| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Production of coke | JP26721895 | 1995-10-16 | JPH08209148A | 1996-08-13 | ARUBAATO KARUDERON |
| PROBLEM TO BE SOLVED: To obtain a process for efficiently producing coke in an annular space formed by a large-diameter tube and a small-diameter tube while eliminating the deffects of the conventional Reintjes process. SOLUTION: Coke is continuously produced by heating a coal charge moving through a space having an annular section and formed by two concentically arranged tubes. A metallurgical coal is forced into a coke oven chamber 10 formed by a large-diameter tube 11 and a small-diameter tube 12 arranged concentrically therewith. The coal is heated bidirectionally along a controlled temp. gradient between the inner wall of the tube 11 and the outer wall of the tube 12 and is converted into coke while preceeding in the longitudinal direction along the concentric axes of the tubes. The coke is discharged from the chamber 10, which is at the position opposite to the charging side, and is cooled before being exposed to the air. Gases generated during the coking process is collected and treated. All the operations are done in an airtight system to prevent the environmental pollution. COPYRIGHT: (C)1996,JPO | ||||||
| 182 | Directory - Where - King method | JP3191483 | 1983-03-01 | JPH0649866B2 | 1994-06-29 | ゲイリ−・エル・ポフエンバ−ガ−; ハリ−・ア−ル・ジヤンセン |
| 183 | Production of coke and container and apparatus | JP10124886 | 1986-05-02 | JPS61255989A | 1986-11-13 | HARUTOMUUTO BAUERU; DEIITORIHI BUAAGENERU; EGUMAARU BUNDERURIHI |
| 184 | JPS5921356B2 - | JP13891377 | 1977-11-21 | JPS5921356B2 | 1984-05-19 | YAMAUCHI NORYUKI; SATAKE TETSUO; TOKO YOSHIAKI |
| 185 | Delayed coking process | JP3191483 | 1983-03-01 | JPS58194981A | 1983-11-14 | HARII AARU JIYANSEN; GEIRII ERU POFUENBAAGAA |
| 186 | Heating power adjuster for gasification combustor of tire | JP7845081 | 1981-05-23 | JPS57192719A | 1982-11-26 | NOMIYAMA YUTAKA; WACHI MASAMI |
| PURPOSE:To burn a used tire gradually and safely, by adjusting blasting air quantity to a temperature within a furnace by providing a furnace temperature detector detecting the temperature within the furnace and a blasting air quantity adjuster. CONSTITUTION:A furnace temperature detector 17 detecting a furnace temperature of a combustion furnace 13 is provided, a shutter 18 through which an air intake 11a of a blower 11 can be closed and opened is connected with an arm 20 which is fitted in a rotary shaft 19a of a control motor 19 through a link 21, and a blasting air quantity adjuster 23 is formed so that a ventilation area of an air intake 11a can be adjusted by moving a shutter 18 along a guide rail 22 installed on a blower 11 by this control motor 19. When a furance temperature exceeds a set up value the control motor is actuated to close the shutter 18, and on the contrary when the furnace temperature becomes lower than the set up value the control motor 19 is actuated to open the shutter 18. With this, a used tire can be burnt gradually and completely extending over a long period by keeping a desired heating temperature unchanged. | ||||||
| 187 | JPS5753836B2 - | JP2459075 | 1975-02-28 | JPS5753836B2 | 1982-11-15 | |
| 188 | JPS57178929U - | JP6188881 | 1981-04-27 | JPS57178929U | 1982-11-12 | |
| 189 | JPS5741541Y2 - | JP3100377 | 1977-03-15 | JPS5741541Y2 | 1982-09-11 | |
| 190 | JPS567755B2 - | JP6430278 | 1978-05-31 | JPS567755B2 | 1981-02-19 | |
| 191 | Treatment of waste water | JP6430278 | 1978-05-31 | JPS54156343A | 1979-12-10 | SEKIGUCHI HIDEAKI; FUJINAMI SHIYOUSAKU; OKAMOTO KIYOUICHI; AKIYOSHI TAKAHARU |
| PURPOSE: To provide a method of the treatment of waste water, wherein the waste water resulting from pyrolysis treatment of waste materials is subjected to dissipation treatment with air and steam, and scummy oil floating on the resulting condensed liquid and uncondensed gas (containing cyanides, etc.) will be utilized effectively as fuel for the pyrolysis treatment. CONSTITUTION: Waste water 1 resulting from pyrolysis treatment of waste materials is scattered from a top of a dissipation column 4, while air 3 and steam 3 are introduced from a bottom portion thereof, and they are contacted each other counter currently to evaporate volatile materials in the waste water. The volatile materials are introduced into a condenser 5 from where the condensed liquid is transferred into a float separator 7 where scummy oil will be separated. The scummy oil is slurried in a mixing tank 9 and is fed to combustion furnace in the pyrolysis step to be used as fuel. The noncondensed gas 6 containing cyanides formed in the condenser 5 is also burned in the combustion furnace and becomes non-toxic. COPYRIGHT: (C)1979,JPO&Japio | ||||||
| 192 | JPS53126370U - | JP3100377 | 1977-03-15 | JPS53126370U | 1978-10-06 | |
| 193 | JPS526955B1 - | JP7785069 | 1969-10-01 | JPS526955B1 | 1977-02-25 | |
| 194 | 一种农田残膜碳化处置设备 | CN202322730343.0 | 2023-10-11 | CN220907418U | 2024-05-07 | 郭志国; 何薇; 蔡宜东; 安军妹; 谢德强; 何世蓉; 孙从建; 艾合买提江·瓦哈甫 |
| 本实用新型属于碳化设备领域,具体涉及一种农田残膜碳化处置设备,包括碳化罐,所述碳化罐的底部固定连接有支腿,所述碳化罐的右端铰接有罐门,所述碳化罐的顶部设置有真空泵,所述真空泵的上端固定连接有出气管,所述真空泵的下端固定连接有进气管,所述碳化罐的内部滑动连接有移动板,所述移动板的底部设置有滚珠,所述滚珠与碳化罐滑动连接,所述移动板的右端固定连接有把手,所述移动板的上表面固定连接有置物筐,所述碳化罐的内壁设置有加热组件。通过在出气管的内部设置泄压机构,使得碳化罐工作时产生的大量气体,可以从泄压机构自动的排出,从而可降低碳化罐内部的气压,由此,避免了碳化罐因内部气压过大而发生爆炸的情况发生。 | ||||||
| 195 | 一种固体热载体垃圾热解气化装置 | CN202222408265.8 | 2022-09-09 | CN218523563U | 2023-02-24 | 吴亚坚 |
| 本实用新型公开了一种固体热载体垃圾热解气化装置,属于垃圾处理设备技术领域,包括煤循环流化床锅炉,所述煤循环流化床锅炉的一侧设置有旋风分离器,所述旋风分离器的另一侧设置有热解气化器,所述热解气化器与煤循环流化床锅炉之间设置有螺旋给料器,本实用新型通过设置过滤组件,热解气化器和旋风分离器排烟气时,气泵可将热解气化器和旋风分离器排出的烟气通过连接管和进气管将烟气排入过滤箱中,过滤箱中的水冷液对烟气进行降温和初步过滤,经过初步过滤后的烟气经过砂石层和活性炭层过滤后,通过出气管排出过滤箱,通过设置过滤组件可对热解气化器和旋风分离器排出的烟气进行过滤后再排放,减小烟气对环境的污染。 | ||||||
| 196 | 基于热裂解釜的混合焦油可燃气再利用系统 | CN202220141036.1 | 2022-01-19 | CN216584889U | 2022-05-24 | 张建行; 廖子杰 |
| 本实用新型公开了一种基于热裂解釜的混合焦油可燃气再利用系统,包括通过输送机逐级相连的垃圾储存池、垃圾分选子系统、烘干设备、破碎装置、预烘干装置、造粒装置与热裂解炭化装置,所述热裂解炭化装置的热裂解混合可燃气排出口上连接有混合可燃气处理子系统。不仅能够实现生活垃圾无氧热辐射炭化处理过程中产生的焦油、可燃气的二次能源化利用,而且能够有效避免传统技术中的各种缺陷。 | ||||||
| 197 | 基于热裂解的垃圾炭化处理系统 | CN202220141030.4 | 2022-01-19 | CN216584888U | 2022-05-24 | 张建行; 廖子杰 |
| 本实用新型公开了一种基于热裂解的垃圾炭化处理系统,包括通过输送机逐级相连的垃圾储存池、垃圾分选子系统、烘干设备、破碎装置、预烘干装置、造粒装置与热裂解炭化装置,所述热裂解炭化装置的热裂解混合可燃气排出口上连接有混合可燃气处理子系统,所述热裂解炭化装置的高温尾气排出口通过管道与所述预烘干装置的进风口相连,所述预烘干装置的臭气排放口与所述烘干设备的进气口连通,所述烘干设备的臭气排放口与垃圾储存池的臭气排放口均连接至臭气处理子系统。不仅能够实现生活垃圾无氧热辐射炭化处理过程中产生的焦油、可燃气的二次能源化利用,而且能够有效避免传统技术中的各种缺陷。 | ||||||
| 198 | 一种卧式烧炭炉 | CN202121514168.6 | 2021-07-05 | CN215288641U | 2021-12-24 | 张全义 |
| 一种卧式烧炭炉,包括炉体、排烟管道和烟气处理系统,所述排烟管道的一端与炉体的顶板相连通,所述烟气处理系统通过连接管道与排烟管道相连通,所述炉体的前侧板上设置有活页炉门,所述活页炉门上设置有点火口,其特征在于:所述炉体底部由多根间隔分布的下横梁组成,所述下横梁底部均匀安装有支腿,所述炉体的后侧板上安装有与炉体底部相连通的过风通道,所述排烟管道的另一端与过风通道相连通,排烟管道上分别设置有用来控制烟气流转的一号阀门和二号阀门。本实用新型结构简单、操作方便、资源利用率高、成品炭质量好、对环境污染小。 | ||||||
| 199 | 一种燃烧的生物质制气锅炉 | CN202023043521.5 | 2020-12-16 | CN213924645U | 2021-08-10 | 崔云国 |
| 本实用新型公开了一种燃烧的生物质制气锅炉,主要为了解决目前的生物质制气锅炉燃料无法充分接触空气并燃烧,造成能源的浪费的问题;一种燃烧的生物质制气锅炉,包括锅炉本体,所述锅炉本体包括底座、燃料区和加热区,所述底座内部开设有滑动槽、安装槽和限位槽,所述滑动槽内部滑动安装有滑动杆,所述滑动杆顶端设置有燃料板,所述底座内部设置有驱动燃料网上下滑动的驱动机构,所述加热区设置有加热网,所述加热网顶部设置有螺旋结构的加热管,所述加热管连接有穿出加热区的排水口;生物质制气锅炉燃烧生物质燃料产生可燃性气体并净化收集,将高温蒸汽中产生的热量通过加热管加热水收集,更充分的利用了生物质燃料。 | ||||||
| 200 | 一种料封优先的料位控制系统 | CN202020102696.X | 2020-01-17 | CN212954995U | 2021-04-13 | 张彦军; 熊哲; 宋小飞; 刘建华; 刘天虎; 杜闰萍; 许杰; 丁建亮 |
| 本实用新型属于垃圾热解技术领域,具体涉及一种料封优先的料位控制系统。该装置包括气固分离器入口(1)、气固分离器(2)、料腿(3)、下料控制器(4)、热解反应器(5)、料位开关A(6)、料位开关B(7)、料位开关C(8)、料位开关D(9)、垃圾进料机构(10)。采用这种料封优先的料位控制,既能保证高温热载体在料腿中形成料封作用,隔绝烟气和热解气之间的相互扩散混合,防止爆炸或爆燃事故的发生,又能及时为反应器中的垃圾热解提供热量。(ESM)同样的发明创造已同日申请发明专利 | ||||||
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