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    • 3. 发明专利
    • Dehumidification filter, desiccant air-conditioner using this dehumidification filter and air-conditioning method
    • 除湿过滤器,使用此除湿过滤器的空气调节器和空调方法
    • JP2010115643A
    • 2010-05-27
    • JP2009240716
    • 2009-10-19
    • Fuji Slate KkHokkaido UnivShizen Sozai Kenkyusho:KkWakkanai Green Factory:Kk国立大学法人北海道大学富士スレート株式会社有限会社稚内グリーンファクトリー株式会社自然素材研究所
    • NAGANO KATSUNORINAKABAYASHI SAYAYOSHIDA SHIGEOTOGAWA JUNYAKUROKAWA ASAMIMABUCHI YUZOMABUCHI ISATO
    • B01D53/28B01D53/26B01J20/12F24F3/14
    • PROBLEM TO BE SOLVED: To provide a dehumidification filter which has high dehumidifying function and the capability to easily and certainly regenerate itself at a lower temperature than conventionally set and ideally at normal temperatures and is very useful in terms of energy saving and device miniaturization, when this filter is applied to a desiccant rotor. SOLUTION: This dehumidification filter has the characteristics: a dehumidifying material formed of siliceous shale with numerous pores having an average pore diameter of 3-18 nm and a specific surface area of not less than 80 m 2 /g, is made to deposit on or to be included in a base material to be used for a desiccant rotor of a desiccant air-conditioner. The dehumidifying material is left at rest for 24 hours under environments at a temperature of 40°C and a relative humidity of 30%, and then is left at rest for two hours under environments at a temperature of 30°C and a relative humidity of 75%. In this case, the dehumidifying material shows a mass increase of not less than 60 mg/g. In addition, the dehumidifying material shows a mass decrease of not less than 60 mg/g when it is left at rest for two hours under environments at a temperature of 40°C and at a relative humidity of 30%. Besides, a deliquescent material adheres to, at least, the interior of the pore of the siliceous shale showing the difference between the mass increase and the mass decrease of not more than 20 mg/g. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种具有高除湿功能的除湿过滤器,并且能够在比常规设定的温度更低的温度下容易且可靠地再生,并且在正常温度下理想地再生,并且在节能和装置方面非常有用 当将该过滤器应用于干燥剂转子时,小型化。 解决方案:该除湿过滤器具有以下特征:由硅质页岩形成的除湿材料,具有许多孔,平均孔径为3-18nm,比表面积不小于80m 2 SP SP > / g,沉积在干燥剂空调器的干燥剂转子所用的基材中或被包含在基材中。 将除湿材料在温度40℃,相对湿度30%的环境下静置24小时,然后在30℃的温度和相对湿度的环境下静置2小时 75%。 在这种情况下,除湿材料的质量增加量不小于60mg / g。 此外,当在40℃的温度和30%的相对湿度的环境下静置2小时时,除湿材料的质量减少量不小于60mg / g。 此外,潮解材料至少粘附在硅质页岩的孔内,显示质量增加与质量减少之间的差异不超过20mg / g。 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Method of manufacturing particulate siliceous shale material, and particulate siliceous shale material obtained by the method
    • 制造颗粒状硅质材料的方法和方法获得的颗粒状硅质材料
    • JP2014144423A
    • 2014-08-14
    • JP2013014302
    • 2013-01-29
    • Hokkaido Univ国立大学法人北海道大学Wakkanai Green Factory:Kk有限会社稚内グリーンファクトリー
    • NAGANO KATSUNORITOGAWA JUNYA
    • B01J20/30B01D53/28B01J20/12B02C13/13
    • PROBLEM TO BE SOLVED: To provide a Wakkanai-layer siliceous shale material with higher quality which enables utilization in a wide range, exerts higher absorption and desorption of moisture, and further enables providing a product with a new bright color tone by converting Wakkanai-layer siliceous shale to fine particles having a sharp particle distribution and a particle size of not greater than 20 μm.SOLUTION: A method of manufacturing a siliceous shale material is to directly obtain a particulate siliceous shale material having a sharp particle size distribution by a dry pulverizing method. The method of manufacturing a siliceous shale material includes pulverizing coarse particles of Wakkanai-layer siliceous shale as a raw material with a dry-type pulverizing machine having a nozzle-discharging mechanism for separating and removing hard-to-grind matter while pulverizing the raw material, and separating and removing a hard-to-grind part, which is relatively hard to be ground, composing the Wakkanai-layer siliceous shale raw material to obtain the particulate siliceous shale material having an average particle size of not greater than 20 μm, and a maximum particle size of 50 μm.
    • 要解决的问题:为了提供更高质量的稚内层硅质页岩材料,其能够在较宽范围内利用,发挥更高的吸湿和解吸作用,并且还可以通过将稚内层转化为具有新的亮色调的产品 硅质页岩具有尖锐的颗粒分布和不大于20μm的颗粒尺寸的细颗粒。解决方案:制造硅质页岩材料的方法是通过干式粉碎直接获得具有尖锐粒度分布的颗粒状硅质页岩材料 方法。 制造硅质页岩材料的方法包括用干式粉碎机将稚内层硅质页岩粗颗粒粉碎成具有用于在粉碎原料的同时分离除去难以研磨物质的喷嘴排出机构 ,并分离除去相对难以研磨的难研磨部分,构成稚内层硅质页岩原料,得到平均粒径不大于20μm的颗粒状硅质页岩材料,以及 最大粒径为50μm。