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
    • 5. 发明申请
    • AMMONIA SYNTHESIS METHOD
    • 氨基酸合成方法
    • US20160152483A1
    • 2016-06-02
    • US14905355
    • 2013-08-08
    • Shinichi TAKESHIMA
    • Shinichi Takeshima
    • C01C1/04C01B3/04C01B3/02
    • C01C1/04C01B3/025C01B3/042C01C1/0405Y02E60/364Y02P20/134Y02P20/52
    • According to the present invention there is provided an ammonia synthesis method using solar thermal energy, whereby it is possible to minimize the load of collecting solar thermal energy, and especially high-temperature solar thermal energy. The method of the present invention for synthesis of ammonia using solar thermal energy includes the following steps (a) to (c): (a) conducting ammonia synthesis reaction in which nitrogen and hydrogen are reacted to synthesize ammonia, (b) heating a heating medium by solar thermal energy and the reaction heat energy of the ammonia synthesis reaction, and (c) conducting at least part of the water splitting reaction in which water is split into hydrogen and oxygen, using the thermal energy of the heated heating medium, to obtain the hydrogen.
    • 根据本发明,提供了一种使用太阳能热能的氨合成方法,由此可以最小化收集太阳能热能的负荷,特别是高温太阳能热能。 本发明使用太阳能热能合成氨的方法包括以下步骤(a)至(c):(a)进行氨合成反应,其中使氮和氢反应合成氨,(b)加热 介质由太阳热能和氨合成反应的反应热能,以及(c)使用加热的加热介质的热能将水分解成氢和氧的至少一部分水分解反应进行至 获得氢气。
    • 6. 发明申请
    • HYDROGEN PRODUCTION PROCESS
    • 氢生产过程
    • US20130330269A1
    • 2013-12-12
    • US13996147
    • 2011-12-07
    • Shinichi TakeshimaNorihiko Nakamura
    • Shinichi TakeshimaNorihiko Nakamura
    • C01B3/06
    • C01B3/068C01B17/502C01B17/503Y02E60/36Y02P20/134
    • A method for producing hydrogen from water is provided. The hydrogen production process includes splitting water into hydrogen and oxygen, wherein the process includes decomposing sulfuric acid into water, sulfur dioxide and oxygen through a reaction of formula (X1) by using solar thermal energy, wherein at least a part of the elementary reaction of formula (X1-1) is performed using thermal solar energy, and at least a part of the elementary reaction of formula (X1-2) is performed using additional thermal energy other than solar thermal energy, and wherein the heating temperature by the additional thermal energy is higher by 10° C. or more than the heating temperature by the solar thermal energy, and at least a part of the additional thermal energy is generated in a reaction vessel: (X1) H2SO4→H2O+SO2+1/2O2, (X1−1) H2SO4→H2O+SO3, and (X1−2) SO3→SO2+1/2O2
    • 提供了一种从水中生产氢的方法。 氢气生产过程包括将水分解成氢气和氧气,其中该方法包括通过使用太阳能热能将式(X 1)的反应将硫酸分解成水,二氧化硫和氧,其中至少一部分基本反应为 使用热太阳能进行式(X1-1),并且使用除了太阳能热能之外的附加热能进行式(X1-2)的至少一部分元素反应,并且其中通过附加热量的加热温度 能量通过太阳能热能高于加热温度10℃或更高,并且在反应容器中产生至少一部分附加热能:(X1)H 2 SO 4→H 2 O + SO 2 + 1 / 2O 2 ,(X1-1)H2SO4-> H2O + SO3,(X1-2)SO3-> SO2 + 1 / 2O2
    • 9. 发明申请
    • METHOD FOR GLYCOSYLATING AND SEPARATING PLANT FIBER MATERIAL
    • 用于糖化和分离植物纤维材料的方法
    • US20110105744A1
    • 2011-05-05
    • US12995809
    • 2009-06-02
    • Shinichi TakeshimaTakeshi Kikuchi
    • Shinichi TakeshimaTakeshi Kikuchi
    • C07H1/08
    • C13K1/02
    • The invention relates to a method for hydrolyzing a plant fiber material and producing and separating a saccharide including glucose. The method of the invention includes a hydrolysis process of using a cluster acid catalyst in a pseudo-molten state to hydrolyze cellulose contained in the plant fiber material and produce glucose. In the hydrolysis process, the cluster acid catalyst and a first amount of the plant fiber material that increases a viscosity of the cluster acid catalyst in a pseudo-molten state when added to the cluster acid catalyst in a pseudo-molten state are heated and mixed, and a second amount of the plant fiber material is then further added when the decrease in viscosity of the heated mixture occurs.
    • 本发明涉及水解植物纤维材料并生产和分离包括葡萄糖的糖类的方法。 本发明的方法包括使用假熔融状态的簇酸催化剂水解纤维素中所含的纤维素并产生葡萄糖的水解方法。 在水解过程中,将加入到熔融状态的聚氨酯催化剂中的模拟熔融状态下的聚氨酯酸催化剂的粘度增加的簇酸催化剂和第一量的植物纤维材料加热混合 然后当加热的混合物的粘度降低时,进一步添加第二量的植物纤维材料。