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
    • 22. 发明授权
    • Method of regenerating foundry sand
    • 铸造砂再生方法
    • US6019157A
    • 2000-02-01
    • US836367
    • 1997-05-13
    • Toshitake KannoTomohisa Kawaji
    • Toshitake KannoTomohisa Kawaji
    • B22C5/00B22C5/08F27B15/00F27B17/00B22C25/00B22D45/00
    • F27B15/00B22C5/00B22C5/08F27B17/00F23G2209/24F23G2900/50002
    • The present invention aims to provide a method of regenerating foundry sand whereby the carbon component adhering to the surface of spent foundry sand and similar substances is combusted efficiently, allowing the foundry sand to be regenerated at low cost. In the present invention, in order to achieve this aim the spent foundry sand with the carbon component adhering to it is placed in a combustion furnace which is connected on one side to a pressure-reducing pump and is open on the other, the pressure-reducing pump is operated to draw air from within the foundry sand and introduce air into it, and the accretion is ignited upwind of the current of air which is being introduced, allowing combustion of the accretion to proceed successively on the downwind side. Foundry sand can thus be recycled at very low cost, simply and reliably because it is allowed to self-combust continuously without any heating or agitation from elsewhere, and because the resin is combusted entirely.
    • PCT No.PCT / JP96 / 00081 Sec。 371日期1997年5月13日 102(e)日期1997年5月13日PCT提交1996年1月19日PCT公布。 出版物WO97 / 26097 日期1997年7月24日本发明旨在提供一种再生铸造砂的方法,其中附着在废铸造砂表面上的碳成分和类似物质被有效燃烧,从而允许以低成本再生再生铸造砂。 在本发明中,为了达到上述目的,将附着有碳成分的废弃的铸造砂放置在燃烧炉中,该燃烧炉的一侧与减压泵连接,另一侧开放, 操作减压泵从铸造砂中吸入空气并将空气引入其中,并且吸入被点燃被引入的空气流的上风,从而允许燃料在顺风侧进行燃烧。 因此,铸造砂可以以非常低的成本回收,简单可靠,因为允许其在任何地方进行任何加热或搅拌而连续自燃,并且由于树脂完全燃烧。
    • 26. 发明申请
    • METHOD FOR PROCESSING COMBUSTIBLE CARBON- AND/OR HYDROCARBON-CONTAINING PRODUCTS AND REACTOR FOR THE IMPLEMENTATION THEREOF
    • 用于加工可燃碳水化合物和/或含烃产品的方法及其实施的反应器
    • US20160046868A1
    • 2016-02-18
    • US14784101
    • 2015-01-30
    • ZAKRYTOE AKTSIONERNOE OBSCHESTVO NAUCHNO- PROIZVODSTEVNNAYA KOMPANIYA "INTERGAZ")
    • Maksim Viktorovich ANIGURKINAleksej Alekseevich VAZHNENKOVEvgenij Trofimovich GOPONENKOAleksej Vasil`evich ERUSLANOVIgor` Vasil`evich RASSOKHIN
    • C10B53/00C10B31/00
    • C10B53/00C10B31/00C10B49/02C10J3/20C10J2200/152C10J2200/156C10J2200/158C10J2300/0916C10J2300/092F23G5/0276F23G2201/304F23G2201/40F23G2202/60F23G2900/50002Y02P20/52
    • Inventions can be used in the field of industrial, processing of combustible carbon-and/or hydrocarbon-containing products. Method for processing of carbon-and/or hydrocarbon-containing products includes layer-by-layer of raw materials in reactor in presence of catalyst. Raw materials pass through derivative product heating area (9), pyrolysis area (8), carbonization area (7), combustion area, (6) with conversion of solid, residual that is discharged from area for discharging of solid residuals (2) with discharging gate (3) from process area of reactor cyclically from top downward in reactor with maintaining of its leaktightness. Leak-proof process chamber (1) of reactor contains area for feeding of wet small particles of solid fuel waste, their pyrolysis and carbonization (14), connected to areas for feeding (4) and heating (5) of oxygen-containing agent. Channel for feeding of oxygen-containing agent (15) is connected to metering hopper of wet small particles of solid fuel wastes (16), which are used for formation of fluidized flow. Additional volume of oxygen-containing agent is injected into reactor as a part of main flow that is necessary for further combustion of small particles of solid fuel waste that passed through pyrolysis area (8) and carbonization area (7) and conversion of their moisture into superheating steam. Inventions allow complete utilization, of small fractions of derivative products, ensure generation of gas with high calorific capacity and increase output and quality of finished products and discharge is performed cyclically with maintenance of sealing of reactor processing space. 2 and 4 of depending claims, 1 dy; 2 table 1 ref.
    • 发明可用于可燃碳和/或含烃产品的工业,加工领域。 用于处理含碳和/或含烃产品的方法包括在催化剂存在下在反应器中逐层原料。 原料通过衍生产品加热区域(9),热解区域(8),碳化区域(7),燃烧区域,(6)固体残留物,固体残留物排出区域(2) 在反应器中从反应器的上下循环地将反应器的处理区域排出口(3),同时保持其密封性。 反应器的防漏处理室(1)包含用于供给固体燃料废物的湿小颗粒,其热分解和碳化(14)的区域,连接到含氧剂的进料(4)和加热(5)的区域。 供给含氧剂(15)的通道与用于形成流化流动的固体燃料废物(16)的湿小颗粒的计量料斗连接。 将额外体积的含氧试剂注入反应器作为主流的一部分,其是进一步燃烧通过热解区域(8)和碳化区域(7)的固体燃料废物的小颗粒并将其水分​​转化为 过热蒸汽 发明允许完全利用衍生产品的小部分,确保产生具有高发热量的气体,并且提高成品的产量和质量,并且通过维持反应堆处理空间的密封来循环地进行放电。 2和4的从属权利要求,1 dy; 2表1参考
    • 27. 发明申请
    • HIGH-EFFICIENCY CLEAN BURNING METHOD AND DEVICE OF MACROMOLECULAR SUBSTANCE
    • 高效清洗方法和大分子物质装置
    • US20150338093A1
    • 2015-11-26
    • US14346683
    • 2012-09-21
    • Weiqi Liu
    • Weiqi Liu
    • F23G5/027F23G5/38F23G5/44F23G5/04
    • F23G5/38F23G5/0276F23G5/04F23G5/16F23G5/46F23G7/10F23G2201/303F23G2201/304F23G2201/40F23G2202/101F23G2202/60F23G2206/10F23G2206/203F23G2209/26F23G2900/50002Y02E20/12Y02E20/344
    • A high-efficiency clean burning method of a macromolecular substance, wherein the macromolecular substance comprises biomass and solid organic waste; the method comprises the following steps: generating a first gaseous substance and a red-hot carbon residue layer from biomass carbon residue or charcoal or coke or a mixture thereof by anoxic combustion; leading the heat generated by anoxic combustion to the macromolecular substance, preheating and drying the macromolecular substance and carrying out pyrolysis gasification, so as to generate a second gaseous substance; taking red-hot carbon residue as a pyrolysis catalyst, leading the second gaseous substance to the red-hot carbon residue layer to carry out oxygen catalytic cracking, so as to generate a third gaseous substance; leading the third gaseous substance and the first gaseous substance to an oxygen-enriched combustion zone in a heat preservation manner to carry out oxygen-enriched combustion, so as to achieve substantial complete combustion of all gasification products, wherein a tar wastewater is not generated, and pollution of smoke tar is not generated. A device capable of achieving the method comprises four categories of a plurality of devices. Thus, zero emission of “dioxin” can be achieved when the device is applied to waste incineration disposal.
    • 一种大分子物质的高效清洁燃烧方法,其中大分子物质包括生物质和固体有机废物; 该方法包括以下步骤:通过缺氧燃烧从生物质碳残渣或木炭或焦炭或其混合物中产生第一气态物质和红热碳残留层; 将缺氧燃烧产生的热量引入大分子物质,预热和干燥大分子物质,进行热解气化,产生第二气态物质; 以红热碳残渣为热解催化剂,将第二气态物质引入红热碳残渣层进行氧催化裂化,生成第三气态物质; 将第三气态物质和第一气体物质以保温方式引导到富氧燃烧区域,以进行富氧燃烧,从而实现不产生焦油废水的所有气化产物的实质性完全燃烧, 并不会产生烟焦油的污染。 能够实现该方法的装置包括多个装置的四类。 因此,当将该装置应用于废物焚烧处理时,可以实现“二恶英”的零排放。