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    • 4. 发明申请
    • BLACK PLANT STEAM FURNACE INJECTION
    • 黑色植物蒸汽炉注射
    • US20090025658A1
    • 2009-01-29
    • US12175102
    • 2008-07-17
    • Mikhail MaryamchikMichael J. SzmaniaDavid J. WalkerDonald L. Wietzke
    • Mikhail MaryamchikMichael J. SzmaniaDavid J. WalkerDonald L. Wietzke
    • F22B33/00
    • F22B37/42F23C10/10F23J2219/10
    • A system and method for quickly cooling and de-pressurizing a boiler arrangement in the event of a plant power loss, a.k.a. a black plant condition. A steam discharge system injects steam from the steam/water circuit into the furnace, thereby both cooling components of the boiler arrangement and reducing pressure in the steam/water circuit. This reduces or eliminates the additional cost associated with providing extra capacity in a steam drum and/or an independently powered boiler water pump. The system and method is particularly useful for quickly cooling the U-beams of a circulating fluidized bed (CFB) boiler during a black plant condition. In application to boiler arrangements with a selective non-catalytic reduction (SNCR) system employing steam as a carrier for a NOx reducing agent, the steam discharge system advantageously uses the discharge nozzles of the SNCR system to inject the steam into the furnace.
    • 一种在工厂电力损失的情况下快速冷却和减压锅炉装置的系统和方法,例如黑色植物条件。 蒸汽排放系统将来自蒸汽/水回路的蒸汽注入炉中,从而将锅炉装置的冷却部件和蒸汽/水回路中的压力降低。 这减少或消除了在蒸汽鼓和/或独立供电的锅炉水泵中提供额外容量的附加成本。 该系统和方法特别适用于在黑色植物条件下快速冷却循环流化床(CFB)锅炉的U型梁。 在应用具有使用蒸汽作为NOx还原剂的载体的选择性非催化还原(SNCR)系统的锅炉装置时,蒸汽排放系统有利地使用SNCR系统的排放喷嘴将蒸汽注入炉中。
    • 5. 发明授权
    • Black plant steam furnace injection
    • 黑厂蒸汽炉注射
    • US08047162B2
    • 2011-11-01
    • US12175102
    • 2008-07-17
    • Mikhail MaryamchikMichael J. SzmaniaDavid J. WalkerDonald L. Wietzke
    • Mikhail MaryamchikMichael J. SzmaniaDavid J. WalkerDonald L. Wietzke
    • B01D45/00
    • F22B37/42F23C10/10F23J2219/10
    • A system and method for quickly cooling and de-pressurizing a boiler arrangement in the event of a plant power loss, a.k.a. a black plant condition. A steam discharge system injects steam from the steam/water circuit into the furnace, thereby both cooling components of the boiler arrangement and reducing pressure in the steam/water circuit. This reduces or eliminates the additional cost associated with providing extra capacity in a steam drum and/or an independently powered boiler water pump. The system and method is particularly useful for quickly cooling the U-beams of a circulating fluidized bed (CFB) boiler during a black plant condition. In application to boiler arrangements with a selective non-catalytic reduction (SNCR) system employing steam as a carrier for a NOx reducing agent, the steam discharge system advantageously uses the discharge nozzles of the SNCR system to inject the steam into the furnace.
    • 一种在工厂电力损失的情况下快速冷却和减压锅炉装置的系统和方法,例如黑色植物条件。 蒸汽排放系统将来自蒸汽/水回路的蒸汽注入炉中,从而将锅炉装置的冷却部件和蒸汽/水回路中的压力降低。 这减少或消除了在蒸汽鼓和/或独立供电的锅炉水泵中提供额外容量的附加成本。 该系统和方法特别适用于在黑色植物条件下快速冷却循环流化床(CFB)锅炉的U型梁。 在应用具有使用蒸汽作为NOx还原剂的载体的选择性非催化还原(SNCR)系统的锅炉装置时,蒸汽排放系统有利地使用SNCR系统的排放喷嘴将蒸汽注入炉中。
    • 8. 发明授权
    • CFB with controllable in-bed heat exchanger
    • CFB具有可控的床上热交换器
    • US06532905B2
    • 2003-03-18
    • US09906993
    • 2001-07-17
    • Felix BelinMikhail MaryamchikSundara M. KavidassDavid J. WalkerDonald L. Wietzke
    • Felix BelinMikhail MaryamchikSundara M. KavidassDavid J. WalkerDonald L. Wietzke
    • F28D1300
    • F22B31/0084F22B31/0023
    • A circulating fluidized bed (CFB) boiler has one or more bubbling fluidized bed enclosures containing heating surfaces and located within a lower portion of the CFB boiler to provide a compact, efficient design with a reduced footprint area. The heating surfaces are provided within the bubbling fluidized bed located above a CFB grid and/or in a moving packed bed below the CFB grid inside the lower portion of the CFB boiler. Solids in the bubbling fluidized bed are maintained in a slow bubbling fluidized bed state by separately controlled fluidization gas supplies. Separately controlled fluidization gas is used to control bed level in the bubbling fluidized beds or to control the throughput of solids through the bubbling fluidized beds. Solids ejected from the bubbling fluidized beds can be returned directly into the surrounding CFB environment of the CFB boiler, or purged from the system for disposal or recycle back into the CFB. Solids which are recycled back to the CFB have less heat and can be used to control the temperature of the fast moving bed in the CFB.
    • 循环流化床(CFB)锅炉具有一个或多个含有加热表面并且位于CFB锅炉的下部内的起泡流化床外壳,以提供紧凑,有效的设计,减少占地面积。 加热表面设置在位于CFB格栅上方的起泡流化床内和/或在CFB锅炉下部的CFB格栅下方的移动填充床中。 鼓泡流化床中的固体通过单独控制的流化气体供应维持在缓慢的起泡流化床状态。 单独控制的流化气体用于控制鼓泡流化床中的床层或控制通过鼓泡流化床的固体的通过量。 从起泡流化床喷出的固体可以直接返回到CFB锅炉的周围CFB环境中,或者从系统中清除,以便将其回收回CFB。 循环回CFB的固体具有较少的热量,可用于控制CFB中快速移动床的温度。