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    • 2. 发明专利
    • Method for treating boron-containing water
    • 用于处理含硼水的方法
    • JP2003080269A
    • 2003-03-18
    • JP2001271428
    • 2001-09-07
    • Kurita Water Ind LtdTohoku Electric Power Co Inc東北電力株式会社栗田工業株式会社
    • HAYASAKA TAKAOYAMAURA TSUGUAKISATO TAKESHIETO YOSHIHIROASADA HIROYUKI
    • C02F1/52C02F1/42C02F1/58
    • PROBLEM TO BE SOLVED: To provide a method for treating boron-containing water by which the amount of chemicals used and the regeneration frequency of an ion exchange resin are reduced and boron can be efficiently removed by flocculation precipitation and/or ion exchange.
      SOLUTION: (1) In the method for treating boron-containing water by flocculation precipitation, the concentration of boron in the boron-containing water is automatically analyzed and the amount of a flocculant added is automatically controlled. (2) When the boron-containing water is treated by an ion exchange method, the concentration of boron is automatically analyzed and time appropriate to the regeneration of an ion exchange resin is automatically controlled. (3) When the boron-containing water is treated by the ion exchange method after treatment by flocculation precipitation, the concentration of boron is automatically analyzed and the amount of a flocculant added is automatically controlled.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种处理含硼水的方法,通过该方法可以减少使用的化学品的使用量和离子交换树脂的再生频率,并且可以通过絮凝沉淀和/或离子交换有效地除去硼。 解决方案:(1)在通过絮凝沉淀处理含硼水的方法中,自动分析含硼水中硼的浓度,并自动控制添加的絮凝剂的量。 (2)当通过离子交换法处理含硼水时,自动分析硼的浓度,自动控制适合离子交换树脂再生的时间。 (3)当通过絮凝沉淀处理后,通过离子交换法处理含硼水时,自动分析硼的浓度,并自动控制添加的絮凝剂的量。
    • 5. 发明专利
    • セレン含有水の処理方法及び処理装置
    • 用于处理含硒水的方法和装置
    • JP2015039652A
    • 2015-03-02
    • JP2013170455
    • 2013-08-20
    • 栗田工業株式会社Kurita Water Ind Ltd
    • ASADA HIROYUKIMURAMATSU YUICHITANITSU YOSHIKAZU
    • C02F1/70B01D53/14C02F1/58C02F1/78
    • 【課題】セレン含有水を金属チタンとそれよりも卑な金属との混合物又は合金と接触させ、該卑な金属の一部を溶出させることによりセレンを還元するセレン含有排水の処理方法及び装置において、セレン含有水が亜硫酸イオン、チオ硫酸イオン、亜硝酸イオンなどを含んでいてもセレンを効率よく処理することができるようにする。【解決手段】セレン含有水を、金属チタンとチタンより卑な金属との混合物の充填層7Aと接触させて、前記卑な金属の単体の一部を溶出させることにより、該セレン含有水中のセレンを還元処理するセレン含有水の処理方法及び装置において、該還元処理に先立ち、前記セレン含有水をオゾン酸化槽1で酸化処理する。【選択図】図1
    • 要解决的问题:提供一种处理含硒水的方法和设备,其中每个含硒水与含有金属钛和金属碱的混合物或合金与钛接触以洗脱 贱金属的一部分并且还原硒,并且其中的每一个构成为使得即使含硒的水含有亚硫酸根离子,硫代硫酸根离子,亚硝酸根离子等也能够有效地处理含硒水。 解决方案:在含硒水处理方法和装置中,含硒水与钛金属混合物的混合物与钛的混合物的填充层7A与钛接触,以洗脱一部分 在含硒水中还原硒,并且含硒水在臭氧氧化槽1中被氧化,在含硒水被还原之前。
    • 7. 发明专利
    • Boron recovery apparatus
    • BORON恢复装置
    • JP2008073639A
    • 2008-04-03
    • JP2006257470
    • 2006-09-22
    • Kurita Water Ind Ltd栗田工業株式会社
    • ASADA HIROYUKI
    • C02F1/28B01D9/02C01B35/12C02F1/04
    • PROBLEM TO BE SOLVED: To provide a boron recovery method by which boron can be recovered as borax or orthoboric acid having a high utility value from boron-containing water.
      SOLUTION: The boron recovery apparatus is provided with: an adsorption tower 1 for adsorbing boron in boron-containing water; a regenerant storage tank 2 for storing alkali for desorbing boron; an evaporator 3 for evaporating and concentrating a desorbing liquid; a cooling tank 4 for precipitating the crystals of metaborate from an evaporated and concentrated liquid; a filter 5 for separating the crystals; a dissolution tank 6 for dissolving the crystals into water; a neutralization tank 7 for neutralizing the dissolved liquid with acid and precipitating the crystals of tetraborate; a filter 8 for separating the crystals of tetraborate and a supernatant liquor; and a returning passage 9 for returning the supernatant liquor into the adsorption tower.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 待解决的问题:提供一种硼回收方法,通过硼回收方法可以从含硼水中回收硼酸或具有高效用价值的原硼酸。 解决方案:硼回收装置设有:用于在含硼水中吸附硼的吸附塔1; 用于储存用于解吸硼的碱的再生剂储存罐2; 用于蒸发和浓缩解吸液体的蒸发器3; 用于从蒸发和浓缩的液体中沉淀偏硼酸晶体的冷却槽4; 用于分离晶体的过滤器5; 用于将晶体溶解在水中的溶解槽6; 中和罐7,用于用酸中和溶解的液体并沉淀四硼酸盐的晶体; 用于分离四硼酸盐晶体和上清液的过滤器8; 以及用于将上清液返回到吸附塔中的返回通道9。 版权所有(C)2008,JPO&INPIT
    • 9. 发明专利
    • Wastewater treatment method and membrane treatment apparatus
    • 废水处理方法和膜处理装置
    • JP2013202537A
    • 2013-10-07
    • JP2012075039
    • 2012-03-28
    • Kurita Water Ind Ltd栗田工業株式会社
    • NAKAHARA TOSHIJIASADA HIROYUKI
    • C02F1/44B01D61/58B01D63/06
    • PROBLEM TO BE SOLVED: To provide a high power membrane treatment apparatus capable of stabilizing a permeated water flux of a membrane module.SOLUTION: A circulation tank 1 for storing wastewater W is communicated with a first membrane module 2A via a first supply line 3A. The condensation side of the first membrane module 2A is communicated with a second membrane module 2B via a second supply line 3B. Further, the condensation side of the second membrane module 2B is communicated with a third membrane module 2C via a third supply line 3C. A return line 5 is connected to the condensation side of the third membrane module 2C. A branch line 6 as a supply mechanism is connected to the first supply line 3A, and the branch line 6 is merged with the second supply line 3B and the third supply line 3C.
    • 要解决的问题:提供能够稳定膜组件的渗透水通量的高功率膜处理装置。解决方案:用于储存废水W的循环罐1经由第一供应管线3A与第一膜组件2A连通。 第一膜组件2A的冷凝侧经由第二供给线3B与第二膜组件2B连通。 此外,第二膜组件2B的冷凝侧经由第三供给线3C与第三膜组件2C连通。 返回管线5连接到第三膜组件2C的冷凝侧。 作为供给机构的分支线6与第一供给线3A连接,分支线6与第二供给线3B和第三供给线3C并联。
    • 10. 发明专利
    • Method and apparatus for treating selenium-containing water
    • 用于处理含硒水的方法和装置
    • JP2012250187A
    • 2012-12-20
    • JP2011125316
    • 2011-06-03
    • Kurita Water Ind Ltd栗田工業株式会社Electric Power Dev Co Ltd電源開発株式会社
    • ASADA HIROYUKITANITSU YOSHIKAZU
    • C02F1/46
    • C02F1/4678C02F1/46176C02F1/4676C02F1/66C02F1/68C02F1/705C02F2101/106C02F2101/108C02F2101/14C02F2209/02C02F2209/06
    • PROBLEM TO BE SOLVED: To provide a method and apparatus for stably and efficiently treating selenium-containing water containing ions of a metal which is nobler than titanium as a coexisting substance wherein the selenium-containing water is subjected to reduction treatment by contacting the selenium-containing water with a mixture of metallic titanium and a simple metal baser than titanium, while preventing a decrease of selenium-treating performance with time.SOLUTION: A pretreatment of removing ions of the metal nobler than titanium from selenium-containing water is performed prior to reduction treatment of selenium with the mixture of metallic titanium and the simple metal baser than titanium. In a reduction treatment step of selenium, noble metal ions in the selenium-containing water are reduced on the surfaces of particles of metallic titanium in a titanium/base metal mixture to form precipitates, which adhere to the surfaces of the metallic titanium particles, resulting in the decrease in efficiency of a reduction reaction. This problem can be solved in such a manner that the noble metal ions are removed prior to the reduction treatment of selenium.
    • 要解决的问题:提供一种用于稳定和有效地处理含钛离子的方法和装置,所述离子含有比钛更贵的金属作为共存物质,其中含硒水通过接触进行还原处理 含有金属钛和纯钛的混合物的含硒水,同时防止硒处理性能随时间的降低。 解决方案:在使用金属钛和简单金属基底的混合物还原处理硒之前,进行从含硒水中除去比钛更贵的金属离子的预处理。 在硒的还原处理步骤中,含钛水中的贵金属离子在钛/贱金属混合物中在金属钛颗粒的表面上还原,形成析出物,其附着在金属钛颗粒的表面上,导致 在还原反应的效率下降。 可以以这样的方式解决该问题:在硒的还原处理之前除去贵金属离子。 版权所有(C)2013,JPO&INPIT