WO2017152784A1

WO2017152784A1 - System and method for dry centrifugal granulation of high_temperature liquid slag and exhaust heat recovery

Info

Publication number: WO2017152784A1
Application number: PCT/CN2017/074806
Authority: WO
Inventors: 王树众; 孟海鱼; 陈林; 于鹏飞; 吴志强; 张忠清
Original assignee: 西安交通大学
Priority date: 2016-03-11
Filing date: 2017-02-24
Publication date: 2017-09-14
Also published as: CN105603135B; CN105603135A

Abstract

A system and a method for the dry centrifugal granulation of high temperature liquid slag and exhaust heat recovery. The system comprises a liquid slag drainage system, a liquid slag buffering system, a liquid slag granulation and heat exchange system, a slag particle conveying system and an exhaust heat recovery system; the liquid slag drainage system comprises a slag groove (1), a baffle and a slag outlet (2); the liquid slag buffering system is composed of one or more independent slag containers, the slag container comprising structures such as a bag body (3), a bag cover (4), a slag pipe (5), and a stopper rod (6); the liquid slag granulation and heat exchange system is composed of one or more independent granulation and heat exchange systems which are arranged side by side in one or multiple rows, each granulation and heat exchange system being composed of a granulation bin (7), a centrifugal granulator (8), a movable bed (9) and a slag discharge device; the slag particle conveying system comprises a temperature-resistant conveyor belt (14) and a buffering material bin; the exhaust heat recovery system comprises a primary dust collector (15), an exhaust heat boiler (16), a secondary dust collector (17), an exhaust draught fan (18) and a chimney (19) which are connected in sequence.

Description

一种高温液态熔渣干式离心粒化余热回收***与方法High-temperature liquid slag dry centrifugal granulation waste heat recovery system and method

技术领域Technical field

本发明涉及高炉渣余热回收技术领域，特别涉及一种高温液态熔渣干式离心粒化余热回收***及方法。The invention relates to the technical field of blast furnace slag waste heat recovery, in particular to a high temperature liquid slag dry centrifugal granulation waste heat recovery system and method.

背景技术Background technique

中国目前是全球最大的钢铁生产国，钢铁产量已连续17年保持世界第一。2014年中国生铁产量达到7.11亿吨，约占世界总产量的60％，在冶炼生铁的过程中同时会产生蕴含巨大热量的高炉渣。高炉渣的出炉温度一般在1400～1550℃之间，每吨渣含(1260～1880)×10³kJ的显热，相当于60kg标准煤。在我国现有的炼铁技术下，每生产1吨生铁副产0.3吨高炉渣，以目前我国生铁产量7.11亿吨进行计算，可折合产生2.13亿吨以上的高炉渣，其显热量相当于1278万吨标准煤。China is currently the world's largest steel producer, and steel production has maintained its number one position in the world for 17 consecutive years. In 2014, China's pig iron production reached 711 million tons, accounting for about 60% of the world's total production. In the process of smelting pig iron, blast furnace slag containing huge heat was also produced. The blast furnace slag is generally discharged at a temperature between 1400 and 1550 ° C. Each ton of slag contains (1260 to 1880) × 10 ³ kJ of sensible heat, equivalent to 60 kg of standard coal. Under the existing iron-making technology in China, for every ton of pig iron produced by the production of 0.3 tons of blast furnace slag, the current production of pig iron in China is 711 million tons, which can be converted into blast furnace slag of more than 213 million tons, and its sensible heat is equivalent to 1278. 10,000 tons of standard coal.

干渣坑冷却法和水冲渣法是目前我国最常见的高炉渣处理方法。干渣坑冷却法将高温的液态熔渣直接排入干渣坑空冷，辅助水冷。该法降温时产生大量水蒸气，同时释放出大量的H₂S和SO₂气体，腐蚀建筑、破坏设备和恶化工作环境，一般只在事故处理时使用该法。我国90％的高炉渣都采用水冲渣法处理。水冲渣法是指利用低温的冷却水直接与高温的液态熔渣混合，使得液态熔渣温度迅速降低并形成玻璃体态炉渣颗粒。水冲渣法按照不同的工艺流程可分为因巴法、图拉法、底滤法、拉萨法、明特克法。尽管水冲渣工艺不断发展，但其技术的核心还是对高温液态熔渣进行喷水水淬，进而达到冷却和粒化的目的，然后进行水渣分离，冲渣的水经过沉淀过滤后再循环使用。尽管该法产生的玻璃体态熔渣可以应用于水泥工业进行资源化利用，但是处理过程浪费大量水资源，产生SO₂和H₂S等有害气体，也不能有效回收高温液态熔渣所含有的高品质余热资源。 The dry slag pit cooling method and the water slag slag method are the most common blast furnace slag treatment methods in China. The dry slag pit cooling method directly discharges the high-temperature liquid slag into the dry slag pit to be air-cooled, and assists water cooling. The method generates a large amount of water vapor when cooling, and releases a large amount of H ₂ S and SO ₂ gas, corrodes buildings, damages equipment, and deteriorates the working environment. Generally, the method is used only in accident handling. 90% of blast furnace slag in China is treated by water slag. The water slag method refers to the use of low-temperature cooling water to directly mix with high-temperature liquid slag, so that the liquid slag temperature is rapidly lowered and the glass body slag particles are formed. The water slag method can be divided into Inba method, Tula method, bottom filtration method, Lhasa method and Mintek method according to different process flow. Although the water slag slag process is constantly evolving, the core of the technology is to spray water quenching of high temperature liquid slag to achieve the purpose of cooling and granulation, and then slag separation, the slag water is recirculated through precipitation filtration. use. Although the vitreous slag produced by this method can be used in the cement industry for resource utilization, the process wastes a lot of water resources, generates harmful gases such as SO ₂ and H ₂ S, and cannot effectively recover the high temperature liquid slag. Quality waste heat resources.

综上所述，目前普遍采用的干渣坑冷却法和水冲渣法，不仅浪费了高温液态熔渣所含有的全部高品质余热资源，而且消耗大量水资源，对环境造成严重污染，这些处理方式已不能适应目前钢铁行业节能减排的迫切需求。必须寻求一种高效、无污染的新技术对高炉渣余热资源进行有效回收。In summary, the commonly used dry slag cooling method and water slag method not only waste all the high-quality waste heat resources contained in the high-temperature liquid slag, but also consume a lot of water resources and cause serious pollution to the environment. The method has been unable to meet the urgent needs of energy saving and emission reduction in the current steel industry. An efficient, non-polluting new technology must be sought to effectively recover blast furnace slag waste heat resources.

发明内容Summary of the invention

本发明的目的在于提供一种高温液态熔渣干式离心粒化余热回收***与方法，以解决当前高炉液态熔渣高品质余热资源浪费严重的问题。The object of the present invention is to provide a high-temperature liquid slag dry centrifugal granulation waste heat recovery system and method, so as to solve the problem that the current high-quality waste heat resource of the blast furnace liquid slag is seriously wasted.

为了实现上述目的，本发明采用如下技术方案：In order to achieve the above object, the present invention adopts the following technical solutions:

一种高温液态熔渣干式离心粒化余热回收***，包括液态熔渣粒化与换热***及余热回收***；A high-temperature liquid slag dry centrifugal granulation waste heat recovery system, comprising a liquid slag granulation and heat exchange system and a waste heat recovery system;

液态熔渣粒化与换热***由一个或多个独立的粒化与换热***组成；所述粒化与换热***包括粒化仓、离心粒化器、移动床及排渣装置；粒化仓内表面布置有受热面，粒化仓顶部设有开口，落渣管从该开口伸入至位于粒化仓内的离心粒化器上方；离心粒化器的旁侧设有送风管道，离心粒化器与送风管道间形成环形风口；移动床位于粒化仓下部，移动床内表面布置有受热面，顶部或侧面设有出风口，底部设有进风装置；排渣装置位于进风装置下方；The liquid slag granulation and heat exchange system consists of one or more independent granulation and heat exchange systems; the granulation and heat exchange system includes a granulation tank, a centrifugal granulator, a moving bed and a slagging device; The inner surface of the chemical storage chamber is provided with a heating surface, and the top of the granulation chamber is provided with an opening, and the falling slag tube extends from the opening into the centrifugal granulator located in the granulation chamber; the air supply duct is arranged on the side of the centrifugal granulator The annular plenum is formed between the centrifugal granulator and the air supply duct; the moving bed is located at the lower part of the granulation chamber, the inner surface of the moving bed is arranged with a heating surface, the top or side is provided with an air outlet, and the bottom is provided with an air inlet device; the slag discharging device is located Below the air inlet device;

余热回收***包括依次连接的一次除尘器、余热锅炉、二次除尘器、排气风机和烟囱；一次除尘器连接各移动床出风口的汇集风道。The waste heat recovery system includes a primary dust collector, a waste heat boiler, a secondary dust remover, an exhaust fan, and a chimney that are sequentially connected; the primary dust remover connects the collection air passages of the moving bed air outlets.

进一步的，液态熔渣粒化与换热***由多个独立的粒化与换热***组成，粒化与换热***呈单排或多排并列布置。Further, the liquid slag granulation and heat exchange system is composed of a plurality of independent granulation and heat exchange systems, and the granulation and heat exchange systems are arranged in a single row or multiple rows in parallel.

进一步的，还包括液态熔渣引流***和液态熔渣缓冲***；液态熔渣引流***包括渣沟、挡板及出渣口；渣沟进口与高炉排渣口直接相连，渣沟出口位于熔渣缓冲***进口上方；挡板位于渣沟底部；渣沟有一个或多个出渣口；液态熔渣缓冲***由一个或多个独立的渣包组成；所述渣包包括包体、包盖、落渣管及塞棒；落渣管位于渣包底部；渣包有一个或多个落渣管，塞棒位于对应落渣管上方，用于控制落渣流量或者密封落渣管。Further, the method further comprises a liquid slag drainage system and a liquid slag buffering system; the liquid slag drainage system comprises a slag ditch, a baffle and a slag discharge port; the slag ditch inlet is directly connected to the blast furnace slag discharge port, and the slag ditch outlet is located at the slag Above the inlet of the buffer system; the baffle is located at the bottom of the slag ditch; the slag ditch has one or more slag tapping ports; the liquid slag buffering system is composed of one or more independent slag packs; The slag bag comprises a package body, a cover, a slag tube and a plug rod; the slag tube is located at the bottom of the slag bag; the slag package has one or more slag tubes, and the stopper rod is located above the corresponding slag tube for controlling the falling Slag flow or seal slag pipe.

进一步的，排渣装置包括位于移动床下部的振动出料机和密封阀；排渣装置下方设有渣粒输送***；渣粒输送***包括耐温输送皮带和缓冲料仓，输送皮带位于排渣装置下方，缓冲料仓位于输送皮带的输送终点。Further, the slagging device comprises a vibrating discharger and a sealing valve at a lower part of the moving bed; a slag conveying system is arranged below the slag discharging device; the slag conveying system comprises a temperature resistant conveying belt and a buffer silo, and the conveying belt is located at the slag discharging Below the unit, the buffer silo is located at the end of the conveyor belt.

进一步的，所述塞棒由金属内管和金属外管套装组成，两管之间由连接肋相接，形成中空布置，棒头为锥形结构或者圆形结构；金属内管的下端口与金属外管相连通，金属外管下端密封，上端设有塞棒冷风出口；金属内管上部设有塞棒冷风进口；冷风由塞棒冷风进口进入金属内管，由金属内管和金属外管之间经塞棒冷风出口流出，对金属外管壁面进行冷却；金属外管的外壁通过拉钩以及销钉固定有隔热材料或者喷涂有防腐蚀涂层。Further, the stopper rod is composed of a metal inner tube and a metal outer tube set, and the two tubes are connected by a connecting rib to form a hollow arrangement, the rod head is a tapered structure or a circular structure; the lower port of the metal inner tube is The outer metal tube is connected, the lower end of the metal outer tube is sealed, the upper end is provided with a cold air outlet of the plug rod; the upper part of the metal inner tube is provided with a cold air inlet of the plug rod; the cold air is imported into the metal inner tube by the cold air inlet of the plug rod, and the metal inner tube and the metal outer tube The outer wall of the metal outer tube is cooled by the cold air outlet of the plug rod; the outer wall of the metal outer tube is fixed with the heat insulating material or the anti-corrosion coating by the hook and the pin.

进一步的，所述粒化仓内表面布置的受热面包括粒化仓竖墙内表面受热面和粒化仓顶部内表面受热面；粒化仓竖墙内表面受热面及移动床内表面布置的受热面均采用单管螺旋上升、多管并列螺旋上升、垂直管屏或膜式水冷壁的结构，粒化仓顶部内表面受热面采用单管、多管并列水平往复或盘旋的结构，或者采用膜式水冷壁结构。Further, the heating surface disposed on the inner surface of the granulation chamber comprises a heating surface of the inner surface of the vertical wall of the granulation silo and a heating surface of the inner surface of the top of the granulation chamber; a heating surface of the inner surface of the vertical wall of the granulated silo and a surface of the moving bed The heating surface adopts the structure of single tube spiral rise, multi-tube parallel spiral rise, vertical tube screen or membrane water wall, and the heating surface of the top surface of the granulation silo adopts a single tube and multiple tubes in parallel horizontal reciprocating or spiral structure, or adopts Membrane water wall structure.

进一步的，所述进风装置包括位于移动床底部的布风装置、移动床外侧底部的风道以及鼓风机，鼓风机连通风道，风道分别连通离心粒化器旁侧的送风管道和移动床底部的布风装置；所述布风装置位于移动床底部，由布风管和风帽组成，布风管的横截面形状为椭圆形。Further, the air inlet device comprises an air distribution device at the bottom of the moving bed, an air passage at the bottom of the moving bed, and a blower. The air blower is connected to the air passage, and the air passage respectively communicates with the air supply duct and the moving bed beside the centrifugal granulator. The air distribution device at the bottom; the air distribution device is located at the bottom of the moving bed, and is composed of a cloth duct and a hood, and the cross-sectional shape of the air duct is elliptical.

进一步的，余热回收***还包括给水泵、余热锅炉省煤器、汽包；给水泵的出口依次连接余热锅炉省煤器、移动床内表面受热面、粒化仓竖墙内表面受热面、粒化仓顶部内表面受热面和汽包；汽包下部通过管道与余热锅炉蒸发受热面相连；汽包顶部通过管道依次连通余热锅炉过热器和主蒸汽管道。Further, the waste heat recovery system further comprises a feed water pump, a waste heat boiler economizer, a steam drum; the outlet of the feed water pump is sequentially connected to the waste heat boiler economizer, the heated surface of the moving bed inner surface, the inner surface of the granulated silo vertical wall, the heating surface, and the grain The inner surface of the top of the chemical silo is heated and steamed; the lower part of the steam drum is connected to the evaporation heating surface of the waste heat boiler through the pipeline; the top of the steam drum is connected to the waste heat boiler superheater and the main steam pipeline through the pipeline.

进一步的，移动床的前后炉墙及中间炉墙为垂直炉墙，左右炉墙为倾斜炉墙，倾斜炉墙与水平面的夹角为60°。Further, the front and rear furnace walls and the intermediate furnace wall of the moving bed are vertical furnace walls, and the left and right furnace walls are inclined furnace walls, inclined furnace walls and The angle of the horizontal plane is 60°.

进一步的，一次除尘器和余热锅炉布置在粒化***的上方或布置在水平面上。Further, the primary dust collector and the waste heat boiler are arranged above the granulation system or on a horizontal surface.

一种高温液态熔渣干式离心粒化余热回收方法，包括以下步骤：A high-temperature liquid slag dry centrifugal granulation waste heat recovery method comprises the following steps:

(1)液态熔渣通过落渣管进入粒化仓落在离心粒化器上，旋转的离心粒化器将流入的液态熔渣粒化成小液滴，小液滴飞溅至粒化仓内，小液滴飞行过程中在粒化仓受热面和离心粒化器旁侧的环形风口吹出的环形风的双重冷却作用下，变成具有硬质外表面的渣粒；(1) The liquid slag enters the granulation bin through the falling slag pipe and falls on the centrifugal granulator. The rotating centrifugal granulator granulates the inflowing liquid slag into small droplets, and the small droplets splash into the granulation bin. During the flight of the small droplets, under the double cooling effect of the annular wind blown by the heated surface of the granulation chamber and the annular tuyere beside the centrifugal granulator, the slag particles having a hard outer surface become;

(2)渣粒随后落入粒化仓下部的移动床进行堆积形成料层，高温渣粒与周围的移动床受热面和通过布风装置鼓入的空气进行换热，实现充分冷却；(2) The slag particles then fall into the moving bed in the lower part of the granulation bin to form a layer, and the high-temperature slag particles exchange heat with the surrounding moving bed heating surface and the air blasted through the air blowing device to achieve sufficient cooling;

(3)充分冷却后的渣粒穿过布风装置空隙掉落至排渣装置。(3) The sufficiently cooled slag particles are dropped through the air gap of the air distribution device to the slag discharging device.

进一步的，粒化与换热***出风口的热空气经汇集后依次经过一次除尘器、余热锅炉、二次除尘器和排气风机，最后经烟囱排出。Further, the hot air of the granulation and the air outlet of the heat exchange system is collected and then passed through a dust remover, a waste heat boiler, a secondary dust remover and an exhaust fan, and finally discharged through the chimney.

进一步的，给水泵给入的水依次经过余热锅炉省煤器、移动床受热面和粒化仓受热面的加热后进入汽包；汽包内的水通过管道与蒸发受热面连接进行循环；饱和蒸汽经过热器加热后与主蒸汽管道相连，产生的蒸汽并入蒸汽管网或发电。Further, the water fed by the feed water pump is sequentially heated by the waste heat boiler economizer, the moving bed heating surface and the heating surface of the granulating chamber to enter the steam drum; the water in the steam drum is connected to the evaporation heating surface through the pipeline to circulate; The steam is heated by a heater and connected to the main steam line, and the generated steam is combined into a steam pipe network or power generation.

进一步的，液态熔渣首先从高炉排渣口直接进入渣沟，通过渣沟的一个或多个出渣口将液态熔渣分配到一个或多个独立的渣包中进行保温缓冲，解决高炉间歇排渣的问题，实现余热回收***的连续运行；Further, the liquid slag first enters the slag trench directly from the blast furnace slag discharge port, and the liquid slag is distributed into one or more independent slag packages through one or more slag discharge ports of the slag ditch to be insulated and buffered to solve the blast furnace interval. The problem of slagging to achieve continuous operation of the waste heat recovery system;

进一步的，渣包中的液态熔渣在塞棒的控制下以一定的流量通过落渣管进入粒化仓落在离心粒化器上。Further, the liquid slag in the slag bag is passed through the slag tube at a certain flow rate under the control of the plug rod into the granulation chamber and falls on the centrifugal granulator.

本发明的技术方案具有以下有益效果：The technical solution of the present invention has the following beneficial effects:

(1)本发明所述液态熔渣引流及缓冲***具有导流、分流及保温的功能，有效解决高炉间歇排渣与余热回收设备连续运行不同步的难题，实现液态熔渣就地、连续处理，保证整个 ***的安全稳定运行。(1) The liquid slag drainage and buffering system of the invention has the functions of diversion, diversion and heat preservation, effectively solving the problem that the continuous operation of the blast furnace intermittent slag discharge and the waste heat recovery equipment is not synchronized, and realizing the liquid slag in situ and continuous treatment. To guarantee the whole The system operates safely and steadily.

(2)本发明所述塞棒由金属内管和金属外管套装组成，形成中空结构，采用风冷保证金属被完全冷却，金属的壁面温度一直低于其可用温度。耐火材料敷设于外管表面，可有效隔热降低金属壁面温度，金属外管上布置有拉钩以及销钉保证耐火材料的力学性能。棒头为锥形结构或者圆形结构，目的是与下方水口紧密配合以调整流通截面。(2) The stopper rod of the present invention is composed of a metal inner tube and a metal outer tube set to form a hollow structure, and air cooling is used to ensure that the metal is completely cooled, and the wall temperature of the metal is always lower than its usable temperature. The refractory material is laid on the surface of the outer tube, which can effectively reduce the temperature of the metal wall surface, and the metal outer tube is provided with a hook and a pin to ensure the mechanical properties of the refractory material. The club head has a tapered structure or a circular structure, and the purpose is to closely match the lower nozzle to adjust the flow cross section.

(3)本发明所述移动床的左右倾斜炉墙与水平面呈60°夹角，这是根据高炉渣颗粒的安息角来设计的，以保证床内高炉渣颗粒自由向下滑动，有助于排渣。(3) The left and right inclined furnace walls of the moving bed of the present invention are at an angle of 60° with the horizontal plane, which is designed according to the angle of repose of the blast furnace slag particles to ensure that the blast furnace slag particles in the bed slide downward freely, which contributes to Drainage.

(4)本发明所述移动床的布风装置采用布风管与风帽相结合的方式，风帽排列形式为正方形，使得移动床内布风均匀，增强空气与高炉渣颗粒的换热，同时风帽结构可有效防止高炉渣颗粒在向下移动的过程中进入布风装置。(4) The air distribution device of the moving bed of the present invention adopts a combination of a cloth duct and a hood, and the hood is arranged in a square shape, so that the air in the moving bed is uniform, and the heat exchange between the air and the blast furnace slag particles is enhanced, and the hood is simultaneously The structure can effectively prevent the blast furnace slag particles from entering the air distribution device during the downward movement.

(5)本发明所述移动床的布风管横截面形状为椭圆形，这是根据本发明特殊的排渣方式来设计的，以保证在布风管之间形成足够的空间，利于冷却后的高炉渣颗粒穿过布风装置向下排出。(5) The cross-sectional shape of the air duct of the moving bed of the present invention is elliptical, which is designed according to the special slagging method of the present invention to ensure sufficient space between the air ducts to facilitate cooling. The blast furnace slag particles are discharged downward through the air distribution device.

(6)本发明所述移动床内的空气及受热面内换热工质的流动方向与高炉渣移动方向呈逆流布置，从而可将粒化高炉渣颗粒的高温显热充分回收。(6) The flow direction of the air and the heat transfer medium in the moving bed of the present invention is arranged in a countercurrent flow direction with the moving direction of the blast furnace slag, so that the high temperature sensible heat of the granulated blast furnace slag particles can be fully recovered.

本发明所述余热回收***采用风冷与水冷相结合的方式，解决了单一采用水冷导致的冷却不均匀问题，或单一采用空冷空气流量大风机功耗大的问题，可以达到较好的冷却效果。The waste heat recovery system of the present invention adopts a combination of air cooling and water cooling, and solves the problem of uneven cooling caused by single water cooling, or the problem of large power consumption of a large air-cooling air flow fan, which can achieve better cooling effect. .

附图说明DRAWINGS

下面结合附图和具体实施方式对本发明做进一步详细说明。The present invention will be further described in detail below in conjunction with the drawings and specific embodiments.

图1为本发明一种高温液态熔渣干式离心粒化余热回收***示意图；1 is a schematic view of a high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to the present invention;

图2为本发明中一种塞棒的结构示意图；2 is a schematic structural view of a stopper rod according to the present invention;

图3为本发明中另一种塞棒的结构示意图； Figure 3 is a schematic view showing the structure of another stopper rod in the present invention;

图4为本发明移动床风帽排列形式示意图；Figure 4 is a schematic view showing the arrangement of the moving bed hood of the present invention;

图5为本发明移动床布风管及风帽结构示意图；Figure 5 is a schematic structural view of a moving bed duct and a hood according to the present invention;

图6为沿图5中A-A线的剖视图。Figure 6 is a cross-sectional view taken along line A-A of Figure 5 .

图中：1、渣沟；2、渣沟出渣口；3、渣包包体；4、渣包包盖；5、落渣管；6、塞棒；7、粒化仓；8、离心粒化器；9、移动床；10、电机；11、粒化器送风管道；12、粒化器环形风口；13、出风口；14、输送皮带；15、一次除尘器；16、余热锅炉；17、二次除尘器；18、排气风机；19、烟囱；20、汇集风道；21、粒化仓竖墙内表面受热面；22、移动床内表面受热面；23、粒化仓顶部内表面受热面；24、移动床左右炉墙；25、风道；26、鼓风机；27、布风管；28、风帽；29、振动出料机；30、密封阀；31、给水泵；32、余热锅炉省煤器；33、汽包；34、余热锅炉蒸发受热面；35、余热锅炉过热器；36、主蒸汽管道；37、金属内管；38、金属外管；39、连接肋；40、棒头；41、塞棒冷风进口；42、塞棒冷风出口；43、隔热材料；44、防腐蚀涂层。In the figure: 1, slag ditch; 2, slag dross; 3, slag inclusion; 4, slag bag cover; 5, slag pipe; 6, plug rod; 7, granulated warehouse; Granulator; 9, moving bed; 10, motor; 11, granulator air supply duct; 12, granulator annular tuyere; 13, air outlet; 14, conveyor belt; 15, primary dust collector; 16, waste heat boiler ; 17, secondary dust collector; 18, exhaust fan; 19, chimney; 20, collecting air duct; 21, granulated silo vertical wall inner surface heating surface; 22, moving bed inner surface heating surface; 23, granulating warehouse Top inner surface heated surface; 24, moving bed left and right furnace wall; 25, air duct; 26, blower; 27, air duct; 28, hood; 29, vibrating discharge machine; 30, sealing valve; 32, waste heat boiler economizer; 33, steam drum; 34, waste heat boiler evaporation heating surface; 35, waste heat boiler superheater; 36, main steam pipeline; 37, metal inner tube; 38, metal outer tube; 39, connecting rib 40, club head; 41, plug cold air inlet; 42, plug cold air outlet; 43, insulation material; 44, anti-corrosion coating.

具体实施方式detailed description

下面将结合附图对本发明的具体实施方式加以说明：Specific embodiments of the present invention will be described below with reference to the accompanying drawings:

请参阅图1至图6所示，本发明一种高温液态熔渣干式离心粒化余热回收***，包括液态熔渣引流***、液态熔渣缓冲***、液态熔渣粒化及换热***、渣粒输送***及余热回收***。Referring to FIG. 1 to FIG. 6 , a high-temperature liquid slag dry centrifugal granulation waste heat recovery system comprises a liquid slag drainage system, a liquid slag buffer system, a liquid slag granulation and a heat exchange system, Slag conveying system and waste heat recovery system.

液态熔渣引流***包括渣沟1、挡板及出渣口2；渣沟进口与高炉排渣口直接相连，渣沟出渣口2位于熔渣缓冲***进口上方；挡板位于渣沟底部；渣沟有多个出渣口2。The liquid slag drainage system comprises a slag ditch 1, a baffle and a slag discharge port 2; the slag ditch inlet is directly connected with the blast furnace slag discharge port, and the slag ditch discharge port 2 is located above the slag buffer system inlet; the baffle is located at the bottom of the slag ditch; The slag ditch has a plurality of slag ports 2 .

液态熔渣缓冲***由多个独立的渣包组成；渣包包括渣包包体3、包盖4、落渣管5和塞棒6；落渣管5位于渣包底部，与粒化***相连；渣包具有多个落渣管5，塞棒6位于对应落渣管5上方，用于控制落渣流量或者密封落渣管5。The liquid slag buffer system is composed of a plurality of independent slag packages; the slag bag comprises a slag bag body 3, a cover 4, a slag tube 5 and a stopper rod 6; the slag tube 5 is located at the bottom of the slag package and is connected to the granulation system The slag bag has a plurality of slag pipes 5, which are located above the corresponding slag pipes 5 for controlling the slag flow rate or sealing the slag pipes 5.

液态熔渣粒化与换热***由多个独立的粒化与换热***组成，***呈单排并列布置；液态熔渣粒化及换热***由粒化仓7、离心粒化器8、移动床9及排渣装置组成；粒化仓内表面布置有受热面，粒化仓顶部中心开口使得熔渣缓冲***的落渣管5可伸入粒化仓7内，离心粒化器8位于落渣管5下方，离心粒化器8下部与电机10相连，离心粒化器8的旁侧设有送风管道11，离心粒化器8与送风管道11间形成环形风口12；移动床9位于粒化仓7下部，内表面布置有移动床内表面受热面22，顶部设有出风口13，底部设有进风装置；排渣装置位于进风装置下方。The liquid slag granulation and heat exchange system consists of a plurality of independent granulation and heat exchange systems, and the system is arranged in a single row in parallel; The slag granulation and heat exchange system is composed of a granulation tank 7, a centrifugal granulator 8, a moving bed 9 and a slagging device; the inner surface of the granulation chamber is arranged with a heating surface, and the center opening of the top of the granulation chamber makes the slag buffer system The slag tube 5 can extend into the granulation chamber 7, the centrifugal granulator 8 is located below the slag tube 5, the lower portion of the centrifugal granulator 8 is connected to the motor 10, and the side of the centrifugal granulator 8 is provided with a supply duct. 11. The annular plenum 12 is formed between the centrifugal granulator 8 and the air supply duct 11; the moving bed 9 is located at the lower part of the granulation chamber 7, the inner surface is provided with a heated surface 22 of the moving bed inner surface, the top is provided with an air outlet 13 and the bottom is provided The air inlet device; the slagging device is located below the air inlet device.

渣粒输送***包括耐温输送皮带14和缓冲料仓，输送皮带位于排渣装置下方，缓冲料仓设于不同方向皮带的交汇处。The slag conveying system comprises a temperature-resistant conveying belt 14 and a buffer silo, the conveying belt is located below the slag discharging device, and the buffer silo is arranged at the intersection of the belts in different directions.

余热回收***包括依次连接的一次除尘器15、余热锅炉16、二次除尘器17、排气风机18和烟囱19；一次除尘器连接移动床粒化仓出风口汇集风道20。The waste heat recovery system includes a primary dust collector 15 connected in sequence, a waste heat boiler 16, a secondary dust remover 17, an exhaust fan 18, and a chimney 19; the primary dust collector is connected to the moving bed granulation chamber air outlet collecting duct 20.

本实施方式中的一种高温液态熔渣干式离心粒化余热回收***通过液态熔渣引流和缓冲***实现了熔渣生产***与处理***的有效链接，具有导流、分流及保温功能，有效解决高炉间歇排渣与余热回收设备连续运行不同步的难题，实现液态熔渣就地、连续处理，保证整个***的安全稳定运行；通过液态熔渣粒化与换热***、余热回收***实现对液态熔渣的粒化成型与余热回收，各阶段所用的冷却水资源可循环利用，不仅解决了资源浪费严重、污染严重的问题，还实现了高温液态熔渣余热的高效回收。The high-temperature liquid slag dry centrifugal granulation waste heat recovery system in the present embodiment realizes an effective link between the slag production system and the treatment system through the liquid slag drainage and buffer system, and has the functions of diversion, diversion and heat preservation, and is effective Solve the problem that the continuous operation of blast furnace intermittent slagging and waste heat recovery equipment is not synchronized, realize the on-site and continuous treatment of liquid slag, ensure the safe and stable operation of the whole system; realize the liquefaction and heat exchange system and waste heat recovery system through liquid slag The granulation molding and waste heat recovery of liquid slag, the cooling water resources used in each stage can be recycled, which not only solves the problem of serious waste of resources and serious pollution, but also realizes efficient recovery of waste heat of high-temperature liquid slag.

请参阅图2所示，具体的，塞棒6由金属内管37和金属外管38套装组成，两管之间由连接肋39相接，形成中空布置；塞棒6的棒头40为锥形结构；棒头中设有热电偶用于确定金属内管37和金属外管38中的风量，以使金属外管的温度可控制在合适的范围内。金属内管37的下端口与金属外管38相连通，金属外管38下端密封，上端设有塞棒冷风出口42；金属内管37上部设有塞棒冷风进口41。冷风由冷风进口41进入金属内管37，由两管之间经塞棒冷风出口42流出，对金属壁面形成冷却效应。金属外管表面敷设隔热材料43，外管壁上布置拉钩以及销钉固定隔热材料。请参阅图3所示，为另一种塞棒的结构，将隔热材料43替换成等离子高温喷涂形成的防腐蚀涂层44。Referring to FIG. 2, specifically, the stopper rod 6 is composed of a metal inner tube 37 and a metal outer tube 38, and the two tubes are connected by a connecting rib 39 to form a hollow arrangement; the rod head 40 of the stopper rod 6 is a cone. A structure is provided; a thermocouple is provided in the rod head for determining the amount of air in the metal inner tube 37 and the metal outer tube 38 so that the temperature of the metal outer tube can be controlled within a suitable range. The lower port of the metal inner tube 37 communicates with the metal outer tube 38, the lower end of the metal outer tube 38 is sealed, the upper end is provided with a plug cold air outlet 42; and the upper portion of the metal inner tube 37 is provided with a plug cold air inlet 41. The cold air enters the metal inner tube 37 from the cold air inlet 41, and flows out between the two tubes through the plug cold air outlet 42 to form a cooling effect on the metal wall surface. The surface of the metal outer tube is laid with a heat insulating material 43, and the outer tube wall is arranged to be pulled Hooks and pins secure the insulation. Referring to FIG. 3, for another plug structure, the heat insulating material 43 is replaced with an anti-corrosion coating 44 formed by plasma high temperature spraying.

具体的，粒化仓竖墙内表面受热面21及移动床内表面受热面22采用单管螺旋上升的结构，粒化仓顶部内表面受热面23采用单管水平往复的结构。Specifically, the inner surface of the granulated silo vertical wall 21 and the heated surface of the moving bed inner surface 22 are spirally raised by a single tube, and the inner surface of the granulated silo is heated by a single tube horizontally reciprocating structure.

具体的，移动床的前后炉墙及中间炉墙为垂直炉墙，移动床左右炉墙24为倾斜炉墙，倾斜炉墙与水平面的夹角为60°。进风装置包括位于移动床底部的布风装置、移动床外侧底部的风道25以及鼓风机26，鼓风机26连通风道25，风道25分别连通离心粒化器旁侧的送风管道11和移动床底部的布风装置。布风装置位于移动床底部，由布风管27和风帽28组成，布风管27的横截面形状为椭圆形。风帽28的出风口倾斜向下设置，能够使渣粒掉落的是否增加一个向下的作用力，还能防止渣粒堵住风帽的出风口。落渣管5下落的液态熔渣滴入离心粒化器8中进行粒化，粒化后的颗粒在离心力以及环形风口12的共同作用下，吹入粒化仓7，并往下掉落到风帽上部，堆积一定厚度后，下部渣粒完全冷去后，开启排渣装置，渣粒穿过进风装置掉落至排渣装置中。进风装置由下向上吹风，与颗粒下落方向相反，有效的吸收的颗粒的热量。Specifically, the front and rear furnace walls and the intermediate furnace wall of the moving bed are vertical furnace walls, and the left and right furnace walls 24 of the moving bed are inclined furnace walls, and the angle between the inclined furnace walls and the horizontal plane is 60°. The air inlet device comprises an air blowing device at the bottom of the moving bed, an air duct 25 at the bottom of the moving bed, and a blower 26, and the air blower 26 communicates with the air duct 25, and the air duct 25 respectively communicates with the air duct 11 and the moving side of the centrifugal granulator. The air distribution device at the bottom of the bed. The air distribution device is located at the bottom of the moving bed and is composed of a cloth duct 27 and a hood 28, and the air duct 27 has an elliptical cross section. The air outlet of the hood 28 is disposed obliquely downward to increase the downward force of the slag particles, and to prevent the slag particles from blocking the air outlet of the hood. The falling liquid slag of the falling slag tube 5 is dropped into the centrifugal granulator 8 for granulation, and the granulated particles are blown into the granulating chamber 7 under the combined action of the centrifugal force and the annular tuyere 12, and are dropped down to After a certain thickness is accumulated in the upper part of the hood, after the lower slag particles are completely cooled, the slag discharge device is opened, and the slag particles are dropped through the air inlet device to the slag discharging device. The air inlet device blows from the bottom to the top, opposite to the falling direction of the particles, and effectively absorbs the heat of the particles.

具体的，排渣装置包括位于移动床下部的振动出料机29和密封阀30。Specifically, the slagging device includes a vibrating discharger 29 and a sealing valve 30 located at a lower portion of the moving bed.

具体的，余热回收***还包括给水泵31、余热锅炉省煤器32、汽包33；给水泵31的出口依次连接余热锅炉省煤器32、移动床内表面受热面22、粒化仓竖墙内表面受热面21、粒化仓顶部内表面受热面23和汽包33；汽包33下部通过管道与余热锅炉蒸发受热面34相连；汽包33顶部通过管道依次连通余热锅炉过热器35和主蒸汽管道36。Specifically, the waste heat recovery system further includes a feed water pump 31, a waste heat boiler economizer 32, and a steam drum 33; the outlet of the feed water pump 31 is sequentially connected to the waste heat boiler economizer 32, the heated surface of the moving bed inner surface 22, and the granulated warehouse vertical wall The inner surface heating surface 21, the granulation chamber top inner surface heating surface 23 and the steam drum 33; the lower portion of the steam drum 33 is connected to the waste heat boiler evaporation heating surface 34 through a pipeline; the top of the steam drum 33 is sequentially connected to the waste heat boiler superheater 35 and the main through the pipeline Steam line 36.

本发明利用上述一种高温液态熔渣干式离心粒化余热回收***的余热回收方法，主要包括以下步骤：The invention utilizes the waste heat recovery method of the above-mentioned high-temperature liquid slag dry centrifugal granulation waste heat recovery system, which mainly comprises the following steps:

(1)液态熔渣首先从高炉排渣口直接进入渣沟1，通过渣沟的多个出渣口将液态熔渣分配到多个独立的渣包中进行保温缓冲，解决高炉间歇排渣的问题，实现余热回收***的连续运行；(1) The liquid slag is firstly introduced into the slag ditch 1 from the slag discharge port of the blast furnace, and the liquid slag is divided by the plurality of slag discharge ports of the slag ditch. It is equipped with a plurality of independent slag packages for thermal insulation buffering to solve the problem of intermittent slag discharge in the blast furnace, and realize continuous operation of the waste heat recovery system;

(2)渣包中的液态熔渣在塞棒6的控制下以一定的流量通过落渣管5进入粒化仓7，落在离心粒化器8上，高速旋转的离心粒化器将流入转杯的液态熔渣粒化成小液滴，小液滴飞溅至粒化仓的大空间内，小液滴飞行过程中在粒化仓受热面和粒化器环形风的双重冷却作用下，变成具有硬质外表面的渣粒；(2) The liquid slag in the slag bag enters the granulation chamber 7 through the slag tube 5 under a certain flow rate under the control of the stopper rod 6, and falls on the centrifugal granulator 8, and the high-speed rotating centrifugal granulator will flow in. The liquid slag of the rotor is granulated into small droplets, and the small droplets splash into the large space of the granulation chamber. During the flight of the small droplets, under the double cooling effect of the heating surface of the granulation chamber and the annular wind of the granulator, the droplets change. Forming slag particles having a hard outer surface;

(3)渣粒随后落入粒化仓7下部的移动床9，堆积形成一定厚度的料层，以保证冷却时间，高温渣粒与周围的移动床受热面和通过布风装置鼓入的空气进行换热，实现充分冷却；(3) The slag particles then fall into the moving bed 9 at the lower part of the granulation chamber 7, and are piled up to form a layer of a certain thickness to ensure the cooling time, the high temperature slag particles and the surrounding moving bed heating surface and the air blasted through the air distribution device. Perform heat exchange to achieve sufficient cooling;

(4)充分冷却后的渣粒穿过布风装置空隙经排渣装置掉落到输送皮带上，经渣粒输送***输送到渣厂以备后续利用；(4) The fully cooled slag particles pass through the gap of the air distribution device and drop onto the conveyor belt through the slagging device, and are transported to the slag plant through the slag particle conveying system for subsequent use;

各粒化与换热***出风口的热空气经汇集后依次经过一次除尘器、余热锅炉、二次除尘器和排气风机，最后经烟囱排出；The tempering and hot air of the air outlet of the heat exchange system are collected and passed through a dust collector, a waste heat boiler, a secondary dust collector and an exhaust fan, and finally discharged through the chimney;

给水泵给入的水依次经过余热锅炉省煤器、移动床受热面和粒化仓受热面的加热后进入汽包；汽包内的水通过管道与蒸发受热面连接进行循环；饱和蒸汽经过热器加热后与主蒸汽管道相连，产生的蒸汽并入蒸汽管网或发电。The water fed by the feed water pump is sequentially heated by the waste heat boiler economizer, the moving bed heating surface and the heating surface of the granulating chamber to enter the steam drum; the water in the steam drum is connected to the evaporation heating surface through the pipeline for circulation; the saturated steam passes through the heat The heater is connected to the main steam line after heating, and the generated steam is incorporated into the steam pipe network or generates electricity.

最后应说明的是：以上实施方式仅用以说明本发明而非限制本发明所描述的技术方案；因此，尽管本说明书参照上述实施方式对本发明已进行了详细的描述，但是，本领域的普通技术人员应当理解，仍然可以对本发明进行修改或等同替换；而一切不脱离本发明精神和范围的技术方案及其改进，其均应涵盖在本发明的权利要求范围中。 It should be noted that the above embodiments are only intended to illustrate the invention and not to limit the technical solutions described in the present invention; therefore, although the present specification has been described in detail with reference to the above embodiments, It will be understood by those skilled in the art that the present invention may be modified or equivalently substituted without departing from the spirit and scope of the invention.

Claims

一种高温液态熔渣干式离心粒化余热回收***，其特征在于，包括液态熔渣粒化与换热***及余热回收***；A high-temperature liquid slag dry centrifugal granulation waste heat recovery system, characterized by comprising a liquid slag granulation and heat exchange system and a waste heat recovery system;

液态熔渣粒化与换热***由一个或多个独立的粒化与换热***组成；所述粒化与换热***包括粒化仓(7)、离心粒化器(8)、移动床(9)及排渣装置；粒化仓内表面布置有受热面，粒化仓顶部设有开口，落渣管(5)从该开口伸入至位于粒化仓(7)内的离心粒化器(8)上方；离心粒化器的旁侧设有送风管道(11)，离心粒化器(8)与送风管道(11)间形成环形风口(12)；移动床(9)位于粒化仓(7)下部，移动床(9)内表面布置有受热面，顶部或侧面设有出风口(13)，底部设有进风装置；排渣装置位于进风装置下方；The liquid slag granulation and heat exchange system consists of one or more independent granulation and heat exchange systems; the granulation and heat exchange system comprises a granulation tank (7), a centrifugal granulator (8), a moving bed (9) and a slagging device; the inner surface of the granulation chamber is provided with a heating surface, and the top of the granulation chamber is provided with an opening, and the slag tube (5) extends from the opening into the centrifugal granulation in the granulation chamber (7) Above the device (8); a centrifugal duct (11) is arranged on the side of the centrifugal granulator, and an annular tuyere (12) is formed between the centrifugal granulator (8) and the air supply duct (11); the moving bed (9) is located In the lower part of the granulation bin (7), the inner surface of the moving bed (9) is provided with a heating surface, the top or side is provided with an air outlet (13), and the bottom is provided with an air inlet device; the slag discharging device is located below the air inlet device;

余热回收***包括依次连接的一次除尘器(15)、余热锅炉(16)、二次除尘器(17)、排气风机(18)和烟囱(19)；一次除尘器连接各移动床出风口的汇集风道(20)。The waste heat recovery system includes a primary dust collector (15), a waste heat boiler (16), a secondary dust remover (17), an exhaust fan (18), and a chimney (19) connected in sequence; the primary dust collector is connected to each moving bed air outlet. Collect the air duct (20).
根据权利要求1所述的一种高温液态熔渣干式离心粒化余热回收***，其特征在于，还包括液态熔渣引流***和液态熔渣缓冲***；A high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to claim 1, further comprising a liquid slag drainage system and a liquid slag buffer system;

液态熔渣引流***包括渣沟(1)、挡板及出渣口(2)；渣沟进口与高炉排渣口直接相连，渣沟出口位于熔渣缓冲***进口上方；挡板位于渣沟底部；渣沟有一个或多个出渣口(2)；The liquid slag drainage system comprises a slag ditch (1), a baffle and a slag discharge port (2); the slag ditch inlet is directly connected to the blast furnace slag discharge port, and the slag ditch outlet is located above the slag buffer system inlet; the baffle is located at the bottom of the slag ditch The slag ditch has one or more slag outlets (2);

液态熔渣缓冲***由一个或多个独立的渣包组成；所述渣包包括包体(3)、包盖(4)、落渣管(5)及塞棒(6)；落渣管(5)位于渣包底部；渣包有一个或多个落渣管(5)，塞棒(6)位于对应落渣管(5)上方，用于控制落渣流量或者密封落渣管(5)。The liquid slag buffer system consists of one or more independent slag packs; the slag pack comprises a package body (3), a cover (4), a slag tube (5) and a stopper rod (6); 5) at the bottom of the slag bag; the slag bag has one or more slag pipes (5), and the plug rod (6) is located above the corresponding slag pipe (5) for controlling the slag flow rate or sealing the slag pipe (5) .
根据权利要求1所述的一种高温液态熔渣干式离心粒化余热回收***，其特征在于，排渣装置包括位于移动床下部的振动出料机(29)和密封阀(30)；排渣装置下方设有渣粒输送***；渣粒输送***包括耐温输送皮带(14)和缓冲料仓，输送皮带(14)位于排渣装置下方，缓冲料仓位于输送皮带(14)的输送终点。A high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to claim 1, wherein the slagging device comprises a vibrating discharger (29) and a sealing valve (30) located at a lower portion of the moving bed; A slag grain conveying system is arranged below the slag device; the slag grain conveying system comprises a temperature resistant conveying belt (14) and a buffer silo, the conveying belt (14) is located below the slag discharging device, and the buffer silo is located at the conveying end point of the conveying belt (14) .
根据权利要求2所述的一种高温液态熔渣干式离心粒化余热回收***，其特征在于，所述塞棒(6)由金属内管(37)和金属外管(38)套装组成，两管之间由连接肋(39)相接，形成中空布置，棒头(40)为锥形结构或者圆形结构；金属内管(37)的下端口与金属外管(38)相连通，金属外管(38)下端密封，上端设有塞棒冷风出口(42)；金属内管(37)上部设有塞棒冷风进口(41)；冷风由塞棒冷风进口(41)进入金属内管(37)，由金属内管(37)和金属外管(38)之间经塞棒冷风出口(42)流出，对金属外管(38)壁面进行冷却；金属外管(38)的外壁通过拉钩以及销钉固定有隔热材料或者喷涂有防腐蚀涂层。A high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to claim 2, wherein The stopper rod (6) is composed of a metal inner tube (37) and a metal outer tube (38), and the two tubes are connected by a connecting rib (39) to form a hollow arrangement, and the rod head (40) has a tapered structure. Or a circular structure; the lower port of the metal inner tube (37) is in communication with the metal outer tube (38), the lower end of the metal outer tube (38) is sealed, the upper end is provided with a plug cold air outlet (42); the metal inner tube (37) The upper part is provided with a plug cold air inlet (41); the cold air enters the metal inner tube (37) from the cold air inlet (41) of the plug rod, and the cold air outlet is connected between the metal inner tube (37) and the metal outer tube (38) through the plug rod ( 42) Outflow, cooling the wall of the metal outer tube (38); the outer wall of the metal outer tube (38) is fixed with a heat insulating material or a corrosion-resistant coating by a hook and a pin.
根据权利要求1所述的一种高温液态熔渣干式离心粒化余热回收***，其特征在于，所述粒化仓内表面布置的受热面包括粒化仓竖墙内表面受热面(21)和粒化仓顶部内表面受热面(23)；粒化仓竖墙内表面受热面(21)及移动床内表面布置的受热面均采用单管螺旋上升、多管并列螺旋上升、垂直管屏或膜式水冷壁的结构，粒化仓顶部内表面受热面(23)采用单管、多管并列水平往复或盘旋的结构，或者采用膜式水冷壁结构。The high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to claim 1, wherein the heating surface disposed on the inner surface of the granulation chamber comprises a heating surface of the inner surface of the granulated silo vertical wall (21) And the heating surface of the inner surface of the top of the granulation silo (23); the heating surface of the inner surface of the granulated silo vertical wall (21) and the inner surface of the moving bed are all raised by a single tube spiral, multi-tube parallel spiral rise, vertical tube screen Or the structure of the membrane water wall, the heating surface (23) of the inner surface of the granulation silo adopts a single tube, a plurality of tubes juxtaposed horizontally reciprocating or spiraling, or a membrane type water wall structure.
根据权利要求1所述的一种高温液态熔渣干式离心粒化余热回收***，其特征在于，所述进风装置包括位于移动床底部的布风装置、移动床外侧底部的风道(25)以及鼓风机(26)，鼓风机(26)连通风道(25)，风道(25)分别连通离心粒化器旁侧的送风管道(11)和移动床底部的布风装置；所述布风装置位于移动床底部，由布风管(27)和风帽(28)组成，布风管(27)的横截面形状为椭圆形。The high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to claim 1, wherein the air inlet device comprises an air distribution device at the bottom of the moving bed and a wind channel at the bottom of the moving bed (25) And a blower (26), the blower (26) is connected to the air duct (25), and the air duct (25) respectively communicates with the air supply duct (11) on the side of the centrifugal granulator and the air distribution device at the bottom of the moving bed; The wind device is located at the bottom of the moving bed and is composed of a cloth duct (27) and a hood (28). The air duct (27) has an elliptical cross section.
根据权利要求5所述的一种高温液态熔渣干式离心粒化余热回收***，其特征在于，A high-temperature liquid slag dry centrifugal granulation waste heat recovery system according to claim 5, wherein

余热回收***还包括给水泵(31)、余热锅炉省煤器(32)、汽包(33)；给水泵(31)的出口依次连接余热锅炉省煤器(32)、移动床内表面受热面(22)、粒化仓竖墙内表面受热面(21)、粒化仓顶部内表面受热面(23)和汽包(33)；汽包(33)下部通过管道与余热锅炉蒸发受热面(34)相连；汽包(33)顶部通过管道依次连通余热锅炉过热器(35)和主蒸汽管道(36)。The waste heat recovery system further includes a feed water pump (31), a waste heat boiler economizer (32), a steam drum (33); the outlet of the feed water pump (31) is sequentially connected to the waste heat boiler economizer (32), and the heated surface of the moving bed inner surface (22), the heating surface (21) on the inner surface of the vertical wall of the granulated silo, the heating surface (23) and the steam drum (33) on the inner surface of the top of the granulation silo; and the lower part of the steam drum (33) through the pipeline and the evaporation heating surface of the waste heat boiler ( 34) Connected; the top of the steam drum (33) is sequentially connected to the waste heat boiler superheater (35) and the main steam pipe (36) through a pipe.
一种高温液态熔渣干式离心粒化余热回收方法，其特征在于，基于权利要求1至7 中任一项所述的一种液态熔渣干式离心粒化余热回收***，包括以下步骤：High-temperature liquid slag dry centrifugal granulation waste heat recovery method, characterized in that it is based on claims 1 to 7 A liquid slag dry centrifugal granulation waste heat recovery system according to any one of the preceding claims, comprising the steps of:

(1)液态熔渣通过落渣管进入粒化仓落在离心粒化器上，旋转的离心粒化器将流入的液态熔渣粒化成小液滴，小液滴飞溅至粒化仓内，小液滴飞行过程中在粒化仓受热面和离心粒化器旁侧的环形风口吹出的环形风的双重冷却作用下，变成具有硬质外表面的渣粒；(1) The liquid slag enters the granulation bin through the falling slag pipe and falls on the centrifugal granulator. The rotating centrifugal granulator granulates the inflowing liquid slag into small droplets, and the small droplets splash into the granulation bin. During the flight of the small droplets, under the double cooling effect of the annular wind blown by the heated surface of the granulation chamber and the annular tuyere beside the centrifugal granulator, the slag particles having a hard outer surface become;

(2)渣粒随后落入粒化仓下部的移动床进行堆积形成料层，高温渣粒与周围的移动床受热面和通过布风装置鼓入的空气进行换热，实现充分冷却；(2) The slag particles then fall into the moving bed in the lower part of the granulation bin to form a layer, and the high-temperature slag particles exchange heat with the surrounding moving bed heating surface and the air blasted through the air blowing device to achieve sufficient cooling;

(3)充分冷却后的渣粒穿过布风装置空隙掉落至排渣装置。(3) The sufficiently cooled slag particles are dropped through the air gap of the air distribution device to the slag discharging device.
根据权利要求8所述的一种高温液态熔渣干式离心粒化余热回收方法，其特征在于，粒化与换热***出风口的热空气经汇集后依次经过一次除尘器、余热锅炉、二次除尘器和排气风机，最后经烟囱排出。The method for recovering dry granulation waste heat of high temperature liquid slag according to claim 8, wherein the hot air of the granulation and the air outlet of the heat exchange system is collected by a dust collector, a waste heat boiler, and two The secondary dust collector and exhaust fan are finally discharged through the chimney.
根据权利要求8所述的一种高温液态熔渣干式离心粒化余热回收方法，其特征在于，给水泵给入的水依次经过余热锅炉省煤器、移动床受热面和粒化仓受热面的加热后进入汽包；汽包内的水通过管道与蒸发受热面连接进行循环；饱和蒸汽经过热器加热后与主蒸汽管道相连，产生的蒸汽并入蒸汽管网或发电。 A high-temperature liquid slag dry centrifugal granulation waste heat recovery method according to claim 8, wherein the water fed by the feed water pump passes through the waste heat boiler economizer, the moving bed heating surface and the granulated storage surface After heating, the steam is introduced into the steam drum; the water in the steam drum is connected to the evaporation heating surface through the pipeline for circulation; the saturated steam is heated by the heater and connected to the main steam pipeline, and the generated steam is merged into the steam pipe network or generate electricity.