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    • 1. 发明专利
    • Char recovering apparatus
    • CHAR恢复装置
    • JP2013170185A
    • 2013-09-02
    • JP2012033374
    • 2012-02-17
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • YAMAMOTO TAKASHISHIBATA YASUNARIURAKATA YUICHIROKOYAMA TOMONORIMIZOKOSHI YASUTAKA
    • C10J3/46
    • Y02E20/18
    • PROBLEM TO BE SOLVED: To provide a char recovering apparatus with which downsizing of the apparatus is made possible.SOLUTION: A char discharge line Lis constituted of piping of a first linear part 101, a second linear part 102, and an inclined part 103 connecting respective linear parts 101, 102, wherein the inclined part 103 is arranged so as to be inclined by a prescribed angle θ (50° or less) toward the horizontal direction. In this assist gas feeding part 131, a wind chamber 133 to supply an assist gas is arranged on the lower side of the piping constituting the char discharge line L, and the assist gas (an inert gas) is supplied to an inner peripheral lower surface in the piping from the wind chamber 133.
    • 要解决的问题:提供一种炭黑回收装置,其具有可减小装置的尺寸。解决方案:由第一直线部分101,第二直线部分102和倾斜部分103的管道构成的焦炭排出管线Lis连接 各自的直线部分101,102,其中倾斜部分103被布置成倾斜规定的角度; (50°以下)。 在该辅助气体供给部131中,在构成焦炭排出管线L的配管的下侧配置有供给辅助气体的风室133,辅助气体(惰性气体)供给到内周下表面 在风室133的管道中。
    • 4. 发明专利
    • Plant for combined cycle power generation using wet fuel, and fuel drying method thereof
    • 使用湿式燃料组合循环发电的设备及其燃料干燥方法
    • JP2013170463A
    • 2013-09-02
    • JP2012033052
    • 2012-02-17
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • URAKATA YUICHIROTAMURA KENSHINADA OSAMUSHIBATA YASUNARINISHIMURA KOJI
    • F01K23/10C10J3/46F02C3/28F02C6/00F02C6/10F02G5/02F26B21/00
    • Y02E20/18Y02P20/123Y02P20/124Y02P20/129Y02P70/40Y02T10/166
    • PROBLEM TO BE SOLVED: To provide a plant for combined cycle power generation using a wet fuel, the plant that solves problems of wet fuel drying and can improve wet fuel compatibility associated with moisture.SOLUTION: A dry gas supply system which guides bled dry gas to a coal pulverizer 50 includes: a high-temperature exhaust gas system in which a high-temperature exhaust gas pipe 60 bleeding high-temperature denitrated exhaust gas from a waste heat recovery boiler 40 is provided with a high-temperature gas flow rate regulating valve 63 and a high-temperature exhaust gas cutoff valve 65; and a low-temperature exhaust gas system in which a low-temperature exhaust gas pipe 61 bleeding low-temperature denitrated exhaust gas from a downstream outlet side of the waste heat recovery boiler 40 is provided with a low-temperature exhaust gas flow rate regulating valve 64 and a low-temperature exhaust gas cutoff valve 66. In addition to a normal operation mode in which a mixing rate of the high-temperature exhaust gas and low-temperature exhaust gas is adjusted to adjust the temperature of the dry gas, the dry gas supply system is provided with a drying capability increased operation mode in which the temperature of the high-temperature exhaust gas is raised by operating a steam turbine 90, operated with steam supplied from the waste heat recovery boiler 40, with its intake steam set pressure made higher than in the normal operation mode.
    • 要解决的问题:提供一种使用湿燃料的联合循环发电设备,该设备解决了湿燃料干燥的问题,并且可以改善与湿气相关的湿润燃料相容性。解决方案:引导出血干燥气体的干燥气体供应系统 煤粉碎机50包括:高温排气系统,其中从废热回收锅炉40排出高温脱硝废气的高温排气管60设置有高温气体流量调节阀 63和高温废气截断阀65; 以及低温排气系统,其中从废热回收锅炉40的下游出口侧排出低温脱硝废气的低温排气管61设置有低温排气流量调节阀 64和低温废气截断阀66.除了调节高温废气和低温废气的混合比例以调节干燥气体的温度的正常操作模式之外,干燥 气体供应系统具有干燥能力增加的操作模式,其中通过操作蒸汽轮机90升高高温废气的温度,蒸汽轮机90利用从废热回收锅炉40供给的蒸汽进行操作,其进气蒸汽设定压力 高于正常运行模式。
    • 5. 发明专利
    • Gasification furnace equipment pressure equalization structure and pressure equalization method
    • 气化炉设备压力均衡结构和压力均衡方法
    • JP2013163760A
    • 2013-08-22
    • JP2012027417
    • 2012-02-10
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • HANEARI KENTASHINADA OSAMUSHIBATA YASUNARI
    • C10J3/46
    • C10J3/72C10J3/485C10J3/74C10J3/86C10J2300/093C10J2300/1653Y02E20/16Y02E20/18
    • PROBLEM TO BE SOLVED: To provide a gasification furnace equipment pressure equalization structure, which limits spontaneous convection inside an annulus section arising from furnace gas flowing into the annulus section and which can reduce the volume of the furnace gas and the amount of attendant dust flowing into the annulus section.SOLUTION: A gasification furnace equipment pressure equalization structure includes: a gasification furnace 3 that gasifies a carbon-containing fuel; a pressure vessel 5 housing the gasification furnace 3; and an annulus section 7 provided between the gasification furnace 3 and the pressure vessel 5 and filled with an inert gas. In a region where the temperature of furnace gas inside the gasification furnace 3 is higher than the annulus temperature inside the annulus section 7, a pressure equalization section 13 is provided which is connected to the gasification furnace 3 and allows the interior of the gasification furnace 3 to communicate with the interior of the annulus section 7.
    • 要解决的问题:提供一种气化炉设备压力均衡结构,其限制由于气体流入环形区段而产生的环形区域内的自发对流,并且可以减少炉内气体的体积和流入的气体量 环形部分。解决方案:气化炉设备压力平衡结构包括:使含碳燃料气化的气化炉3; 容纳气化炉3的压力容器5; 以及设置在气化炉3和压力容器5之间并填充有惰性气体的环形部分7。 在气化炉3内的炉内气体的温度高于环形空间7内的环空温度的区域中,设置有与气化炉3连接并使气化炉3内部的压力平衡部13 与环形部分7的内部连通。
    • 7. 发明专利
    • Leakage detection system
    • 泄漏检测系统
    • JP2012132847A
    • 2012-07-12
    • JP2010286706
    • 2010-12-22
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • KOYAMA TOMONORISHINADA OSAMUSHIBATA YASUNARIISHII HIROMI
    • G01M3/24B65D90/22G01H3/00G01H17/00
    • PROBLEM TO BE SOLVED: To provide a leakage detection system which rapidly detects leakage of gas with influence of a wind direction and velocity reduced when detecting the leakage of the gas from pipes or gas containers at a plant, etc.SOLUTION: A leakage detection system 1 includes: a plurality of acoustic detectors 2A, 2B, 2C, 2D which can detect sound made when gas leaks from pipes 110, 111, 112 or gas containers 100, 101 at a plant and which are installed at the plant; and at least a leakage predictor 5 for obtaining a leakage position of the gas at the pipes 110, 111, 112, etc. based on a time when information of the sound detected by the acoustic detectors 2A, 2B, 2C, 2D is obtained.
    • 要解决的问题:提供一种泄漏检测系统,当检测到来自工厂等处的管道或气体容器的气体泄漏时,可以迅速检测气体在风向和速度的影响下的泄漏。 解决方案:泄漏检测系统1包括:多个声学检测器2A,2B,2C,2D,其可以检测当气体从管道110,111,112或气体容器100,101在工厂泄漏时产生的声音,并且安装在 植物; 以及至少一个泄漏预测器5,用于根据获得由声学检测器2A,2B,2C,2D检测到的声音的信息的时间获得管道110,111,112等处的气体的泄漏位置。 版权所有(C)2012,JPO&INPIT
    • 9. 发明专利
    • Carbonaceous fuel gasifier
    • 碳燃料燃气
    • JP2014167043A
    • 2014-09-11
    • JP2013038954
    • 2013-02-28
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • SUMIDA YOSUKESHIBATA YASUNARISHINADA OSAMU
    • C10J3/46F22B37/48
    • Y02E20/18
    • PROBLEM TO BE SOLVED: To provide a carbonaceous fuel gasifier which can prevent or suppress deterioration of the function of a heat transfer tube bank due to adhesion or deposition of deposit.SOLUTION: A gasifier is configured so that, because the bank heights of high-temperature-side heat transfer tube banks 21 and 22 which come in contact with a produced gas of a temperature equal to or higher than the glass transition temperature of a carbonaceous fuel to exchange heat is lower than the bank height of other heat transfer tube banks 23 and 24, the distances from a nozzle hole of a soot blow pipe of a soot remover 30 to the central parts of the high-temperature-side heat transfer tube banks 21 and 22 are small, compared with the heat transfer tube banks 23 and 24. The configuration allows steam sprayed from the nozzle hole of the soot blow pipe to spread over the whole of the heat transfer tubes and also allows effective elimination of solidification and growth of char deposited on the high-temperature-side heat transfer banks 21 and 22, leading to prevention or suppression of deterioration of the function of the high-temperature-side heat transfer tube banks due to solidification and growth of char.
    • 要解决的问题:提供一种能够防止或抑制由于沉积物的粘附或沉积导致的传热管组的功能劣化的碳质燃料气化器。解决方案:气化器被配置为使得由于高温高压 与等于或高于碳质燃料的玻璃化转变温度的产生气体接触以进行热交换的温度侧传热管组21和22低于其他传热管组23的排放高度 和24,与传热管组23和24相比,烟灰去除器30的烟灰吹管的喷嘴孔到高温侧传热管组21和22的中心部分的距离小 该配置允许从吹灰管的喷嘴孔喷出的蒸汽扩散到整个传热管上,并且还允许有效地消除沉积在其上的炭的凝固和生长 e高温侧传热组21和22,从而防止或抑制由于炭的凝固和生长引起的高温侧传热管组的功能的劣化。