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
    • PRODUCTION OF SATURATED AMMONIA STORAGE MATERIALS
    • 生产饱和的氨氮储存材料
    • US20120039788A1
    • 2012-02-16
    • US13260455
    • 2010-04-13
    • Johnny JohansenHenrik Wagner-PedersenJakob SvaginTue JohannessenUlrich Quaade
    • Johnny JohansenHenrik Wagner-PedersenJakob SvaginTue JohannessenUlrich Quaade
    • C01C1/00
    • C09K5/04C01C1/006
    • A process for saturating a solid material capable of binding ammonia by ad- or absorption and initially free of ammonia or partially saturated with ammonia comprises treating said solid material under a pressure and associated temperature located on the vapor pressure curve of ammonia with an amount of liquid ammonia sufficient to saturate said solid material and an additional amount of a cooling agent selected from liquid ammonia, liquid or solid CO2, hydrocarbons and hydrohalocarbons that have a higher vapour pressure than ammonia, ethyl ether, methyl formate, methyl amine and ethyl amine, such that |Qabs|≦|Qevap|+Qext, wherein Qabs is the amount of heat released from said solid material when it absorbs ammonia from the liquid phase thereof to the point where it is saturated with ammonia, Qevap is the amount of heat absorbed by said cooling agent when it evaporates, and Qext is the amount of heat exchanged with the surroundings and is positive, if heat is removed from the process by external cooling, and negative, if heat is added to the process from the surroundings.
    • 使能够通过吸收和吸收结合氨并且最初不含氨或部分被氨饱和的固体材料饱和的方法包括在氨的蒸气压曲线下的压力和相关温度下处理所述固体材料,其量为一定量的液体 足以使所述固体材料饱和的氨和额外量的选自液态氨,液体或固体CO 2,烃和氢卤素的冷却剂,其具有比氨,乙醚,甲酸甲酯,甲胺和乙胺更高的蒸气压, 其中Q abs是从其液相吸收氨到氨被氨饱和的点时从所述固体物质释放的热量,Qevap是吸收的热量 当所述冷却剂蒸发时,Qext是与周围环境交换的热量并且是正的,如果从工艺中除去热量 通过外部冷却,如果从周围环境中加入热量,则为负值。
    • 6. 发明授权
    • Release of stored ammonia at start-up
    • 储存氨在启动时释放
    • US08491842B2
    • 2013-07-23
    • US12553173
    • 2009-09-03
    • Johnny JohansenJan OechsleHenning SchmidtTue JohannessenJakob Svagin
    • Johnny JohansenJan OechsleHenning SchmidtTue JohannessenJakob Svagin
    • B01J19/00G05D23/00G05D16/00
    • C01C1/006B01D2251/2062B01D2258/012B01D2258/014B01D2258/018F01N3/208F01N2610/02F01N2610/06F01N2610/10F01N2610/1406F01N2900/1808H01M8/04216H01M8/0606H01M8/222Y02T10/24
    • A system for storage and dosing of ammonia, including a solid ammonia storage material capable of binding and releasing ammonia reversibly by adsorption/absorption. The system is able to release ammonia gradually according to a demand that can vary over time with intermediate periods of no ammonia demand. A main storage unit and a start-up storage unit are provided. The storage units hold ammonia storage material. At least one one-way valve is provided via which the one main storage unit is in communication with the start-up storage unit. The one-way valve prevents any back-flow of ammonia from the start-up storage unit to the main storage unit. Heating devices are arranged to heat the main storage unit and the start-up storage unit separately to generate gaseous ammonia by thermal desorption from the solid storage material. A controller controls the heating power of the main storage unit and the start-up storage unit, thereby enabling ammonia release from at least one of the start-up and/or the main storage unit. A dosing valve controls ammonia flow from the storage units according to a demand.
    • 用于存储和计量氨的系统,包括能够通过吸附/吸收可逆地结合和释放氨的固体氨储存材料。 该系统能够根据随时间变化的需求逐渐释放氨,而不需要氨中期。 提供主存储单元和启动存储单元。 储存装置容纳氨储存材料。 提供至少一个单向阀,一个主存储单元通过该单向阀与启动存储单元连通。 单向阀防止氨从启动存储单元向主存储单元的逆流。 加热装置被布置成分开地加热主存储单元和启动存储单元,以通过从固体存储材料的热解吸产生气态氨。 控制器控制主存储单元和启动存储单元的加热功率,从而能够从启动和/或主存储单元中的至少一个释放氨。 计量阀根据需要控制存储单元的氨流量。
    • 9. 发明申请
    • Production of Saturated Ammonia Storage Materials
    • 生产饱和氨储存材料
    • US20100266475A1
    • 2010-10-21
    • US12576582
    • 2009-10-09
    • Johnny JohansenHenrik Wagner-PedersenJakob SvaginTue JohannessenUlrich J. Quaade
    • Johnny JohansenHenrik Wagner-PedersenJakob SvaginTue JohannessenUlrich J. Quaade
    • C01C1/00
    • C01C1/006C01F5/30C01F11/24
    • A process for saturating a material capable of binding ammonia by ad- or absorption and initially free of ammonia or partially saturated with ammonia comprises treating said material under a pressure and associated temperature located on the vapor pressure curve of ammonia with an amount of liquid ammonia sufficient to saturate said material and an additional amount of a cooling agent selected from liquid ammonia, liquid or solid CO2, hydrocarbons and hydrohalocarbons that have a higher vapour pressure than ammonia, ethyl ether, methyl formate, methyl amine and ethyl amine, such that |Qabs|≦|Qevap|+Qext, wherein Qabs is the amount of heat released from said material when it absorbs ammonia from the liquid phase thereof to the point where it is saturated with ammonia, Qevap is the amount of heat absorbed by said cooling agent when it evaporates, and Qext is the amount of heat exchanged with the surroundings and is positive, if heat is removed from the process by external cooling, and negative, if heat is added to the process from the surroundings.
    • 使能够通过吸收和吸收结合氨并且最初不含氨或部分被氨饱和的材料饱和的材料的方法包括在氨的蒸气压曲线下的压力和相关温度下处理所述材料,其量足够的液氨 使所述材料饱和并加入选自液氨,液态或固体二氧化碳,碳氢化合物和氢卤素的冷却剂,其蒸汽压高于氨,乙醚,甲酸甲酯,甲胺和乙胺,使得| Qabs |≦̸ | Qevap | + Qext,其中Q abs是当从其液相吸收氨到其被氨饱和的点时从所述材料释放的热量,Qevap是由所述冷却剂吸收的热量 当它蒸发时,并且Qext是与周围环境交换的热量并且是正的,如果通过外部冷却从工艺中除去热量,则 如果从周围环境中加入热量,则为负值。
    • 10. 发明授权
    • Production of saturated ammonia storage materials
    • 生产饱和氨储存材料
    • US08084008B2
    • 2011-12-27
    • US12576582
    • 2009-10-09
    • Johnny JohansenHenrik Wagner-PedersenJakob SvaginTue JohannessenUlrich J. Quaade
    • Johnny JohansenHenrik Wagner-PedersenJakob SvaginTue JohannessenUlrich J. Quaade
    • C01C1/00B01D53/56C09K3/00
    • C01C1/006C01F5/30C01F11/24
    • A process for saturating a material capable of binding ammonia by ad- or absorption and initially free of ammonia or partially saturated with ammonia comprises treating said material under a pressure and associated temperature located on the vapor pressure curve of ammonia with an amount of liquid ammonia sufficient to saturate said material and an additional amount of a cooling agent selected from liquid ammonia, liquid or solid CO2, hydrocarbons and hydrohalocarbons that have a higher vapor pressure than ammonia, ethyl ether, methyl formate, methyl amine and ethyl amine, such that |Qabs|≦|Qevap|+Qext, wherein Qabs is the amount of heat released from said material when it absorbs ammonia from the liquid phase thereof to the point where it is saturated with ammonia, Qevap is the amount of heat absorbed by said cooling agent when it evaporates, and Qext is the amount of heat exchanged with the surroundings and is positive, if heat is removed from the process by external cooling, and negative, if heat is added to the process from the surroundings.
    • 使能够通过吸收和吸收结合氨并且最初不含氨或部分被氨饱和的材料饱和的材料的方法包括在氨的蒸气压曲线下的压力和相关温度下处理所述材料,其量足够的液氨 使所述材料饱和并加入选自液氨,液态或固体二氧化碳,碳氢化合物和氢卤素的冷却剂,其蒸汽压高于氨,乙醚,甲酸甲酯,甲胺和乙胺,使得| Qabs |≦̸ | Qevap | + Qext,其中Q abs是当从其液相吸收氨到其被氨饱和的点时从所述材料释放的热量,Qevap是由所述冷却剂吸收的热量 当它蒸发时,并且Qext是与周围环境交换的热量并且是正的,如果通过外部冷却从该过程中除去热量,以及 如果从周围环境中加热加热,则为负值。