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    • 5. 发明授权
    • Microwave heating device and heating method
    • 微波加热装置及加热方式
    • US08263917B2
    • 2012-09-11
    • US12706033
    • 2010-02-16
    • Mitsuhiro MatsuzawaShigenori TogashiShinji Hasebe
    • Mitsuhiro MatsuzawaShigenori TogashiShinji Hasebe
    • H05B6/80
    • H05B6/806
    • In a heating device having a microwave generator for generating microwaves, a waveguide for propagating the microwaves, a matching element for adjusting the impedance inside the waveguide and a flow pipe for passing a substance to be heated, an outer pipe of low dielectric constant is arranged to circulate a heat transfer medium for heat exchange around the flow pipe adapted to pass the heated substance and a circulation constant temperature bath is provided for adjusting the temperature of the heat transfer medium for heat exchange and for circulating it, so that microwaves are irradiated while adjusting the temperature of the heat transfer medium for heat exchange to a desired value by means of the circulation constant bath and circulating the heat transfer medium around the flow pipe.
    • 在具有用于产生微波的微波发生器的加热装置中,用于传播微波的波导,用于调节波导内的阻抗的匹配元件和用于使待加热物质通过的流管,布置有低介电常数的外管 循环用于在适于通过加热物质的流动管周围进行热交换的热交换介质,并且设置循环恒温槽以调节用于热交换和循环的热传递介质的温度,从而照射微波 通过循环恒定浴将热交换的传热介质的温度调节到所需值,并使传热介质在流管周围循环。
    • 6. 发明申请
    • MICROWAVE HEATING DEVICE AND HEATING METHOD
    • 微波加热装置和加热方法
    • US20100206872A1
    • 2010-08-19
    • US12706033
    • 2010-02-16
    • Mitsuhiro MATSUZAWAShigenori TogashiShinji Hasebe
    • Mitsuhiro MATSUZAWAShigenori TogashiShinji Hasebe
    • H05B6/80H05B6/64
    • H05B6/806
    • In a heating device having a microwave generator for generating microwaves, a waveguide for propagating the microwaves, a matching element for adjusting the impedance inside the waveguide and a flow pipe for passing a substance to be heated, an outer pipe of low dielectric constant is arranged to circulate a heat transfer medium for heat exchange around the flow pipe adapted to pass the heated substance and a circulation constant temperature bath is provided for adjusting the temperature of the heat transfer medium for heat exchange and for circulating it, so that microwaves are irradiated while adjusting the temperature of the heat transfer medium for heat exchange to a desired value by means of the circulation constant bath and circulating the heat transfer medium around the flow pipe.
    • 在具有用于产生微波的微波发生器的加热装置中,用于传播微波的波导,用于调节波导内的阻抗的匹配元件和用于使待加热物质通过的流管,布置有低介电常数的外管 循环用于在适于通过加热物质的流动管周围进行热交换的热交换介质,并且设置循环恒温槽以调节用于热交换和循环的热传递介质的温度,从而照射微波 通过循环恒定浴将热交换的传热介质的温度调节到所需值,并使传热介质在流管周围循环。
    • 7. 发明申请
    • Method and apparatus for producing fine particles
    • 用于生产细颗粒的方法和装置
    • US20060231963A1
    • 2006-10-19
    • US10544063
    • 2003-12-02
    • Masahiro OhshimaKazuhiro MaeIori HashimotoShinji HasebeOsamu OkumaTakayuki Hirano
    • Masahiro OhshimaKazuhiro MaeIori HashimotoShinji HasebeOsamu OkumaTakayuki Hirano
    • B01F3/04
    • B01J19/243
    • A producing apparatus (1) of fine particles includes two pipes constructed by an outer pipe (11) and an inner pipe (21) arranged in a concentric shape. The tip (21a) of the inner pipe (21) is spaced from the tip (11b) of the outer pipe (11) by a comparatively long distance. Fluid II is flowed toward the tip (21a) of the inner pipe (21) within the inner pipe (21). Fluid I is flowed toward the tip of the outer pipe (11) as a continuous phase within the outer pipe (11). The flow velocities of the fluid I and the fluid II within the outer pipe (11) and the inner pipe (21) are set to appropriate values by controlling the operations of respective pumps (14, 24) by commands from a controller (31). Thus, the fluid II exhausted from the tip (21a) of the inner pipe (21) becomes a droplet (3) having a in approximately spherical shape surrounded by the fluid I within the outer pipe (11) and having a predetermined desirable diameter.
    • 细颗粒的制造装置(1)包括由外管(11)和以同心形状排列的内管(21)构成的两个管。 内管(21)的末端(21a)与外管(11)的末端(11b)间隔较长的距离。 流体II流向内管(21)内的内管(21)的末端(21a)。 流体I作为外管(11)内的连续相流向外管(11)的前端。 通过控制器(31)的命令控制各个泵(14,24)的操作,将外管(11)和内管(21)内的流体I和流体II的流速设定为适当的值, 。 因此,从内管(21)的顶端(21a)排出的流体II成为由外管11内的流体I包围的大致球状的液滴3,并具有规定的期望直径 。
    • 8. 发明授权
    • Method for controlling combustion in coke oven battery
    • 焦炉电池燃烧控制方法
    • US4045292A
    • 1977-08-30
    • US701150
    • 1976-06-30
    • Taro MatsushitaMasahiro HirakiTakeo FujimuraShinji Hasebe
    • Taro MatsushitaMasahiro HirakiTakeo FujimuraShinji Hasebe
    • C10B21/10C10B21/20C10B47/00
    • C10B21/20C10B47/00
    • In the operation of a conventional coke oven battery, a target flue temperature for each oven group is set on the basis of details of coal charge consisting of the weight, the particle size, the moisture content, the volatile matter content and the timing of charging of the coal charge, so as to achieve a target net coking time and a target soaking time given by a coke production schedule. Then, the temperature is measured for individual flues at certain intervals of time and deviations of thus measured flue temperatures from said target flue temperature are calculated by computer, to set a flow rate and a calorific value of the fuel gas for each oven group. A stack draft is set and controlled by computer so that an optimum combustion may take place in response to changes in the flow rate and the calorific value of the fuel gas. Said target flue temperature is furthermore bias-corrected with the use of a mean measured flue temperature, measured net coking times, measured soaking times and the details of coal charge corresponding thereto.
    • 在常规焦炉电池的操作中,基于由重量,颗粒尺寸,含水量,挥发物含量和充电时间组成的煤电荷的细节,设定每个烘箱组的目标烟道温度 的煤炭收费,以实现由焦炭生产计划给出的目标净焦化时间和目标浸泡时间。 然后,以一定的时间间隔测量单个烟道的温度,并通过计算机计算由所述目标烟道温度测量的烟道温度的偏差,以设定每个烤箱组的燃料气体的流量和发热量。 堆垛吃水由计算机设置和控制,使得响应于燃料气体的流量和热值的变化可以发生最佳燃烧。 所述目标烟道温度进一步通过使用平均测量烟道温度,测量的净焦化时间,测量的均热时间和对应于其的煤炭细节的细节进行偏差校正。