

The reverse osmosis seawater desalination apparatus according to the present invention can efficiently control and adjust the flow rate of the seawater introduced into the reverse osmosis membrane membrane 30 so that desalination of a constant flow rate can be made automatically, and the output of fresh water is kept constant so that unnecessary power is maintained. It provides a structure to prevent consumption, to effectively reduce the seawater pressurized energy to the reverse osmosis membrane membrane, and to comprehensively accommodate the environment or conditions in which the desalination apparatus is installed.

The present invention for achieving the object as described above, there is an effect that the desalination of a constant flow rate can be made automatically by efficiently controlling and adjusting the flow rate of the seawater introduced into the reverse osmosis membrane membrane.

In addition, there is another effect that by desalination of a certain flow rate, unnecessary energy consumption can be reduced, and seawater pressurized energy to the reverse osmosis membrane can be efficiently reduced.

Claims (2)

A high pressure pump 10 for supplying a high pressure capable of permeating the reverse osmosis membrane membrane 30 to the pretreated seawater; An inverter (60) for controlling the rotational speed of the high pressure pump (10); A flow sensor 40 for detecting a flow rate of fresh water passing through the reverse osmosis membrane membrane 30; A feedback controller 50 for controlling the frequency of the inverter 60 in accordance with the flow rate input from the flow sensor 40, comprising a, the rotational speed of the high-pressure pump 10 in accordance with the flow rate of fresh water produced Reverse osmosis seawater desalination device characterized in that the desalination of a constant flow rate is automatically made. The seawater high pressure line (1) between the high pressure pump (10) and the reverse osmosis membrane membrane (30), The energy recovery turbine 20 is rotated by the moving pressure of the concentrated seawater discharged from the reverse osmosis membrane membrane 30 in a high pressure state to repressurize the seawater on the seawater high pressure line (1); Reverse osmosis seawater desalination device characterized in that.