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    • 41. 发明申请
    • ENVIRONMENTAL CLEAN-UP SYSTEM
    • 环境清洁系统
    • WO2005037454A2
    • 2005-04-28
    • PCT/US2004/034990
    • 2004-10-14
    • VAPOR TECH, INC.REINHARDT, Aldon R.
    • REINHARDT, Aldon R.
    • B08B
    • F22B1/26B09C1/06F23G5/40F23G7/14F23G2203/601F23G2203/8013F28D7/106F28D2021/0045F28F5/00
    • An efficient high-temperature water vapor generator is used to de-contaminate soil. The vapor generator includes a combustion chamber and a surrounding structure, wherein a cavity is located therebetween. Water is routed through the cavity into the combustion chamber, where water vapor and heat are generated in the presence of fuel, ignition and air. Generated heat pre-heats the water in the cavity, thereby creating an efficient system. The water vapor is forced into a vapor tube (which has openings for emitting the vapor), thereby heating the vapor tube to temperatures of 800oF or greater. A soil tube having lifting paddles located therein surrounds the vapor tube. Contaminated soil enters one end of the soil tube. The soil tube is rotated, thereby moving the contaminated soil into contact with the vapor tube (decontaminating the soil). Lifting paddles move the soil toward the second end of the rotating soil tube.
    • 使用高效的高温水汽发生器去除污染土壤。 蒸汽发生器包括燃烧室和周围结构,其中腔位于其间。 水通过空腔进入燃烧室,在燃料,点燃和空气的存在下产生水蒸气和热量。 产生的热量预热空腔中的水,从而形成有效的系统。 水蒸气被迫进入蒸汽管(其具有用于发射蒸气的开口),从而将蒸气管加热至800°F或更高的温度。 具有位于其中的提升桨的土壤管围绕蒸气管。 受污染的土壤进入土壤管的一端。 土壤管被旋转,从而使污染的土壤与蒸汽管接触(净化土壤)。 提升桨将土壤移动到旋转土壤管的第二端。
    • 42. 发明申请
    • DEVICE FOR PREHEATING OF POWDER
    • 用于预热粉末的装置
    • WO01098007A1
    • 2001-12-27
    • PCT/SE2001/001428
    • 2001-06-20
    • B22F1/00F27D3/00F27D13/00F28D7/02F28D7/10B22F3/00F27B9/08
    • F28D7/024B22F1/0085B22F2999/00F27D3/0025F27D13/00F28D7/106F28D2021/0045B22F3/004
    • A device (1) for preheating of powder (12), especially metal powder, in immediate connection with the filling of a mould. The device comprises an inlet (7), an outlet (8), an outer tubular means (2) and, arranged in the outer tubular means (2), an inner tubular means (3). The tubular means (2, 3) are arranged relative to each other in such manner that a vertically throughgoing gap (4) is formed between the inner circumferential surface of the outer means (2) and the outer circumferential surface of the inner means (3). The circumferential surfaces constitute heating surfaces (5) so that a flow of powder (12) falling through the gap (4) is heated to a predetermined outlet temperature over essentially the entire cross-section of the gap.
    • 一种用于预热粉末(12),特别是金属粉末的装置(1),其与模具的填充直接相关。 该装置包括入口(7),出口(8),外部管状装置(2),并且布置在外部管状装置(2)中,内部管状装置(3)。 管状装置(2,3)相对于彼此布置成使得在外部装置(2)的内周表面和内部装置(3)的外周表面之间形成垂直通过的间隙(4) )。 圆周表面构成加热表面(5),使得落在间隙(4)中的粉末(12)的流动基本上在间隙的整个横截面上被加热到预定的出口温度。
    • 43. 发明申请
    • INDIRECT-HEAT THERMAL PROCESSING OF BULK SOLIDS
    • 块状固体的间接热处理
    • WO2017024374A1
    • 2017-02-16
    • PCT/CA2015/050770
    • 2015-08-13
    • SOLEX THERMAL SCIENCE INC.
    • BYMAN, Ashley D.
    • F28F3/14F26B17/00F26B3/084F28D9/00
    • F26B15/12F26B17/16F26B23/06F28D9/00F28D2021/0045F28F3/14F28F9/001F28F21/083F28F27/00F28F2265/02
    • An indirect-heat thermal processor for processing bulk solids includes a housing including an inlet for receiving the bulk solids and an outlet for discharging the bulk solids and a plurality of heat transfer plate assemblies disposed between the inlet and the outlet and arranged in spaced relationship for the flow of the bulk solids that flow from the inlet, between the heat transfer plate assemblies, to the outlet. The heat transfer plate assemblies include a heat spreader, a heating element disposed adjacent the heat spreader, a temperature detection device spaced from the heating element and disposed adjacent the heat spreader, covers disposed on opposing sides of the heat spreader, the heating element, and the temperature detection device to provide a sandwiched assembly in which the heat spreader, the heating element, and the temperature detection device are sandwiched between the covers, heating element couplings coupled to the heating element and extending from the sandwiched assembly for controlling the heating element, and a connector coupled to the temperature detection device and extending from the sandwiched assembly for monitoring a temperature at the temperature detection device.
    • 用于处理散装固体的间接热处理器包括壳体,其包括用于接收散装固体的入口和用于排出散装固体的出口和设置在入口和出口之间的多个传热板组件, 在传热板组件之间从入口流出的散装固体的流动到出口。 传热板组件包括散热器,邻近散热器设置的加热元件,与加热元件间隔开并设置在散热器附近的温度检测装置,设置在散热器相对侧的盖,加热元件和 所述温度检测装置提供其中所述散热器,所述加热元件和所述温度检测装置夹在所述盖之间的夹持组件,耦合到所述加热元件并从所述夹持组件延伸用于控制所述加热元件的加热元件联接器, 以及连接到所述温度检测装置并从所述夹持组件延伸以用于监测所述温度检测装置处的温度的连接器。
    • 50. 发明申请
    • ENVIRONMENTAL CLEAN-UP SYSTEM
    • 环境清洁系统
    • WO2005037454A3
    • 2006-04-20
    • PCT/US2004034990
    • 2004-10-14
    • VAPOR TECH INCREINHARDT ALDON R
    • REINHARDT ALDON R
    • A62D3/00B08B20060101B09C1/06F22B1/26F23G5/40F23G7/14F28D7/10F28F5/00F22B11/02
    • F22B1/26B09C1/06F23G5/40F23G7/14F23G2203/601F23G2203/8013F28D7/106F28D2021/0045F28F5/00
    • An efficient high-temperature water vapor generator (100) is used to de-contaminate soil. The vapor generator includes a combustion chamber (130) and a surrounding structure (101), wherein a cavity (131) is located therebetween. Water is routed through the cavity (131) and into the combustion chamber, where water vapor and heat are generated in the presence of fuel, ignition and air. The generated heat pre-heats the water in the cavity, thereby creating an efficient system. The water vapor is forced into a vapor tube (313) (which has openings for emitting the vapor), thereby heating the vapor tube to temperatures of 800 degrees (F) or greater. A soil tube (324) having lifting paddles (1-4) located therein surrounds the vapor tube. Contaminated soil enters one end of the soil tube. The soil tube is rotated, thereby moving the contaminated soil into contact with the vapor tube (decontaminating the soil). Lifting paddles move the soil toward the second end of the rotating soil tube.
    • 使用高效的高温水蒸汽发生器(100)去除污染土壤。 蒸汽发生器包括燃烧室(130)和周围结构(101),其中空腔(131)位于它们之间。 水通过空腔(131)并进入燃烧室,在燃料,点火和空气的存在下产生水蒸汽和热。 产生的热量预热空腔中的水,从而形成有效的系统。 水蒸汽被迫进入蒸气管(313)(其具有用于发射蒸气的开口),从而将蒸气管加热至800度(F)以上的温度。 具有位于其中的提升桨(1-4)的土壤管324绕着蒸汽管。 受污染的土壤进入土壤管的一端。 土壤管被旋转,从而使污染的土壤与蒸汽管接触(净化土壤)。 提升桨将土壤移动到旋转土壤管的第二端。