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
    • 2. 发明申请
    • Regenerative thermal waste incineration system
    • 再生热废物焚烧系统
    • US20040020415A1
    • 2004-02-05
    • US10297104
    • 2002-11-27
    • Suk-In Oh
    • F23G005/00
    • F23G7/001F23G7/068F23G2201/10F23G2203/40Y02W10/40
    • Provided is a regenerative thermal waste incineration system for incinerating industrial waste sludge, urban waste, food refuse and sewage sludge originating from final by-products of chemical factory or sewage treatment plant using a regenerative thermal material. The regenerative thermal waste incineration system includes first and second ceramic layers for accumulating heat from high-temperature gas in backward operation and regenerating accumulated heat to low temperature gas in forward operation, a third ceramic layer and a fourth ceramic layer for accumulating heat from high-temperature gas in forward operation and regenerating accumulated heat to low temperature gas in backward operation, a first waste inlet valve located between the first ceramic layer and the second ceramic layer for introducing waste in forward operation, a second waste inlet valve located between the third ceramic layer and the fourth ceramic layer for introducing waste in backward operation, a burner located between the second ceramic layer and the third ceramic layer for supplying heat for incinerating, a first air valve for introducing air into the system through the first ceramic layer in forward operation, and a second air valve for introducing air into the system through the fourth ceramic layer in backward operation. Since the ceramic layers are directly heated using the exhaust gas that is not brought into direct contact with raw waste, and then the regenerated heat is used for drying and incinerating the waste, the regenerative thermal waste incineration system is a cost-effective system.
    • 提供了一种再生热废物焚烧系统,用于焚烧工业废渣,城市垃圾,食物垃圾和源自化工厂或污水处理厂的最终副产物的再生热源物质的污水污泥。 再生热废弃物焚烧系统包括第一和第二陶瓷层,其用于在向后运行中积聚来自高温气体的热量,并将累积热量再循环到正向运行中的低温气体,第三陶瓷层和第四陶瓷层, 正向运行中的高温气体和向后运行中的低温气体再生累积的热量,位于第一陶瓷层和第二陶瓷层之间的用于在正向运行中引入废物的第一废气入口阀,位于第三陶瓷 层和第四陶瓷层,用于在后向操作中引入废物,位于第二陶瓷层和第三陶瓷层之间的用于提供用于焚烧的热量的燃烧器,用于在正向操作中通过第一陶瓷层将空气引入系统的第一空气阀 以及用于将空气引入到系统中的第二空气阀 通过第四陶瓷层反向运转。 由于使用不与生废物直接接触的废气直接加热陶瓷层,所以再生热用于干燥和焚烧废物,再生热废物焚烧系统是一种经济有效的系统。
    • 7. 发明申请
    • Grate block for a refuse incineration grate
    • 垃圾焚烧炉排
    • US20040261674A1
    • 2004-12-30
    • US10610183
    • 2003-06-30
    • Halcyon Mechanical Services, Inc.
    • Mark P. Hepp
    • F23H003/00F23G005/00
    • F23G5/002F23H1/02F23H3/04F23H7/08F23H7/18F23H17/12
    • A grate block for an incinerator has a top wall and a front wall that extends from the front wall. A pair of side walls wherein each sidewall extends from the top wall and the front wall. Each of the side walls of the grate blocks engage the side wall of the adjacent grate block. Each side wall has a recess in proximity to the front wall/upper wall interface. The recess defines a gap between the side walls of the adjacent grate blocks. An opening in the recess through the side wall allows for the flow of air from a cavity within the grate block. The slot created by the recess of the two adjoining grate blocks has a narrower slot opening created by a shallow upper recess and a broader slot opening created by a deeper lower recess. In that the openings are not directly aligned with any of the exposed surfaces, the air is required to make a perpendicular turn prior to exiting the recess of the grate block. This allows for sufficient pressure to drop across the surface of the grate block for a uniform distribution of primary air. Furthermore, the pressure drop makes it difficult to plug the opening with ash and debris by the change in direction. Furthermore, the deeper lower recess below the shallow upper recess creates a self-relieving channel.
    • 用于焚化炉的炉篦块具有从前壁延伸的顶壁和前壁。 一对侧壁,其中每个侧壁从顶壁和前壁延伸。 格栅块的每个侧壁都与相邻格栅块的侧壁接合。 每个侧壁具有靠近前壁/上壁接口的凹部。 凹槽限定相邻格栅块的侧壁之间的间隙。 通过侧壁的凹部中的开口允许来自格栅块内的空腔的空气流动。 由两个邻接的格栅块的凹部产生的狭槽具有由较浅的上凹部形成的较窄的狭槽开口和由更深的下凹部形成的较宽的狭槽开口。 因为这些开口不与任何露出的表面直接对齐,所以在离开格栅块的凹槽之前需要空气进行垂直转动。 这允许足够的压力落在炉排块的表面上,以使一次空气均匀分布。 此外,压降使得难以通过方向改变将灰尘和碎屑堵塞。 此外,较浅的上部凹槽下方的较深的下部凹槽产生自消除通道。
    • 8. 发明申请
    • Burner system
    • 燃烧器系统
    • US20040154501A1
    • 2004-08-12
    • US10476119
    • 2003-10-27
    • Haw-Won Lee
    • F23B007/00F23G005/00
    • F23G5/444F23G5/16F23G5/46F23G7/12F23G2209/281
    • Discloded is an incinerator system including gas generating furnace (100) provided with incinerating room (130) into which combustibles including waste tire is loaded, and cover part (110), burning part (200) for burning a gas generated from the gas generating furnace (100) and introduced into burner (220) through introducing part (222) by using igniter (228) of ignition part (224), an enthothermal part (300) provided with gas circulation tubes (310), in which high temperature burnt gas introduced through connection tube (10b) is circulated through the gas circulation tubes (310) to water and drain the water through heated water drain tube (314); and cyclon (400) for collecting dust contained in waste gas that has passed through the enthotermal part (300) and discharging the dust into the atmosphere. Combustion gas generated by incinerating waster materials is perfectly burned at a high temperature and high pressure state, thereby restraining occurrence of contamination substances.
    • Discloed是一种焚烧炉系统,包括设置有焚烧室(130)的气体发生炉(100),其中装载有废轮胎的可燃物,以及盖部分(110),用于燃烧由气体发生炉产生的气体的燃烧部分(200) (100),并通过使用点火部分(224)的点火器(228)引入燃烧器(220),设置有气体循环管(310)的热电偶部件(300),其中高温燃烧气体 通过连接管(10b)引入的水通过气体循环管(310)循环到水中并通过加热的排水管(314)排出水; 和用于收集已经通过所述火焰部分(300)并将灰尘排放到大气中的废气中所含的灰尘的旋风(400)。 通过焚烧废物产生的燃烧气体在高温高压状态下完全燃烧,从而抑制污染物质的产生。
    • 9. 发明申请
    • Control system for controlling the feeding and burning of a pulverized fuel in a glass melting furnace
    • 用于控制玻璃熔化炉中的粉碎燃料的进料和燃烧的控制系统
    • US20040060490A1
    • 2004-04-01
    • US10261968
    • 2002-10-01
    • Ivan Jorge Solis-Martinez
    • F23N005/18F23G005/00
    • F23K3/02C03B5/235C03B5/24F23N1/02F23N5/00
    • A control system for controlling the storing, feeding and burning of a pulverized fuel in a glass melting furnace, wherein a series of burners are arranged one in front of the other to carry out combustion and non-combustion cycles during a glass melting process. Pulverized fuel feeding systems are provided, which are filled up and emptied out with the pulverized material for providing a constant flow of the pulverized fuel to each of the burners during the glass melting process. The control system including control means for monitoring and controlling the filled up and discharge out of said pulverized fuel feeding system based on the measurement and monitoring of the amount of pulverized fuel that is being storaged and feeded by the pulverized fuel feeding system. Control means are provided for monitoring at least one operating variable involved on the glass melting furnace, the control means detecting a series of different variable during the glass melting process. And means for controlling the alternation of the combustion and non-combustion cycles to each burner, based on the monitoring and feeding of the pulverized fuel to burner and in base to the operating variables of the glass melting process.
    • 一种用于控制在玻璃熔化炉中的粉碎燃料的储存,进料和燃烧的控制系统,其中一系列燃烧器一个在另一个之前布置,以在玻璃熔化过程中进行燃烧和非燃烧循环。 提供粉碎的燃料供给系统,其被粉碎物料填充和排空,以在玻璃熔融过程中向粉碎的燃料提供恒定的流量。 该控制系统包括控制装置,用于基于由粉碎的燃料供给系统储存和供给的粉碎燃料的量的测量和监测来监测和控制所述粉碎燃料供给系统的填充和排出。 提供控制装置用于监测玻璃熔化炉中涉及的至少一个操作变量,所述控制装置在玻璃熔化过程中检测一系列不同的变量。 以及用于控制燃烧和非燃烧循环对每个燃烧器的交替的装置,其基于将粉碎燃料监测和供给到燃烧器,并且基于玻璃熔化过程的操作变量。