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    • 6. 发明授权
    • Combustion method and combustion apparatus
    • 燃烧方法和燃烧装置
    • US08113822B2
    • 2012-02-14
    • US12281556
    • 2007-04-13
    • Osamu TanakaYukihiro TokunagaYusuke OkamotoKenji Yasui
    • Osamu TanakaYukihiro TokunagaYusuke OkamotoKenji Yasui
    • F23N1/02F23N5/00F01N3/00F01N3/10B01D53/56
    • F23N1/022F23J2219/10F23N5/006F23N2035/06F23N2035/10F23N2035/12F23N2041/04
    • First, to decrease an amount of emitted nitrogen oxides to zero as much as possible and also decrease an amount of emitted carbon monoxide to a permissible level. Second, to save energy on combustion at a low air ratio close to 1.0. Third, to attain a stable air ratio control in a low air ratio combustion region.Included are a combustion step in which hydrocarbon-containing fuel is burned by the burner to generate gas free of hydrocarbons but containing oxygen, nitrogen oxides and carbon monoxide, an endothermic step in which endothermic device is used to absorb heat from gas generated in the combustion step, a hazardous-substance decreasing step in which the gas is brought into contact with an oxidation catalyst after the endothermic step to oxidize carbon monoxide contained in the gas by oxygen and reduce nitrogen oxides by carbon monoxide, and a concentration ratio adjusting step in which a concentration ratio of oxygen, nitrogen oxides and carbon monoxide in gas on the primary side of the oxidation catalyst is adjusted to a predetermined concentration ratio on the basis of concentration ratio characteristics of the burner and the endothermic device by using the air-ratio adjusting device of the burner.
    • 首先,将排出的氮氧化物的量尽可能多地减少到零,并且将排放的一氧化碳的量减少到允许的水平。 二是以低空气比接近1.0来节约能源燃烧。 第三,为了在低空气比燃烧区域中获得稳定的空气比控制。 包括燃烧步骤,其中含烃燃料由燃烧器燃烧以产生不含烃,但含有氧气,氮氧化物和一氧化碳的气体,吸热装置用于吸收燃烧产生的气体的吸热步骤 步骤,其中在吸热步骤之后气体与氧化催化剂接触以使氧气中的一氧化碳氧化并通过一氧化碳还原氮氧化物的危险物质减少步骤,以及浓缩比调节步骤,其中 基于燃烧器和吸热装置的浓度比特性,通过使用空气比调节装置将氧化催化剂的初级侧的气体中的氧气,氮氧化物和一氧化碳的浓度比调节至规定的浓度比 的燃烧器。
    • 7. 发明申请
    • MICROWAVE HEATING APPARATUS
    • 微波加热装置
    • US20110168699A1
    • 2011-07-14
    • US13119050
    • 2009-03-16
    • Yoshiharu OomoriTomotaka NobueKenji YasuiMakoto Mihara
    • Yoshiharu OomoriTomotaka NobueKenji YasuiMakoto Mihara
    • H05B6/64
    • H05B6/686H01L21/67115H05B6/705H05B2206/044Y02B40/143Y02B40/146
    • In a microwave heating apparatus of the invention, microwaves from oscillation parts 1a, 1b are divided into a plurality of microwaves by power division parts 2a, 2b and inputted to amplification parts 4a, 4b, 4c, 4d, and desired microwave powers from the amplification parts are supplied from feeding parts 5a, 5b, 5c, 5d to a heating chamber 8. Reflected powers reflected from the heating chamber to the amplification parts via the feeding parts are detected by power detection parts 6a, 6b, 6c, 6d. Each of the feeding parts has a plurality of antennas for supplying the microwaves having different characteristics to the heating chamber, and a control part 7 extracts an oscillating frequency with which the reflected powers detected by the power detection parts are minimum, and causes the oscillation parts to oscillate at the extracted oscillating frequency so as to supply the microwaves having the different characteristics from the plurality of antennas to the heating chamber.
    • 在本发明的微波加热装置中,来自振荡部分1a,1b的微波被功率分配部分2a,2b分成多个微波,并被输入到放大部分4a,4b,4c,4d,并且从放大器输入所需的微波功率 部件从供给部5a,5b,5c,5d供给到加热室8.通过功率检测部6a,6b,6c,6d检测从加热室向放大部反射的反射功率。 每个馈电部分具有多个天线,用于向加热室提供具有不同特性的微波,并且控制部分7提取由功率检测部件检测到的反射功率最小的振荡频率,并使振荡部分 以提取的振荡频率振荡,以将具有不同特性的微波从多个天线提供给加热室。