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JP5050996B2 - Reverse osmosis membrane device - Google Patents
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JP5050996B2 - Reverse osmosis membrane device - Google Patents

Reverse osmosis membrane device Download PDF

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JP5050996B2
JP5050996B2 JP2008131064A JP2008131064A JP5050996B2 JP 5050996 B2 JP5050996 B2 JP 5050996B2 JP 2008131064 A JP2008131064 A JP 2008131064A JP 2008131064 A JP2008131064 A JP 2008131064A JP 5050996 B2 JP5050996 B2 JP 5050996B2
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敦行 真鍋
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Miura Co Ltd
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Description

本発明は、逆浸透膜装置に関し、特に、処理する原水の情報に基づいて透過水の一部を原水側にリターンさせることにより安定した透過水水質を得る逆浸透膜装置に関する。   The present invention relates to a reverse osmosis membrane device, and more particularly to a reverse osmosis membrane device that obtains a stable permeated water quality by returning a part of permeated water to the raw water side based on information on the raw water to be treated.

逆浸透膜装置は、溶媒は通すが溶質は透過させないという逆浸透膜の性質を利用して、被処理水の浸透圧より高い圧力をかけて、溶媒としての水だけを選択的に透過採取する装置である。この逆浸透膜を利用した造水装置において、透過水水質(製造水水質)を連続的に検知し、この水質が所定値になるように、逆浸透膜に供給される原水(被処理水)を透過水により希釈するようにしたものが知られている(例えば、特許文献1参照)。   The reverse osmosis membrane device selectively permeates and collects only water as a solvent by applying a pressure higher than the osmotic pressure of the water to be treated, utilizing the property of the reverse osmosis membrane that allows the solvent to pass but does not allow the solute to permeate. Device. In the fresh water generator using this reverse osmosis membrane, the permeated water quality (manufactured water quality) is continuously detected, and the raw water (treated water) supplied to the reverse osmosis membrane so that this water quality becomes a predetermined value. Is known that is diluted with permeated water (see, for example, Patent Document 1).

特開昭63−197596号公報JP-A 63-197596

逆浸透膜により製造される透過水の水質は、逆浸透膜自体の性能による影響ばかりでなく、原水の水質にも大きく影響されるので、希釈すべき割合も原水の状態により異なってくる。したがって、特許文献1のように、透過水水質を連続的に検知し、この水質に基づいて原水を透過水により希釈するのみでは、原水の情報が取り入れられていないため、希釈水量も正確には決められず、所定の透過水水質を安定して得ることが困難であるという問題があった。   The quality of the permeated water produced by the reverse osmosis membrane is greatly influenced not only by the performance of the reverse osmosis membrane itself, but also by the quality of the raw water, so the ratio to be diluted varies depending on the state of the raw water. Therefore, as in Patent Document 1, the permeated water quality is continuously detected, and simply diluting the raw water with the permeated water based on this water quality, the information on the raw water is not taken in. There was a problem that it was difficult to stably obtain a predetermined permeated water quality.

そこで、原水の水質の変動や逆浸透膜モジュールの膜の経年劣化の影響に関わらず、安定した透過水水質を得ることのできる逆浸透膜装置が求められている。以上のことが本発明の課題である。   Therefore, there is a need for a reverse osmosis membrane apparatus that can obtain a stable permeated water quality regardless of fluctuations in the quality of raw water or the effects of aging of the membrane of a reverse osmosis membrane module. The above is the subject of the present invention.

本発明は、このような課題に鑑みてなされたものであり、原水の水質変動や逆浸透膜モジュールの膜の経年劣化の影響に関わらず、安定した透過水水質を得ることを可能にした逆浸透膜装置を提供することを目的とする。   The present invention has been made in view of such a problem, and it is possible to obtain a stable permeated water quality irrespective of the influence of the water quality fluctuation of the raw water and the aging deterioration of the membrane of the reverse osmosis membrane module. An object is to provide an osmotic membrane device.

本発明者は、原水の水質情報に基づいて透過水の一部を原水側にリターンさせることにより、原水の水質変動に関わらず、所定の透過水水質が得られることを見出し、これに基づいて、以下のような新たな逆浸透膜装置を発明するに至った。   The present inventor has found that a predetermined permeated water quality can be obtained regardless of fluctuations in the quality of the raw water by returning a part of the permeated water to the raw water side based on the water quality information of the raw water. The inventors have invented the following new reverse osmosis membrane device.

(1)原水ラインと、前記原水ラインを介して原水が供給され、原水中の不純物が除去された透過水及び不純物が濃縮された濃縮水排出する逆浸透膜モジュールと、前記原水ラインに設けられ、原水を加圧するポンプと、前記ポンプの回転数を制御するインバータと、前記逆浸透膜モジュールの透過水が排出される透過水ラインと、前記透過水ラインに設けられた流量計と、前記透過水ラインにおける前記流量計よりも上流側から前記原水ラインに透過水をリターンさせる透過水リターンラインと、前記透過水リターンラインに設けられた流量調整弁と、前記原水ラインに設けられ、原水の水質を検出する原水水質検出器と、前記原水水質検出器の検出信号に基づいて前記流量調整弁を制御する弁制御手段と、前記流量計の検出信号に基づいて前記流量計により検出される透過水の流量が目標流量になるように前記インバータを制御するインバータ制御手段と、を備えたことを特徴とする逆浸透膜装置。 (1) A raw water line , a reverse osmosis membrane module that supplies raw water through the raw water line , discharges permeated water from which impurities in the raw water have been removed, and concentrated water in which impurities are concentrated, and is provided in the raw water line A pump for pressurizing the raw water, an inverter for controlling the rotation speed of the pump, a permeate line from which the permeate of the reverse osmosis membrane module is discharged , a flow meter provided in the permeate line, A permeate return line for returning permeate to the raw water line from the upstream side of the flow meter in the permeate line, a flow rate adjustment valve provided in the permeate return line, a raw water line, a raw water quality detector for detecting the water quality, and valve control means for controlling said flow control valve based on a detection signal of the raw water quality detector, based on a detection signal of the flow meter Further comprising a, an inverter control means for the flow rate of the permeated water to control the inverter so that the target flow rate detected by the flow meter Te reverse osmosis membrane apparatus according to claim.

(2)前記透過水ラインに設けられ、透過水の水質を検出する透過水水質検出器を更に備え前記弁制御手段は、前記透過水水質検出器の検出信号に基づいて、前記流量調整弁を制御することを特徴とする(1)記載の逆浸透膜装置。 (2) the provided permeate line, further comprising a permeate water quality detector for detecting the water quality of the permeated water, the valve control means based on a detection signal of the permeate water quality detector, before Symbol flow adjustment The reverse osmosis membrane device according to (1), wherein the valve is controlled.

(3)前記濃縮水を排出する濃縮水ラインと、前記濃縮水ライン設けられ、該濃縮水の水質を検出する濃縮水水質検出器を更に備え前記弁制御手段は、前記濃縮水水質検出器の検出信号に基づいて、前記流量調整弁を制御することを特徴とする(1)又は(2)記載の逆浸透膜装置。 (3) and the concentrated water line for discharging the concentrated water, provided on the concentrated water line, further comprising a concentrated water quality detector for detecting the water quality of the concentrated water, the valve control means, the concentrated water quality detection based on the detection signal of the vessel, and controls the pre-Symbol flow control valve (1) or (2) reverse osmosis membrane apparatus as claimed.

(4)前記原水水質検出器、前記透過水水質検出器及び前記濃縮水水質検出器のそれぞれの上流又は下流に接続された水温検出器を更に備え、前記弁制御手段は、前記水温検出器の検出信号に基づいて前記流量調整弁を制御することを特徴とする(1)乃至(3)のいずれかに記載の逆浸透膜装置。 (4) the raw water quality detector, further comprising a permeate water quality detector and temperature detector coupled to the respective upstream or downstream of the concentrated water quality detector, the valve control means of the temperature detector The reverse osmosis membrane device according to any one of (1) to (3), wherein the flow rate adjusting valve is controlled based on a detection signal.

本発明によれば、原水の水質変動や逆浸透膜モジュールの膜の経年劣化の影響に関わらず、安定した透過水水質を得ることが可能になる。   ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to obtain the stable permeated water quality irrespective of the influence of the water quality fluctuation | variation of raw | natural water, or the aged deterioration of the membrane of a reverse osmosis membrane module.

以下、本発明の実施形態について説明する。第1実施形態に係わる逆浸透膜装置は、原水ラインを介して原水が供給され、原水中の不純物が除去された透過水ならびに不純物が濃縮された濃縮水として排出する逆浸透膜モジュールを備えている。この逆浸透膜モジュールの透過水が排出される透過水ラインから原水ラインに透過水をリターンさせる透過水リターンラインが設けられている。この透過水リターンラインには流量調整弁が設けられ、原水ラインには、原水の水質を検出する原水水質検出器と、水温を検出する水温検出器が設けられ、水質検出器および水温検出器の検出信号に基づいて流量調整弁を制御することにより、所定量の透過水を原水に混入させ、所定の透過水水質を得るものである。   Hereinafter, embodiments of the present invention will be described. The reverse osmosis membrane device according to the first embodiment includes a reverse osmosis membrane module that is supplied with raw water via a raw water line and discharges the permeated water from which impurities in the raw water are removed and the concentrated water in which impurities are concentrated. Yes. A permeate return line for returning permeate from the permeate line from which the permeate of the reverse osmosis membrane module is discharged to the raw water line is provided. This permeate return line is provided with a flow control valve, and the raw water line is provided with a raw water quality detector for detecting the quality of the raw water and a water temperature detector for detecting the water temperature. By controlling the flow rate adjusting valve based on the detection signal, a predetermined amount of permeated water is mixed into the raw water to obtain a predetermined permeated water quality.

以下、本発明の実施形態について図面を参照して説明する。   Embodiments of the present invention will be described below with reference to the drawings.

図1は、本発明の第1実施形態による逆浸透膜装置のシステム構成図である。   FIG. 1 is a system configuration diagram of a reverse osmosis membrane device according to a first embodiment of the present invention.

逆浸透膜装置は、溶媒は通すが溶質は透過させないという性質の逆浸透膜(ナノろ過膜を含む)を利用して、溶解塩、シリカ分等の不純物を含んだ被処理水の浸透圧より高い圧力をかけて、溶媒としての水だけを選択的に透過採取するものである。   The reverse osmosis membrane device uses reverse osmosis membranes (including nanofiltration membranes) that allow solvents to pass through but not solutes, and from the osmotic pressure of treated water containing impurities such as dissolved salts and silica. A high pressure is applied to selectively permeate and collect only water as a solvent.

図1に示すように、逆浸透膜装置10は、逆浸透膜(ナノろ過膜を含む)を多数備えた筒状の逆浸透膜モジュール11と、この逆浸透膜モジュール11の上流側に設けられた、原水タンク1からの原水が供給される原水ライン12と、この原水ライン12に設けられた、原水を加圧するためのポンプ13と、逆浸透膜モジュール11の下流側に設けられた、不純物が除かれた透過水を排出する透過水ライン14と、逆浸透膜モジュール11の下流側に設けられた、不純物が濃縮された濃縮水を排水する濃縮水ライン15とを備えている。   As shown in FIG. 1, a reverse osmosis membrane device 10 is provided on the upstream side of a cylindrical reverse osmosis membrane module 11 having a large number of reverse osmosis membranes (including nanofiltration membranes) and the reverse osmosis membrane module 11. Further, a raw water line 12 to which raw water from the raw water tank 1 is supplied, a pump 13 for pressurizing the raw water provided in the raw water line 12, and an impurity provided on the downstream side of the reverse osmosis membrane module 11. The permeated water line 14 for discharging the permeated water from which the water has been removed, and the concentrated water line 15 for draining the concentrated water enriched with impurities, provided on the downstream side of the reverse osmosis membrane module 11.

原水タンク1とポンプ13との間に、原水の水質(例えば電気伝導率)を検出する水質検出器2および水温を検出する水温検出器3が設けられている。また、透過水ライン14には流量計4および流量調整弁5が設けられている。透過水ライン14における、逆浸透膜モジュール11の下流(逆浸透膜モジュール11と流量計4との間)から、原水ライン12における逆浸透膜モジュール11の上流(水温検出器3とポンプ13との間)に至る透過水リターンライン6が設けられている。この透過水リターンライン6には流量計7および流量調整弁8が設けられている。   Between the raw water tank 1 and the pump 13, a water quality detector 2 for detecting the quality (for example, electrical conductivity) of the raw water and a water temperature detector 3 for detecting the water temperature are provided. The permeate line 14 is provided with a flow meter 4 and a flow rate adjustment valve 5. From the downstream of the reverse osmosis membrane module 11 in the permeate water line 14 (between the reverse osmosis membrane module 11 and the flow meter 4) and upstream of the reverse osmosis membrane module 11 in the raw water line 12 (between the water temperature detector 3 and the pump 13. Permeated water return line 6 is provided. The permeate return line 6 is provided with a flow meter 7 and a flow rate adjustment valve 8.

弁制御手段及びインバータ制御手段としての制御部9は、信号線2a、3a、4aおよび7aを介して、それぞれ水質検出器2、水温検出器3、流量計4および流量計7からの信号を受信し、信号線5b、8bおよび13bを介して、透過水ライン14の流量調整弁5、透過水リターンライン6の流量調整弁8、およびインバータ16を介してポンプ13をそれぞれ制御するようになっている。 The control unit 9 as the valve control means and the inverter control means receives signals from the water quality detector 2, the water temperature detector 3, the flow meter 4 and the flow meter 7 via the signal lines 2a, 3a, 4a and 7a, respectively. The pump 13 is controlled via the signal line 5b, 8b and 13b, the flow rate adjusting valve 5 of the permeated water line 14, the flow rate adjusting valve 8 of the permeated water return line 6, and the inverter 16, respectively. Yes.

原水タンク1には、例えば、水道水や工業用水等の原水が貯留され、原水タンク1のからの原水は、ポンプ13により原水ライン12から逆浸透膜モジュール11に供給され、逆浸透膜モジュール11において処理される。その間に、水質検出器2により原水の水質(例えば、電気伝導率)が検出され、また、水温検出器3により原水の水温が検出され、原水の水質情報および水温情報は信号線2a、3aを介して制御部9に送信される。逆浸透膜モジュール11において処理された透過水は、透過水ライン14から給水タンク17に排出され、給水タンク17の水は、例えば、ボイラシステム、純水装置等に供給される。不純物が濃縮された濃縮水は、濃縮水ライン15から排出される。   The raw water tank 1 stores raw water such as tap water and industrial water, and the raw water from the raw water tank 1 is supplied from the raw water line 12 to the reverse osmosis membrane module 11 by the pump 13. Is processed. Meanwhile, the quality of raw water (for example, electrical conductivity) is detected by the water quality detector 2, and the temperature of the raw water is detected by the water temperature detector 3. The raw water quality information and the water temperature information are transmitted through the signal lines 2 a and 3 a. Is transmitted to the control unit 9 via The permeated water treated in the reverse osmosis membrane module 11 is discharged from the permeated water line 14 to the water supply tank 17, and the water in the water supply tank 17 is supplied to, for example, a boiler system, a pure water device, and the like. The concentrated water in which the impurities are concentrated is discharged from the concentrated water line 15.

透過水ライン14を通過する透過水の一部は、透過水リターンライン6を介して原水ライン12にリターンされる。制御部9は、水質検出器2および水温検出器3が検出した原水水質情報および原水水温情報に基づいて流量調整弁8を制御し、透過水リターンライン6を通過する透過水のリターン量を最適の量に調整する。具体的には、原水の水質が悪いほど(電気伝導率が高いほど)、あるいは原水の水温が高いほど、透過水のリターン量を多くする。すなわち、透過水のリターン量が多いほど、水質改善効果は大きく、給水タンク17への排水量は少なくなる。したがって、流量調整弁8の制御により所定の水質を確保することができる。なお、制御部9には、流量計4、7からの信号も入力され、制御部9は、これらの流量情報も流量調整弁8の制御に利用するようになっている。   A part of the permeate passing through the permeate line 14 is returned to the raw water line 12 via the permeate return line 6. The control unit 9 controls the flow rate adjustment valve 8 based on the raw water quality information and the raw water temperature information detected by the water quality detector 2 and the water temperature detector 3 to optimize the return amount of the permeated water passing through the permeate return line 6. Adjust to the amount. Specifically, the return amount of the permeated water is increased as the quality of the raw water is worse (the higher the electrical conductivity) or the higher the temperature of the raw water. That is, the greater the amount of permeated water returned, the greater the water quality improvement effect and the smaller the amount of drainage to the water supply tank 17. Therefore, a predetermined water quality can be ensured by controlling the flow rate adjusting valve 8. Signals from the flow meters 4 and 7 are also input to the control unit 9, and the control unit 9 uses these pieces of flow rate information for controlling the flow rate adjusting valve 8.

この逆浸透膜装置10から給水される機器によっては、給水タンク17への排水量を減らすことなく、所定の水質を確保することが要求される場合がある。その場合には、流量計4で検出される流量が目標水量となるように、インバータ16によりポンプ13の回転数を制御し、給水タンク17への排水量を一定量に維持する。すなわち、透過水のリターン量が多くなるほど、ポンプ13の回転数を増やし、逆浸透膜モジュール11への供給水量を多くすることで、一定水量の透過水が給水タンク17に送られるようにする。   Depending on the equipment supplied with water from the reverse osmosis membrane device 10, it may be required to ensure a predetermined water quality without reducing the amount of drainage to the water supply tank 17. In that case, the rotation speed of the pump 13 is controlled by the inverter 16 so that the flow rate detected by the flow meter 4 becomes the target water amount, and the amount of drainage to the water supply tank 17 is maintained at a constant amount. That is, as the return amount of permeated water increases, the rotation speed of the pump 13 is increased and the amount of water supplied to the reverse osmosis membrane module 11 is increased so that a certain amount of permeated water is sent to the water supply tank 17.

また、ポンプ13の上流側の原水ライン12に原水圧力がある場合には、この原水圧力に抗して透過水をリターンしなくてはならない。そのため、透過水ライン14に絞り弁としての流量調整弁5を設けて背圧を付加するか、あるいは透過水リターンライン6に循環用のポンプ(図示せず)を設けて加圧することにより、リターンされる透過水の圧力を原水圧力よりも高めるようにする。   Moreover, when there is a raw water pressure in the raw water line 12 on the upstream side of the pump 13, the permeated water must be returned against this raw water pressure. For this reason, the flow control valve 5 as a throttle valve is provided in the permeate line 14 to add back pressure, or the permeate return line 6 is provided with a circulation pump (not shown) to pressurize the return. The pressure of the permeated water is made higher than the raw water pressure.

第1実施形態の逆浸透膜装置10では、透過水ライン14から原水ライン12への透過水リターンライン6を設け、水質検出器2および水温検出器3の検出情報に基づいて透過水リターンライン6の流量調整弁8を制御することにより、原水水質の変動あるいは水温が変動しても、常に安定した透過水水質を得ることができる。なお、水温検出器3による水温情報を併用すると、より水質調整の精度が向上するが、水質検出器2による水質情報のみを用いる構成とすることも可能である。   In the reverse osmosis membrane device 10 of the first embodiment, a permeate return line 6 from the permeate line 14 to the raw water line 12 is provided, and the permeate return line 6 based on the detection information of the water quality detector 2 and the water temperature detector 3. By controlling the flow rate regulating valve 8, it is possible to always obtain a stable permeated water quality even if the raw water quality changes or the water temperature changes. In addition, when the water temperature information by the water temperature detector 3 is used in combination, the accuracy of water quality adjustment is further improved, but it is also possible to adopt a configuration in which only the water quality information by the water quality detector 2 is used.

図2は、本発明の第2実施形態による逆浸透膜装置のシステム構成図である。なお、第1実施形態と同一部材、同一機能のものは同一符号を付し、説明を省略する。   FIG. 2 is a system configuration diagram of a reverse osmosis membrane device according to a second embodiment of the present invention. In addition, the same member and the same function as 1st Embodiment attach | subject the same code | symbol, and abbreviate | omit description.

図2に示すように、第2実施形態の逆浸透膜装置は、第1実施形態に加えて、透過水ライン14に水質検出器18および水温検出器19を、濃縮水ライン15に水質検出器20および水温検出器21を設け、これら水質検出器18、20および水温検出器19、21から信号線18b、19b、20b、21bを介して透過水情報および濃縮水情報を制御部9に入力させ、制御部9により流量調整弁8を制御するようになっている。   As shown in FIG. 2, in addition to the first embodiment, the reverse osmosis membrane device of the second embodiment includes a water quality detector 18 and a water temperature detector 19 in the permeated water line 14, and a water quality detector in the concentrated water line 15. 20 and a water temperature detector 21 are provided, and the permeated water information and the concentrated water information are input from the water quality detectors 18 and 20 and the water temperature detectors 19 and 21 to the control unit 9 through the signal lines 18b, 19b, 20b, and 21b. The flow rate adjusting valve 8 is controlled by the control unit 9.

第2実施形態の逆浸透膜装置では、原水の水質、水温情報とともに、透過水および濃縮水の水質、水温情報も制御部9に入力させて、流量調整弁8の制御に用いている。このため、例えば、膜の経年劣化等により逆浸透膜モジュール11の処理能力が低下したような場合、透過水および濃縮水の水質情報に変動が生じるので、これらの情報に基づいて流量調整弁8を制御すると、所定の透過水水質を確保することが可能となる。   In the reverse osmosis membrane device of the second embodiment, the quality and water temperature information of the permeated water and concentrated water are input to the control unit 9 together with the quality and temperature information of the raw water, and are used to control the flow rate adjustment valve 8. For this reason, for example, when the processing capacity of the reverse osmosis membrane module 11 is reduced due to aging deterioration of the membrane or the like, the water quality information of the permeated water and the concentrated water fluctuates. By controlling, it becomes possible to ensure a predetermined permeated water quality.

以上、説明したように、本発明の実施形態によれば、逆浸透膜モジュールの透過水が排出される透過水ラインから原水ラインに透過水をリターンさせる透過水リターンラインを設け、原水の水質を検出する原水水質検出器の検出信号に基づいて透過水リターンラインの流量調整弁を制御することにより、原水水質が変動しても、常に安定した透過水水質を得ることができる。   As described above, according to the embodiment of the present invention, a permeate return line for returning permeate from the permeate line from which the permeate of the reverse osmosis membrane module is discharged to the raw water line is provided, and the quality of the raw water is improved. By controlling the flow rate adjustment valve of the permeated water return line based on the detection signal of the raw water quality detector to be detected, a stable permeated water quality can always be obtained even if the raw water quality varies.

また、本実施形態によれば、透過水ラインに設けた透過水水質検出器の検出信号に基づいて、透過水リターンラインの流量調整弁を制御することにより、膜の経年劣化等により逆浸透膜モジュールの処理能力が低下した場合でも、透過水の水質情報に基づいて流量調整弁を制御し、所定の透過水水質を確保することが可能となる。   In addition, according to the present embodiment, the reverse osmosis membrane due to aging deterioration of the membrane, etc., by controlling the flow rate adjustment valve of the permeate return line based on the detection signal of the permeate water quality detector provided in the permeate line. Even when the processing capacity of the module is reduced, it is possible to control the flow rate adjustment valve based on the water quality information of the permeated water to ensure a predetermined permeated water quality.

また、本実施形態によれば、濃縮水ラインに設けた濃縮水水質検出器の検出信号に基づいて、透過水リターンラインの流量調整弁を制御することにより、膜の経年劣化等により逆浸透膜モジュールの処理能力が低下した場合でも、濃縮水の水質情報に基づいて流量調整弁を制御し、所定の透過水水質を確保することが可能となる。   In addition, according to the present embodiment, the reverse osmosis membrane due to aging deterioration of the membrane, etc. by controlling the flow rate adjustment valve of the permeate return line based on the detection signal of the concentrated water quality detector provided in the concentrated water line Even when the processing capacity of the module is reduced, it is possible to control the flow rate adjustment valve based on the water quality information of the concentrated water to ensure a predetermined permeated water quality.

また、本実施形態によれば、水質検出器とともに水温検出器が設けられ、水温検出器の検出信号に基づいて流量調整弁を制御することにより、膜性能に影響を与える水温の情報も加味して透過水リターンラインのリターン量を調整することができ、より精度の高い水質調整を行うことが可能となる。   In addition, according to this embodiment, a water temperature detector is provided together with a water quality detector, and by controlling the flow rate adjustment valve based on the detection signal of the water temperature detector, information on the water temperature that affects the membrane performance is also taken into account. Thus, the return amount of the permeate return line can be adjusted, and water quality adjustment with higher accuracy can be performed.

以上、本発明の実施形態を説明したが、具体例を例示したに過ぎず、特に本発明を限定するものではなく、逆浸透膜モジュール11、透過水リターンライン6、水質検出器2、18、20、水温検出器3、19、21、流量調整弁8等の具体的構成および配置は適宜設計変更可能である。また、上記の実施形態に記載された効果は、本発明から生じる最も好適な効果を列挙したに過ぎず、本発明による効果は、本発明の実施形態に記載されたものに限定されるものではない。   As mentioned above, although embodiment of this invention was described, only the specific example was illustrated, it does not specifically limit this invention, the reverse osmosis membrane module 11, the permeate return line 6, the water quality detectors 2, 18, 20, the specific configurations and arrangements of the water temperature detectors 3, 19, 21 and the flow rate adjusting valve 8 can be appropriately changed. In addition, the effects described in the above-described embodiment only list the most preferable effects resulting from the present invention, and the effects according to the present invention are not limited to those described in the embodiments of the present invention. Absent.

本発明の第1実施形態の逆浸透膜装置のシステム構成図である。It is a system configuration figure of the reverse osmosis membrane device of a 1st embodiment of the present invention. 本発明の第2実施形態の逆浸透膜装置のシステム構成図である。It is a system block diagram of the reverse osmosis membrane apparatus of 2nd Embodiment of this invention.

符号の説明Explanation of symbols

1 原水タンク
2 水質検出器
3 水温検出器
6 透過水リターンライン
8 流量調整弁
9 制御部
10 逆浸透膜装置
11 逆浸透膜モジュール
12 原水ライン
14 透過水ライン
15 濃縮水ライン
18 水質検出器
19 水温検出器
20 水質検出器
21 水温検出器
DESCRIPTION OF SYMBOLS 1 Raw water tank 2 Water quality detector 3 Water temperature detector 6 Permeated water return line 8 Flow control valve 9 Control part 10 Reverse osmosis membrane device 11 Reverse osmosis membrane module 12 Raw water line 14 Permeated water line 15 Concentrated water line 18 Water quality detector 19 Water temperature Detector 20 Water quality detector 21 Water temperature detector

Claims (4)

原水ラインと、
前記原水ラインを介して原水が供給され、原水中の不純物が除去された透過水及び不純物が濃縮された濃縮水排出する逆浸透膜モジュールと、
前記原水ラインに設けられ、原水を加圧するポンプと、
前記ポンプの回転数を制御するインバータと、
前記逆浸透膜モジュールの透過水が排出される透過水ラインと、
前記透過水ラインに設けられた流量計と、
前記透過水ラインにおける前記流量計よりも上流側から前記原水ラインに透過水をリターンさせる透過水リターンラインと、
前記透過水リターンラインに設けられた流量調整弁と、
前記原水ラインに設けられ、原水の水質を検出する原水水質検出器と、
前記原水水質検出器の検出信号に基づいて前記流量調整弁を制御する弁制御手段と、
前記流量計の検出信号に基づいて前記流量計により検出される透過水の流量が目標流量になるように前記インバータを制御するインバータ制御手段と、を備えたことを特徴とする逆浸透膜装置。
Raw water line ,
A reverse osmosis membrane module for supplying raw water through the raw water line , discharging permeated water from which impurities in raw water have been removed, and concentrated water having concentrated impurities;
A pump provided in the raw water line and pressurizing the raw water;
An inverter for controlling the rotational speed of the pump;
A permeate line through which the permeate of the reverse osmosis membrane module is discharged ;
A flow meter provided in the permeate line;
A permeate return line for returning permeate to the raw water line from the upstream side of the flow meter in the permeate line;
A flow control valve provided in the permeate return line;
A raw water quality detector provided in the raw water line for detecting the quality of the raw water;
And valve control means for controlling said flow control valve based on a detection signal of the raw water quality detector,
A reverse osmosis membrane device comprising: inverter control means for controlling the inverter so that a flow rate of permeated water detected by the flow meter becomes a target flow rate based on a detection signal of the flow meter .
前記透過水ラインに設けられ、透過水の水質を検出する透過水水質検出器を更に備え
前記弁制御手段は、前記透過水水質検出器の検出信号に基づいて、前記流量調整弁を制御することを特徴とする請求項1記載の逆浸透膜装置。
Provided in the permeate line, further comprising a permeate water quality detector for detecting the water quality of the permeated water,
It said valve control means, on the basis of the detection signal of the permeate water quality detector, reverse osmosis membrane apparatus according to claim 1, wherein the controlling the pre Symbol flow control valve.
前記濃縮水を排出する濃縮水ラインと、
前記濃縮水ライン設けられ、該濃縮水の水質を検出する濃縮水水質検出器を更に備え
前記弁制御手段は、前記濃縮水水質検出器の検出信号に基づいて、前記流量調整弁を制御することを特徴とする請求項1又は2記載の逆浸透膜装置。
A concentrated water line for discharging the concentrated water ;
Provided on the concentrated water line, further comprising a concentrated water quality detector for detecting the water quality of the concentrate,
Said valve control means, on the basis of the detection signal of the concentrated water quality detector, before Symbol reverse osmosis membrane apparatus according to claim 1 or 2, wherein the controlling the flow rate adjusting valve.
前記原水水質検出器、前記透過水水質検出器及び前記濃縮水水質検出器のそれぞれの上流又は下流に接続された水温検出器を更に備え
前記弁制御手段は、前記水温検出器の検出信号に基づいて前記流量調整弁を制御することを特徴とする請求項1乃至3のいずれかに記載の逆浸透膜装置。
The raw water quality detector further includes the permeate water quality detector and temperature detector coupled to the respective upstream or downstream of the concentrated water quality detector,
The reverse osmosis membrane device according to any one of claims 1 to 3, wherein the valve control means controls the flow rate adjusting valve based on a detection signal of the water temperature detector.
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