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    • 1. 发明授权
    • Method for waste vitrification
    • 废玻璃化方法
    • US07108808B1
    • 2006-09-19
    • US07510556
    • 1990-04-18
    • Ray S. Richards
    • Ray S. Richards
    • G21F9/16
    • G21F9/305C03B5/005C03B5/027C03B5/033C03B5/1875C03B5/26C03B5/265Y02P40/52Y02P40/57
    • A waste vitrification apparatus (10) having rotatable mixer impeller (16) functioning as a shaft electrode (60) and metallic vessel (14) functioning as a vessel electrode (62). A stream (12) of waste material and vitrifiable material are mixed and melted in the vessel (14) for vitrification. The waste vitrification method converts a feed stream (12) by mixing the feed stream into a glass melt (13) and melting glass batch of the feed stream (12) to form a foamy mass. The stream is dispersed by the impeller (16) to form a foam which is then densified in a settling zone (22), recovered through a spout (24) and solidified in storage containers. Means are provided to adjust the location of the mixing impeller (16) in the vessel (14) to change the depth of the settling zone (22). The impeller (16) is mounted on a drive shaft (18) having a recirculating coolant flow.
    • 一种具有用作轴电极(60)的旋转混合器叶轮(16)和用作容器电极(62)的金属容器(14)的废玻璃化装置(10)。 将废物和玻璃化物质的料流(12)混合并熔化在容器(14)中用于玻璃化。 废玻璃化方法通过将进料流混合到玻璃熔体(13)中并将进料流(12)的熔融玻璃批料混合以形成泡沫体来转化进料流(12)。 流由叶轮(16)分散以形成泡沫,然后在沉降区(22)中致密化,通过喷口(24)回收并固化在储存容器中。 提供了用于调节容器(14)中的混合叶轮(16)的位置以改变沉降区(22)的深度的装置。 叶轮(16)安装在具有循环冷却剂流的驱动轴(18)上。
    • 4. 发明授权
    • Method for recycling scrap mineral fibers
    • 回收废矿物纤维的方法
    • US5100453A
    • 1992-03-31
    • US665678
    • 1991-03-07
    • Ray S. Richards
    • Ray S. Richards
    • B09B3/00C03B3/00C03B5/00C03B5/027C03B5/187C03B37/10C03C1/00
    • C03B5/005C03B3/00C03B37/10C03B5/0272
    • A method and apparatus for recycling scrap mineral fibers (42) having an organic binder coating in a highly stirred glass melter (16) wherein the organic binder coating is decomposed by applying heat. Carbon from the organic binder coating is oxidized on the surface of the glass melt (17). After oxidizing the carbon, the glass fibers are dispersed into the melt. Residual carbon may be oxidized after inclusion in the melt. Purified glass suitable for forming glass fibers is further processed by conventional glass fiber forming equipment. The method may also include the step of pre-processing the glass fiber scrap by shredding or pulverizing to facilitate feeding the glass fiber scrap to the highly stirred glass melt. The apparatus according to the present invention is preferably a stirred melter (16) having electrical joule effect heating. An impeller (22) in the glass melt stirs the melt at a high rate of speed to provide a draw down effect pulling fibers into melt.
    • 一种用于在高度搅拌的玻璃熔化器(16)中回收具有有机粘合剂涂层的废矿物纤维(42)的方法和装置,其中通过施加热分解有机粘合剂涂层。 来自有机粘合剂涂层的碳在玻璃熔体(17)的表面上被氧化。 氧化碳后,玻璃纤维分散在熔体中。 残余碳在熔融物中包含后可能被氧化。 用于形成玻璃纤维的纯化玻璃通过常规玻璃纤维成形设备进一步加工。 该方法还可以包括通过粉碎或粉碎来预处理玻璃纤维废料以便于将玻璃纤维废料送入高度搅拌的玻璃熔体的步骤。 根据本发明的装置优选是具有电焦耳效应加热的搅拌式熔化器(16)。 玻璃熔体中的叶轮(22)以高速度搅拌熔体以提供将纤维拉入熔体中的拉伸效应。
    • 7. 发明授权
    • Hazardous waste melter
    • 有害废料胶机
    • US5319669A
    • 1994-06-07
    • US823991
    • 1992-01-22
    • Stephen F. CoxRay S. Richards
    • Stephen F. CoxRay S. Richards
    • C03B5/00C03B5/027C03B5/16
    • C03B5/26C03B5/005C03B5/027C03B5/16Y02P40/52
    • An apparatus for processing various hazardous waste materials by melting in a vessel for subsequent solidification is disclosed which includes a seal for the cover thereof. Melter includes a high-speed mixing impeller powered by a drive shaft which extends through an opening in the cover. The vessel is electrically heated by discharge of electrical energy through the melt contained in the vessel. In one embodiment the impeller and shaft are included in the electrical heating circuit. A shaft seal engages the shaft at a point spaced from the cover. An axially extensible seal seals a space bounded by the shaft seal and the opening in the cover. Purge gas is supplied to the sealed space to provide positive gas flow from the sealed space into the vessel. A cold wall transport duct for off-gas porting is disclosed. A bottom drain structure including a sleeve and plug is also disclosed. The output of the melter may be subsequently heated in a holding tank to refine the output.
    • 公开了一种用于通过在容器中熔化以用于随后的凝固来处理各种有害废料的装置,其包括用于其盖的密封件。 胶机包括由驱动轴驱动的高速混合叶轮,其延伸穿过盖中的开口。 通过将容纳在容器中的熔体排出电能来对容器进行电加热。 在一个实施例中,叶轮和轴包括在电加热回路中。 轴密封件在与盖隔开的点处接合轴。 轴向可延伸的密封件密封由轴封和盖中的开口限定的空间。 吹扫气体被供应到密封空间,以提供从密封空间进入容器的正气流。 公开了用于废气输送的冷壁输送管道。 还公开了一种包括套管和塞子的底部排水结构。 熔化器的输出可以随后在储存罐中加热以改善输出。
    • 9. 发明授权
    • Method and apparatus for waste vitrification
    • 废玻璃化的方法和设备
    • US07120185B1
    • 2006-10-10
    • US07785776
    • 1991-10-31
    • Ray S. Richards
    • Ray S. Richards
    • C03B5/027
    • G21F9/305C03B5/005C03B5/027C03B5/033C03B5/1875C03B5/26Y02P40/52Y02P40/57Y10S422/903
    • A waste vitrification apparatus (10) having rotatable mixer impeller (16) functioning as a shaft electrode (60) and metallic vessel (14) functioning as a vessel electrode (62). A stream (12) of waste material and vitrifiable material are mixed and melted in the vessel (14) for vitrification. The waste vitrification method converts a feed stream (12) by mixing the feed stream into a glass melt (13) and melting glass batch of the feed stream (12) to form a foamy mass. The stream is dispersed by the impeller (16) to form a foam which is then densified in a settling zone (22), recovered through a spout (24) and solidified in storage containers. Means are provided to adjust the location of the mixing impeller (16) in the vessel (14) to change the depth of the settling zone (22). The impeller (16) is mounted on a drive shaft (18) having a recirculating coolant flow.
    • 一种具有用作轴电极(60)的旋转混合器叶轮(16)和用作容器电极(62)的金属容器(14)的废玻璃化装置(10)。 将废物和玻璃化物质的料流(12)混合并熔化在容器(14)中用于玻璃化。 废玻璃化方法通过将进料流混合到玻璃熔体(13)中并将进料流(12)的熔融玻璃批料混合以形成泡沫体来转化进料流(12)。 流由叶轮(16)分散以形成泡沫,然后在沉降区(22)中致密化,通过喷口(24)回收并固化在储存容器中。 提供了用于调节容器(14)中的混合叶轮(16)的位置以改变沉降区(22)的深度的装置。 叶轮(16)安装在具有循环冷却剂流的驱动轴(18)上。
    • 10. 发明授权
    • Method for waste for vitrification
    • 玻璃化废物的方法
    • US5550310A
    • 1996-08-27
    • US472387
    • 1995-06-07
    • Ray S. Richards
    • Ray S. Richards
    • C03B5/00C03B5/02C03B5/027C03B5/033C03B5/187C03B5/26G21F9/16G21F9/30G21F9/00
    • G21F9/305C03B5/005C03B5/027C03B5/033C03B5/1875C03B5/26C03B5/265Y02P40/52Y02P40/57
    • A waste vitrification apparatus (10) having rotatable mixer impeller (16) functioning as a shaft electrode (60) and metallic vessel (14) functioning as a vessel electrode (62). A stream (12) of waste material and vitrifiable material are mixed and melted in the vessel (14) for vitrification. The waste vitrification method converts a feed stream (12) by mixing the feed stream into a glass melt (13) and melting glass batch of the feed stream (12) to form a foamy mass. The stream is dispersed by the impeller (16) to form a foam which is then densified in a settling zone (22), recovered through a spout (24) and solidified in storage containers. Means are provided to adjust the location of the mixing impeller (16) in the vessel (14) to change the depth of the settling zone (22). The impeller (16) is mounted on a drive shaft (18) having a recirculating coolant flow.
    • 一种具有用作轴电极(60)的旋转混合器叶轮(16)和用作容器电极(62)的金属容器(14)的废玻璃化装置(10)。 将废物和玻璃化物质的料流(12)混合并熔化在容器(14)中用于玻璃化。 废玻璃化方法通过将进料流混合到玻璃熔体(13)中并将进料流(12)的熔融玻璃批料混合以形成泡沫体来转化进料流(12)。 流由叶轮(16)分散以形成泡沫,然后在沉降区(22)中致密化,通过喷口(24)回收并固化在储存容器中。 提供了用于调节容器(14)中的混合叶轮(16)的位置以改变沉降区(22)的深度的装置。 叶轮(16)安装在具有循环冷却剂流的驱动轴(18)上。