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    • 9. 发明公开
    • Improved method of combusting solid waste
    • Verbethes Verfahren zur Verbrennung von festenAbfällen
    • EP1726876A1
    • 2006-11-29
    • EP05253289.2
    • 2005-05-27
    • TAKUMA CO., LTD.
    • Kataoka, ShizuoAso, TomonoriAkiyama, JinSameshima, Ryoji
    • F23G5/05F23G5/16F23L1/02F23L9/02F23N3/00
    • F23G5/05F23G5/165F23G5/50F23G2202/101F23G2202/103F23G2203/10F23G2206/10F23G2207/101F23G2207/103F23G2207/104F23G2207/105F23G2207/112F23G2207/113F23G2207/114F23G2207/30F23L1/02F23L9/02F23N3/00F23N2029/20
    • The present invention discloses a method of combusting waste (W) with a stoker-type waste incinerator (1), in which a significant reduction in discharging toxic matters and also substantial improvements in heat recovery have been achieved together with limited feeding of combustion air for efficient, combustion of waste (W).
      More particularly, with the present method of combusting waste (W), adjustments can be made such that the volume of the primary combustion air (A1) becomes 0.8~1.0 as the air ratio, the volume of the secondary combustion air (A2) 0.3~0.4 as the air ratio and the total air volume less than 1.3 as the air ratio respectively. A reduction zone (B) of 0.8~1.0 as the air ratio in the combustion chamber is formed by drawing the re-circulating combustion gas (G') from the primary combustion chamber (7) in the zone where the burnout stoker (4c) is positioned with respect to the outside, and injecting the re-circulating combustion gas (G') into the combustion chamber on the upstream side of the feeding position of the secondary combustion air (A2). Furthermore, a combustion control system comprising a steady state control part (D) to combust the waste (W) in a steady, stable state and a fuzzy control part (E) to restore an abnormal combustion state of waste (W) to a steady, stable state can be incorporated.
    • 本发明公开了一种用放料式废物焚烧炉(1)燃烧废物(W)的方法,其中排放有毒物质的显着减少和热回收的实质性改善已经实现,同时有限的空气供给 高效,浪费的燃烧(W)。 更具体地说,利用本方法燃烧废物(W),可以进行调节,使得一次燃烧空气(A1)的体积随着空气比,二次燃烧空气(A2)0.3的体积变为0.8〜1.0 空气比约为0.4,空气比的总风量小于1.3。 通过在燃烧炉(4c)的区域中从第一燃烧室(7)抽出再循环燃烧气体(G'),形成燃烧室中的空气比为0.8〜1.0的还原区域(B) 相对于外部定位,并且将再循环燃烧气体(G')注入到二次燃烧空气(A2)的进料位置的上游侧的燃烧室中。 此外,一种燃烧控制系统,包括稳定状态控制部分(D),以在稳定的稳定状态下燃烧废物(W)和模糊控制部分(E),以将废物(W)的异常燃烧状态恢复到稳定状态 可以并入稳定状态。