会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明专利
    • Fish-raising apparatus
    • 捕鱼设备
    • JP2003000097A
    • 2003-01-07
    • JP2001191778
    • 2001-06-25
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAMAZAKI AKIHIRONAKAMURA HIROSHIYOSHIMI KATSUJIHIGUCHI TETSUOOGAWA NAOKI
    • A01K63/04A01K63/00C02F1/46C02F1/50C02F1/66C02F1/76C02F3/34
    • PROBLEM TO BE SOLVED: To control the pH of a raising water so as to be neutral to weak acidic at which the germicidal activities of an iodine resin can be exhibited, and further to achieve the automatic raising of fish.
      SOLUTION: This fish-raising apparatus has an aquarium 1 for storing the fish 2, a pH meter 3 for measuring the pH of the water in the aquarium, a nitrifying vessel 6 connected to the aquarium 1, a germicidal vessel 7 connected to the nitrifying vessel 6 and having the iodine resin arranged in the interior, a selector valve 10 installed in the piping connecting the germicidal vessel 7 and the aquarium 1, a controller 14 connected to both of the pH meter 3 and the selector valve 10, and a pH-controlling vessel 12 connected to both of the selector valve 10 and the aquarium 1, and storing coral sand. The aquarium 1, the nitrifying vessel 6 and the germicidal vessel 7 are mutually connected in a loop shape so that the water in the aquarium 1 may be circulated in the aquarium 1, the nitrifying vessel 6 and the germicidal vessel 7 in order. When the pH value is lowered so as to be 0.5 lower than the pH value of the water to the aquarium 1, the selector valve 10 is switched to circulate the water in the aquarium 1 in the order of the aquarium 1, the nitrifying vessel 6, the germicidal vessel 7 and the pH-controlling vessel 12.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:为了控制提高水的pH以对可以显示碘树脂的杀菌活性的弱酸性呈中性,并且进一步实现鱼的自动升高。 解决方案:这种养鱼装置具有用于储存鱼2的水族箱1,用于测量水族箱中的水的pH的pH计3,连接到水族箱1的硝化容器6,连接到硝化的杀菌容器7 容器6,其内部具有碘树脂,安装在连接杀菌容器7和水族箱1的管道中的选择阀10,连接到pH计3和选择阀10两者的控制器14,pH 连接到选择阀10和水族箱1两者的控制容器12,并存放珊瑚沙。 水族箱1,硝化容器6和杀菌容器7以环状相互连接,使得水族箱1中的水可以依次在水族箱1,硝化容器6和杀菌容器7中循环。 当pH值降低到低于水族箱1的水的pH值0.5时,切换阀10以水族箱1,硝化容器6的顺序使水族箱1中的水循环 ,杀菌容器7和pH控制容器12。
    • 4. 发明专利
    • Method and apparatus for cleaning contaminated soil
    • 清洁污染土壤的方法和装置
    • JP2004089809A
    • 2004-03-25
    • JP2002252720
    • 2002-08-30
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAMAZAKI AKIHIROARIKAWA KIWAMUHATANO SHIGEKAZUUEJIMA NAOYUKIYAMAUCHI SUMIOKAWAMURA WATARUEITO TORUTERAKURA SEIICHIWADA SHINICHIRO
    • B09C1/00B01J20/26B01J20/34B03B5/00B03B5/28B03B9/06B09C1/02B09C1/04B09C1/08
    • Y02W30/524
    • PROBLEM TO BE SOLVED: To improve the efficiency of cleaning treatment by cleaning contaminated soil properly in a short period in a method and an apparatus for purifying the contaminated soil. SOLUTION: The contaminated soil and acidic water are mixed in a mixing tank 14, and soil particles having a prescribed particle size or above are precipitated in a precipitation separation tank 16 to be removed as purified soil. The fine particles of the contaminated soil containing harmful inorganic substances and acidic water are charged with a chelating resin agent into a treatment tank 11 and agitated. After the harmful inorganic substances such as heavy metals contained in the fine particles are adsorbed/separated by the chelating resin agent, the purified fine particles and the acidic water are separated in an adsorbent separation tank 13, and the chelating resin agent is regenerated by an adsorbent regeneration device 18 by separating the agent by supplying an acid liquid to the agent having the harmful inorganic substances. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:通过在污染土壤的净化方法和设备的短时间内适当地清洁污染的土壤来提高清洁处理的效率。 解决方案:将污染的土壤和酸性水混合在混合罐14中,并将具有规定粒度或以上的土壤颗粒沉淀在沉淀分离罐16中,作为纯化土壤除去。 将含有有害无机物质和酸性水的污染土壤的细颗粒加入到处理槽11中并搅拌。 在细颗粒中包含的重金属等有害无机物质被螯合树脂剂吸附/分离后,在吸附剂分离槽13中分离纯化的微粒和酸性水,螯合树脂试剂通过 吸附剂再生装置18,通过向具有有害无机物质的试剂供给酸性液体来分离试剂。 版权所有(C)2004,JPO
    • 6. 发明专利
    • Aquatic organism raising system and method for cleaning raising water
    • 水生生物提取系统和清洁水的方法
    • JP2003018937A
    • 2003-01-21
    • JP2001207368
    • 2001-07-09
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAMAZAKI AKIHIRO
    • A01K63/04
    • PROBLEM TO BE SOLVED: To provide an aquatic organism raising system and method for cleaning raising water, ensuring the raising water not to be discolored even if an aquatic organism is raised in a closed circulating system and thus ensuring the aquatic organism to be favorably observed continuously.
      SOLUTION: This aquatic organism raising system with closed circulating system has the following scheme: denitrification reaction is carried out by combining electrochemical reaction with biological reaction using denitrifying bacteria in a denitrification tank 5; wherein, of electrodes for the electrochemical reaction, at least the anode 12 is made of a material other than carbonaceous one; further, as an embodiment, a support 13 for bearing the denitrifying bacteria is provided and a polymeric bubble-blocking membrane 14 for separating the support 13 and the anode 12 is also provided; as another embodiment, deaerating means 17, 18, 19 and 20 for deaerating the denitrification tank 5 are provided.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:为了提供一种水生生物养殖系统和清水方法,即使在封闭的循环系统中养殖水生生物,确保升水不变色,从而确保水生生物被有利地连续观察 。 解决方案:具有封闭循环系统的水生生物提升系统具有以下方案:脱氮反应是通过在反硝化池5中使用反硝化细菌结合电化学反应与生物反应进行的; 其中,用于电化学反应的电极中,至少阳极12由碳质材料以外的材料制成; 此外,作为实施例,提供了用于承载反硝化细菌的支撑体13,并且还提供用于分离支撑体13和阳极12的聚合物气泡阻挡膜14; 作为另一实施例,提供了用于使脱氮罐5脱气的脱气装置17,18,19和20。
    • 7. 发明专利
    • 発電システム
    • 发电系统
    • JP2015047563A
    • 2015-03-16
    • JP2013181363
    • 2013-09-02
    • 三菱重工業株式会社Mitsubishi Heavy Ind Ltd
    • HAMAZAKI AKIHIROMIURA KATSUYA
    • C02F1/50B01D53/62B01F1/00B01F5/06C02F1/00
    • Y02E20/326
    • 【課題】発電システムの構成を効率よく利用し、かつ、海洋生物の付着を抑制できることにある。【解決手段】発電システムであって、燃料を燃焼させて発電する発電ユニットと、発電ユニットで発生した排ガスが流れる煙道と、ポンプを有し、ポンプで海水を送液し、発電ユニットと海との間で海水を循環させる海水循環装置と、海水循環装置のポンプよりも下流を流れる海水に二酸化炭素を溶解させる溶解装置と、を備える。溶解装置は、二酸化炭素を通過させ海水を通過させない中空糸膜を介して、煙道の大気圧雰囲気の領域を流れる少なくとも一部の排ガスと、海水循環装置を流れる少なくとも一部の海水と、を接触させ、排ガス中の二酸化炭素を海水に溶解させる中空糸膜モジュールを、有する。【選択図】図2
    • 要解决的问题:有效利用发电系统的结构,并抑制海洋生物的粘附。解决方案:一种发电系统,包括:燃烧燃料以发电的发电单元; 在发电单元中产生的废气流过的烟道; 海水循环装置,其具有泵并通过泵供应海水以在发电单元和海洋之间循环海水; 以及将二氧化碳溶解到在海水循环装置的泵的下游流动的海水中的溶解装置。 溶解装置具有中空纤维膜组件,其使在烟道的大气压气氛区域内流动的废气的至少一部分与通过中空纤维膜流过海水循环装置的至少一部分海水接触 允许二氧化碳通过并阻止海水通过,将废气中的二氧化碳溶解到海水中。
    • 8. 发明专利
    • Device for estimating silica concentration in boiler water, silica concentration adjustment device, silica concentration estimation method and silica concentration adjustment method
    • 用于评估锅炉水中二氧化硅浓度的装置,二氧化硅浓度调节装置,二氧化硅浓度估算方法和二氧化硅浓度调节方法
    • JP2014031931A
    • 2014-02-20
    • JP2012172078
    • 2012-08-02
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAMAZAKI AKIHIROKIDO HARUKAISHIHARA NOBUOTSUBAKISAKI SENICHI
    • F22B37/38
    • Y02E20/16
    • PROBLEM TO BE SOLVED: To reduce an initial introduction cost and a maintenance cost of a boiler plant.SOLUTION: A device for estimating a silica concentration in boiler water 1, for a boiler plant 2 which has a boiler 7 and a circulation line 34 which condenses steam into water and returns the same to the boiler 7, comprises: a boiler water thermometer 33 to measure a temperature inside the boiler; a boiler internal pressure gauge 32 to measure pressure inside the boiler; a first flowmeter 22 to measure a feeding speed of the boiler water; a silica concentration storage section 41 to store a silica concentration of the boiler water; and silica solubility calculation means 42 to calculate solubility of silica into the steam from the temperature and the pressure. When the silica concentration stored in the silica concentration storage section 41 is larger than silica solubility, the device for estimating the silica concentration in the boiler water 1 updates the silica concentration stored in silica concentration storage section 41 by adding an increase in the silica concentration calculated from a difference between the silica concentration and the silica solubility, the feeding speed of the boiler water, and a retained water quantity of the boiler to the silica concentration.
    • 要解决的问题:降低锅炉厂的初始引入成本和维护成本。解决方案:一种用于估计锅炉水1中的二氧化硅浓度的装置,用于具有锅炉7和循环管线34的锅炉设备2, 将蒸汽冷凝成水并将其返回到锅炉7,包括:锅炉水温计33,用于测量锅炉内的温度; 用于测量锅炉内的压力的锅炉内部压力计32; 用于测量锅炉水的进料速度的第一流量计22; 用于储存锅炉水的二氧化硅浓度的二氧化硅浓度贮存部41; 和二氧化硅溶解度计算装置42,以从温度和压力计算二氧化硅在蒸汽中的溶解度。 当二氧化硅浓度存储部分41中存储的二氧化硅浓度大于二氧化硅溶解度时,用于估计锅炉水1中的二氧化硅浓度的装置通过添加计算出的二氧化硅浓度的增加来更新存储在二氧化硅浓度存储部分41中的二氧化硅浓度 从二氧化硅浓度和二氧化硅溶解度之间的差异,锅炉水的进料速度和锅炉的保留水量到二氧化硅浓度。
    • 9. 发明专利
    • Contaminated soil cleaning apparatus, and contaminated water cleaning method and apparatus therefor
    • 污染土壤清洁装置和污染水清洗方法及其装置
    • JP2005103417A
    • 2005-04-21
    • JP2003339450
    • 2003-09-30
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAMAZAKI AKIHIROHATANO SHIGEKAZUKAWAMURA WATARUUEJIMA NAOYUKIARIKAWA KIWAMUEITO TORUTERAKURA SEIICHISUZUKI HIDEOIWABUCHI HIROYUKIHIRAO MASASHIWATANABE ICHIRO
    • B09C1/02B01D3/00B01D3/36B01D17/00B01D19/00B09C1/08C02F1/04C02F1/20C02F1/28C02F1/44
    • PROBLEM TO BE SOLVED: To provide a contaminated soil cleaning apparatus which can greatly improve an efficiency in a cleaning treatment of soil contaminated with a harmful organic matter.
      SOLUTION: The contaminated soil cleaning apparatus is equipped with the following: a mixing tank 110 for mixing soil 1 with a partially water-soluble cleaning solvent 5 to form a slurry 6; a cleaning tower 120 through which the cleaning solvent 5 flows from below to above and the slurry 6 flows from above to below; a seal tank 130 which is linked to the lower part of the cleaning tower 120 and contains water; a soil after-treatment tank 140 which is linked to the seal tank 130 and dries recovered soil 1; a first specific gravity separation tank 150 which is linked to above the cleaning tower 120 and subjects the cleaning solvent 5 and water, sent from the cleaning tower 120, to separation by specific gravity; and a distillation apparatus 160 which subjects the cleaning solvent 5 separated by the first specific gravity separation tank 150 to distillation to separate into the cleaning solvent 5, water 3, and a condensate containing a harmful organic matter 2.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供污染的土壤清洁装置,其可以大大提高对有害有机物污染的土壤的清洁处理的效率。 污染土壤清洁装置配备有:混合槽110,用于将土壤1与部分水溶性清洗溶剂5混合以形成浆料6; 清洗塔120通过清洗溶剂5从下流到上面,浆料6从上流到下面; 密封罐130,其连接到清洁塔120的下部并且包含水; 与密封箱130连接并干燥回收的土壤1的土壤后处理罐140; 第一比重分离罐150,其连接到清洁塔120上方,并将清洁溶剂5和从清洗塔120送出的水进行比重分离; 以及蒸馏装置160,其使由第一比重分离罐150分离的清洗溶剂5蒸馏以分离成清洗溶剂5,水3和含有有害物质的冷凝物。版权所有(C) )2005年,日本特许厅和NCIPI
    • 10. 发明专利
    • Method for purifying contaminated soil by solvent
    • 溶剂净化污染土壤的方法
    • JP2003080219A
    • 2003-03-18
    • JP2001272367
    • 2001-09-07
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HAMAZAKI AKIHIROYAMAUCHI SUMIOARIKAWA KIWAMU
    • B09C1/02B01D11/02B01D15/00B09B3/00B09C1/08
    • PROBLEM TO BE SOLVED: To provide a method for purifying contaminated soil by which purification is uniformly performed and withdrawal of a solvent does not require much time.
      SOLUTION: A valve 54 of a pipe 61 is shut and purified solvent is fed to an extraction tower 10 store prescribed amount of the solvent therein by a pump 53 from a purified solvent tank 40. When the prescribed amount of the solvent is stored in the extraction tower, the contaminated soil 1 is charged in the solvent. After a prescribed time, the valve is opened, a pump 51 is operated, the solvent containing a pollutant is poured into a discharged solvent tank 20. When the solvent is stored to a certain extent therein, a pump 52 is operated and the solvent is made to pass through a purifying tank 30 to remove the pollutant and then is sent and is stored in the purified solvent tank 40. The soil from which the pollutant is removed, is taken out by rotating the extraction tower 10 by using a forklift, for example.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种净化均匀地进行污染的污染物的方法,溶剂的抽出不需要很多时间。 解决方案:关闭管道61的阀54,并将纯化溶剂通过泵53从净化溶剂罐40供给到提取塔10中以储存规定量的溶剂。当将规定量的溶剂储存在 提取塔,将污染的土壤1装入溶剂中。 在规定时间后,打开阀门,操作泵51,将含有污染物的溶剂倒入排出的溶剂罐20中。当溶剂在一定程度上被储存时,泵52运行,溶剂为 使其通过净化池30以除去污染物,然后送出并储存在净化溶剂罐40中。通过使用叉车旋转提取塔10,将去除污染物的土壤取出,用于 例。