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R&D and Demonstration of Large Domestic CFB Boilers 被引量:1
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作者 Sun Xianbin1, Jiang Minhua1, Yu Long2, Li Guanghua3, Shi Zhenghai1, Zhang Yanjun2, Jiang Yuanjian4, Li Zhiwei1, Jiang Xiaoguo2 and Zou Shengfa4. 1. Xi’an Thermal Power Research Institute Co., Ltd. 2. Harbin Bolier Co., Ltd. 3. China Power Investment Corporation 4. Jiangxi Fenyi Power Plant Co., Ltd. Wang Ningling 《Electricity》 2008年第3期32-35,共4页
In order to develop large CFB boilers with independent intellectual property, Xi'an Thermal Power Research Institute (TPRI) established a laboratory with complete functions for the technical development of CFB boi... In order to develop large CFB boilers with independent intellectual property, Xi'an Thermal Power Research Institute (TPRI) established a laboratory with complete functions for the technical development of CFB boilers. This laboratory consists of a 1-MW and a 4-MW CFB combustion test facilities and a laboratory for limestone desulphurization performance evaluation. It carried out tests on CFB combustion and desulphurization for Chinese typical coals and limestone and research on heat-transfer characteristics and key parts, and developed the first home-made 100-MW CFB boiler. Based on the experience of R&D, the laboratory further researched key techniques for enlarging capacity systematically, and cooperating with Harbin Boiler Co. (HBC), developed the first domestic 210-MW CFB boiler with independent intellectual property and put it into engineering demonstration, laying a solid foundation for the development of CFB boilers of even larger capacity. 展开更多
关键词 cfb R&D and Demonstration of Large Domestic cfb boilers
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Fault Analysis and Innovation in Slag Discharge System of 440-t/h CFB Boiler
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作者 Xu Qisheng and Song Jinghui Guangdong Electric Power Test and Research Institute Wang Ningling 《Electricity》 2009年第1期34-37,共4页
CFB boilers have been widely used in China in recent years with their perfect performances in coal adaptability, load variation capability and lower pollutant emission. The No.3 135-MW CFB unit in Lianzhou Power Plant... CFB boilers have been widely used in China in recent years with their perfect performances in coal adaptability, load variation capability and lower pollutant emission. The No.3 135-MW CFB unit in Lianzhou Power Plant is the f irst 440-t/h series CFB unit in Guangdong Province. It f inished 72-hour trial operation in Feb. 2004 and was transferred to trial operation. During the trial operation and the next commercial operation, there were some problems happened in the boiler slag discharging system, seriously affecting the safe and reliable operation and the loading capability. After innovation, these problems have been completely solved. Hopefully the solutions may be used for reference to the units with similar problems. 展开更多
关键词 cfb Fault Analysis and Innovation in Slag Discharge System of 440-t/h cfb boiler INNOVATION
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100 MW CFB Boiler Power Plant OperationExperiences and 300 MW SizeCFB Boiler Demonstration Project
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作者 YangQiang 《Electricity》 1999年第4期17-20,共4页
关键词 MW cfb boiler Power Plant OperationExperiences and 300 MW Sizecfb boiler Demonstration Project cfb
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Mechanism Study of Lateral Bed Pressure Wave of Large Scale CFB Boilers
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《中国电机工程学报》 EI CSCD 北大核心 2013年第20期I0001-I0016,共16页
关键词 循环流化床(cfb)锅炉 压力波动 机理 炉床 低负荷 变压
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Flexible Co-Combustion of High Ratios of Sustainable Biomass with Coal in Oxy-CFB Boiler for CO<sub>2</sub>Capture
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作者 Jose A. Gutiérrez Bravo Raquel Garcia Erasmo Cadena 《Journal of Power and Energy Engineering》 2018年第11期12-22,共11页
Coal-fired plants are under pressure to reduce their carbon-intensity. Available options include co-firing CO2-neutral biomass, oxy-fuel-combustion as part of a carbon capture process or a combination of both to give... Coal-fired plants are under pressure to reduce their carbon-intensity. Available options include co-firing CO2-neutral biomass, oxy-fuel-combustion as part of a carbon capture process or a combination of both to give a “CO2-negative” power plant. BioCCS, the combination of CO2 Capture and Storage (CCS) with sustainable biomass conversion, is the only large-scale technology that can achieve net negative emissions. Combining, developing and demonstrating the oxy-combustion of high ratios of sustainable biomass with coal in flexible circulating fluidized bed (CFB) boiler will bring significant advances in the reduction of greenhouse gases (GHG) emissions. Areas addressed include possibilities for: biomass characterization;handling and feeding;co-firing ratios definition;CFB oxy-co-combustion studies;combustion performance;boiler flexibility in fuel and load;main emissions analysis;slaging, fouling and agglomeration;corrosion and erosion;and implications on plant operation and associated costs. The article will detail a comprehensive understanding on sustainable biomass supply, co-firing ratios and how direct biomass co-combustion under oxy-fuel conditions can be implemented. It seeks to push biomass co-combustion in future large-scale oxy-fuel CFB power stations to high thermal shares while enhancing the power plants’ operational flexibility, economic competitiveness and give operational procedures. There will be a need to consider the public acceptance of power production from coal and coal sustainability, by its combination with renewable sources of energy (biomass). 展开更多
关键词 CARBON CAPTURE Use and Storage (CCUS) BIOMASS Combustion CARBON CAPTURE cfb boiler
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CPFD modeling of hydrodynamics,combustion and NOx emissions in an industrial CFB boiler 被引量:5
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作者 Jian Chang Xinrui Ma +1 位作者 Xin Wang Xiaohang Li 《Particuology》 SCIE EI CAS CSCD 2023年第10期174-188,共15页
The ultra-low NOx emission requirement(50 mg/m^(3))brings great challenge to CFB boilers in China.To further tap the NOx abatement potential,full understanding the fundamentals behind CFB boilers is needed.To achieve ... The ultra-low NOx emission requirement(50 mg/m^(3))brings great challenge to CFB boilers in China.To further tap the NOx abatement potential,full understanding the fundamentals behind CFB boilers is needed.To achieve this,a comprehensive CPFD model is established and verified;gas-solid flow,combustion,and NOx emission behavior in an industrial CFB boiler are elaborated;influences of primary air volume and coal particle size on furnace performance are evaluated.Simulation results indicate that there exists a typical core-annular flow structure in the boiler furnace.Furnace temperature is highest in the bottom dense-phase zone(about 950℃)and decreases gradually along the furnace height.Oxygen-deficient combustion results in high CO concentration and strong reducing atmosphere in the lower furnace.NOx concentration gradually increases in the bottom furnace,reaches maximum at the elevation of secondary air inlet,and then decreases slightly in the upper furnace.Appropriate decreasing the primary air volume and coal particle size would increase the CO concentration and intensify the in-furnace reducing atmosphere,which favors for NOx reduction and low NOx emission from CFB boilers. 展开更多
关键词 HYDRODYNAMICS COMBUSTION NOx emission cfb boiler CPFD
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Influence of Limestone Addition on Combustion and Emission Characteristics of Coal Slime in the 75 t/h CFB Boiler with Post-Combustion Chamber 被引量:2
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作者 WANG Chao SONG Guoliang +4 位作者 YANG Zhao XIAO Yuan YANG Xueting JI Zengcai LYU Qinggang 《Journal of Thermal Science》 SCIE EI CAS CSCD 2023年第5期1849-1857,共9页
Coal slime can be disposed in quantity and fully utilized in a well-designed circulating fluidized bed(CFB)boiler,but the nitrogen oxides(NO_(x))and sulphur dioxide(SO_(2))emissions generated in the combustion of coal... Coal slime can be disposed in quantity and fully utilized in a well-designed circulating fluidized bed(CFB)boiler,but the nitrogen oxides(NO_(x))and sulphur dioxide(SO_(2))emissions generated in the combustion of coal slime have contributed to serious atmospheric pollution.High Temperature&Post-combustion Technology,a novel and high-efficient way to reduce the NO_(x)emission in the process of combustion,is applied to a 75 t/h CFB boiler burning exclusively coal slime,which will succeed to meet the ultra-low NO_(x)emission standard.To further explore an appropriate method to reduce the SO_(2)emission under the condition of new technology,the experiments were conducted on a 75 t/h CFB boiler with post-combustion chamber to study the influence of limestone addition on the combustion and emission characteristics of coal slime.The experimental results showed that High Temperature&Post-combustion Technology combined with the sorbent injection in the furnace is a very promising technology to control the NO_(x)and SO_(2)emissions simultaneously.Limestone addition can cause the slight decrease in combustion temperature.Limestone addition will lead to the increase in NO_(x)emission in the combustion of coal slime.In 75 t/h coal slime CFB boiler,the desulfurization efficiency of limestone injection in furnace is close to 98%,achieving the ultra-low SO_(2)emission.To meet the standard of ultra-low NO_(x)and SO_(2)emission,the two technologies for simultaneous removal of NO_(x)and SO_(2)emissions are economical and feasible currently:Removal of SO_(2)under ultra-low NO_(x)emission and Removal of NO_(x)under ultra-low SO_(2)emission. 展开更多
关键词 coal slime cfb boiler NO_(x) SO_(2) LIMESTONE simultaneous removal
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Numerical Investigation on the Heat Transfer Characteristics of Supercritical Water in a Non-Uniformly Heated Tube for a Supercritical CFB Boiler 被引量:1
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作者 DU Xiaocheng SONG Yuanyuan +3 位作者 XIANG Yuxuan ZHOU Yanjun WANG Aoyu YANG Dong 《Journal of Thermal Science》 SCIE EI CAS CSCD 2023年第5期1807-1818,共12页
In this paper,a numerical model was built by ANSYS FLUENT to investigate the heat transfer performances of supercritical water in a circumferential non-uniformly heated vertical tube.The Shear Stress Transport(SST)k-... In this paper,a numerical model was built by ANSYS FLUENT to investigate the heat transfer performances of supercritical water in a circumferential non-uniformly heated vertical tube.The Shear Stress Transport(SST)k-ωmodel was adopted for describing turbulence.The operating parameters are chosen according to a 660 MW ultra-supercritical CFB boiler.The heat transfer performances under different operating parameters,such as boiler load,flow direction and heat flux distribution are analyzed.The temperature and heat flux on inner wall varies along the circumference and show symmetric distributions.The overall heat transfer performances at each cross section are better than the local heat transfer performance of midpoint of heating side.Flow direction has a great influence on heat transfer performance;it changes the radial distribution of axial velocity and then affects the turbulence distribution.Therefore,upward flow condition shows a better heat transfer performance.Smaller heat flux improves both the overall and local heat transfer performances.Reducing the heat flux area is not conducive to the overall heat transfer,but does not affect the local heat transfer at the midpoint of heating side.Finally,a new correlation is fitted based on the simulated results of supercritical water heat transfer with circumferential non-uniform heat flux distributions. 展开更多
关键词 supercritical cfb boiler circumferential non-uniform heat flux numerical simulation heat transfer correlation
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基于TF-NGO算法的CFB锅炉床温系统建模研究
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作者 印江 霍泽良 杜志龙 《自动化仪表》 CAS 2024年第6期22-27,32,共7页
床温是循环流化床(CFB)锅炉重要的运行参数之一。针对床温耦合性强、干扰因素多、控制复杂的问题,亟需建立床温的数学模型,以实现床温控制,从而保证CFB锅炉安全、平稳地运行。为此,首先引入了混沌映射、切线飞行(TF)和柯西变异策略改进... 床温是循环流化床(CFB)锅炉重要的运行参数之一。针对床温耦合性强、干扰因素多、控制复杂的问题,亟需建立床温的数学模型,以实现床温控制,从而保证CFB锅炉安全、平稳地运行。为此,首先引入了混沌映射、切线飞行(TF)和柯西变异策略改进北方苍鹰优化(NGO)算法,并用实际工况的系统模型测试TF-NGO算法。测试结果表明,TF-NGO算法拥有更快的收敛速度和更高的寻优精度。其次,采集并预处理山西某电厂350 MW超临界CFB锅炉的现场运行数据。最后,采用TF-NGO算法对所建模型的参数进行辨识,并用实际工况数据进行模型验证。辨识和验证结果表明,由TF-NGO算法辨识的床温模型与实际输出拟合度高,能有效反映床温的动态特性,证明所建模型的有效性。该研究为后续对350 MW超临界CFB锅炉床温的优化控制研究奠定了基础。 展开更多
关键词 循环流化床 锅炉 床温 系统辨识 切线飞行 北方苍鹰优化算法
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CFB锅炉宽筛分颗粒临界流化风速研究
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作者 于艺 马有福 吕俊复 《中南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2024年第7期2813-2818,共6页
基于计算颗粒流体力学(CPFD),通过表征常规CFB锅炉床料(Set 1)、增加炉内细颗粒含量(Set 2)和减小初始床支撑料粒度(Set 3) 3种筛分分布的SiO_(2)颗粒,研究颗粒筛分变化对临界流化风速的影响。研究结果表明:在相同床层高度下,Set 1、Se... 基于计算颗粒流体力学(CPFD),通过表征常规CFB锅炉床料(Set 1)、增加炉内细颗粒含量(Set 2)和减小初始床支撑料粒度(Set 3) 3种筛分分布的SiO_(2)颗粒,研究颗粒筛分变化对临界流化风速的影响。研究结果表明:在相同床层高度下,Set 1、Set 2和Set 3床料的临界流化风速分别为0.51、0.30和0.20 m/s。表明增加炉内细颗粒含量和减小初始床支撑料粒度均可明显降低临界流化风速。将宽筛分颗粒临界流化风速的数值模拟结果与相关关联式预测结果进行对比,表明ERGUN关联式的预测结果偏差较小,WEN-YU关联式的预测结果明显偏低。 展开更多
关键词 循环流化床锅炉 临界流化风速 宽筛分颗粒 计算颗粒流体力学
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超临界CFB锅炉水冷壁管分区段热应力分析
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作者 黄澳 卿黎 杨溢 《科学技术与工程》 北大核心 2024年第23期9875-9883,共9页
为确保循环流化床锅炉水冷壁的正常运行,以避免发生蠕变变形、高温腐蚀等生产事故。以600 MW超临界循环流化床(circulating fluidized bed,CFB)锅炉为研究对象,建立了水冷壁温度应力场数值模型。并利用分区段炉膛热力计算理论和新IAPWS-... 为确保循环流化床锅炉水冷壁的正常运行,以避免发生蠕变变形、高温腐蚀等生产事故。以600 MW超临界循环流化床(circulating fluidized bed,CFB)锅炉为研究对象,建立了水冷壁温度应力场数值模型。并利用分区段炉膛热力计算理论和新IAPWS-IF97公式,对运行状态中水冷壁分区段进行壁温和热应力分析。结果表明:各区段管壁温度与应力场分布变化一致,但由于工质焓值和高温烟气的交叉作用,区段5存在最高壁温与最大热应力。进一步对区段5进行传热恶化分析可得,管壁最高温度部位发生转移,且壁温与热应力最大值皆超过设计值,可能导致水冷管爆管或断裂。随后针对安全隐患,通过数值模拟方法从降低局部热负荷和控制质量流速的角度来防止锅炉传热恶化,为锅炉安全监测提供了有效建议与防治手段。 展开更多
关键词 超临界cfb锅炉 分区段算法 水冷壁 热应力 传热恶化
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300 MW CFB锅炉旋风分离器改造数值模拟研究
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作者 姜恒 谢玉婷 +1 位作者 刘海玉 牛俊天 《电力科技与环保》 2024年第1期87-94,共8页
旋风分离器分离性能会显著影响循环流化床锅炉的运行。为解决某300 MW循环流化床锅炉旋风分离器分离器性能差的问题,基于欧拉-拉格朗日框架,使用UGNX12.0软件对该300 MW循环流化床锅炉的炉膛、旋风分离器、返料阀按照实际尺寸1∶1建立... 旋风分离器分离性能会显著影响循环流化床锅炉的运行。为解决某300 MW循环流化床锅炉旋风分离器分离器性能差的问题,基于欧拉-拉格朗日框架,使用UGNX12.0软件对该300 MW循环流化床锅炉的炉膛、旋风分离器、返料阀按照实际尺寸1∶1建立全回路几何模型,根据实际参数设置边界条件,并通过Barracuda软件进行数值模拟,分析旋风分离器烟道入口各参数(入口烟道高度、入口烟道宽度、入口下倾角大小及中心筒插入深度)对旋风分离器效率及压降的影响;综合考虑分离器的分离效率、压降以及磨损量,提出了2个改造方案。仿真结果表明:炉膛内压力模拟值与实际值的偏差均在5%以内,模拟结果较为精确;2个方案在各负荷下均能提升旋风分离器分离性能,方案1满负荷下效率相较于较改造前提升了0.260%,压降降低了13.1 Pa,方案2满负荷下效率相较于改造前提升了0.240%,压降降低了53.7 Pa;随着负荷降低,旋风分离器效率提升逐渐不明显,在300、260和160 MW负荷下,方案1分别提升0.263%、0.178%和0.023%,方案2分别提升0.243%、0.174%和0.020%。 展开更多
关键词 300 MW cfb锅炉 旋风分离器 数值模拟
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CFB锅炉输煤系统增设筛分破碎设施方案研究 被引量:1
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作者 谢卫国 尉君 《能源与环保》 2024年第1期235-239,共5页
苏晋朔州电厂循环流化床锅炉所需合格的燃煤(0~8 mm)原设计由附近选煤厂筛分破碎后直接提供,自公司2×660 MW机组投产后,因配套选煤厂供电厂煤量不足且其燃煤粒径超标,同时电厂从周边露天矿协调调入汽运煤,汽运煤颗粒度更是超标严重... 苏晋朔州电厂循环流化床锅炉所需合格的燃煤(0~8 mm)原设计由附近选煤厂筛分破碎后直接提供,自公司2×660 MW机组投产后,因配套选煤厂供电厂煤量不足且其燃煤粒径超标,同时电厂从周边露天矿协调调入汽运煤,汽运煤颗粒度更是超标严重,造成锅炉频繁结焦、下渣口堵塞等问题,严重时造成停机事故。为严格控制入炉煤粒径,提高设备运行稳定性和经济性,针对燃煤粒径超标问题,电厂提出在厂内增加筛分破碎设施,由于电厂设计阶段未做预留,没有合适的场地可供筛分破碎系统建设。专家组经过对生产厂区进行踏勘,提出2种较为可行的方案,经分析论证,最终选择在1号转运站处向地下深挖并采用大倾角皮带等方式建造紧凑型筛分破碎楼的创新方案,有效解决了建造空间不足的问题,改善了入炉煤的颗粒度,为同类型电厂新增破碎设施改造工作提供参考和依据。 展开更多
关键词 cfb锅炉 颗粒度 大倾角胶带 筛分破碎系统
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CFB锅炉掺烧气化细渣技术研究进展
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作者 王坤 金平 +3 位作者 廖昌建 刘志禹 赵清 孟凡飞 《化工环保》 CAS CSCD 北大核心 2024年第3期329-337,共9页
煤气化渣产量大、存量多,常规的填埋和堆积处理不但占用大量土地资源,而且还存在严重的污染风险和安全隐患。本文介绍了气化细渣的组成、结构和燃烧特性,综述了残碳富集、脱水干化等气化细渣预处理方法的研究进展,从气化细渣的含水率、... 煤气化渣产量大、存量多,常规的填埋和堆积处理不但占用大量土地资源,而且还存在严重的污染风险和安全隐患。本文介绍了气化细渣的组成、结构和燃烧特性,综述了残碳富集、脱水干化等气化细渣预处理方法的研究进展,从气化细渣的含水率、灰分、掺烧比例及污染物排放情况等方面分析了气化细渣掺烧对循环流化床(CFB)锅炉燃烧的影响,指出CFB锅炉掺烧气化细渣具备显著的环保和经济效益,是气化细渣实现减量化、无害化和资源化利用的主要途径之一。 展开更多
关键词 气化细渣 cfb锅炉 掺烧 资源化利用
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CFB锅炉协同处置固体废物研究
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作者 付春雨 《炼油技术与工程》 CAS 2024年第7期57-60,共4页
介绍了某石化企业现有CFB(循环流化床)锅炉掺烧协同处置厂内固体废物的可行性试验情况。结果表明:CFB锅炉燃料中掺烧质量占比为4%的工业固体废物后,其废气中氮氧化物、二氧化硫、烟尘、氯化氢、二噁英、重金属等污染物排放稳定且达标,3... 介绍了某石化企业现有CFB(循环流化床)锅炉掺烧协同处置厂内固体废物的可行性试验情况。结果表明:CFB锅炉燃料中掺烧质量占比为4%的工业固体废物后,其废气中氮氧化物、二氧化硫、烟尘、氯化氢、二噁英、重金属等污染物排放稳定且达标,3项常规污染因子排放浓度远低于超低排放标准限值;飞灰及炉渣浸出毒性的各个指标均未超出危险废物鉴别标准,大部分指标未检出或远低于标准限值,飞灰及炉渣一般固体废物属性未改变;厂界环境空气质量监测结果显示,掺烧后未对周边环境空气质量产生不利影响。经过计算热值,掺烧2×10^(4) t固体废物可代替锅炉燃料(石油焦)约4978 t,具有明显的环境效益和经济效益。 展开更多
关键词 cfb锅炉 协同处置 固体废物 污染因子 毒性 氯化氢 重金属 二噁英
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350MW超临界CFB锅炉除渣系统控制策略优化研究
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作者 张钦 王映奇 杜鸿飞 《锅炉技术》 北大核心 2024年第4期57-61,共5页
针对山西某电厂2×350 MW超临界循环流化床(CFB)锅炉水冷式滚筒冷渣器在生产运行中存在堵渣、流渣、排渣超温及自动化控制程度低等问题,提出了针对除渣系统问题的运行调整要点、超前堵渣预警智能算法、冷渣器基于前馈温度变化率的... 针对山西某电厂2×350 MW超临界循环流化床(CFB)锅炉水冷式滚筒冷渣器在生产运行中存在堵渣、流渣、排渣超温及自动化控制程度低等问题,提出了针对除渣系统问题的运行调整要点、超前堵渣预警智能算法、冷渣器基于前馈温度变化率的智能调节方法等控制策略,应用后,由于冷渣器堵渣造成机组非计划停运次数、排渣超温(大于150℃)触发冷渣器保护跳闸次数和人工清渣频次显著减少,极大缓解了电厂生产过程中冷渣器排渣困难的技术问题,为锅炉安全平稳运行奠定基础。 展开更多
关键词 超临界cfb锅炉 调整要点 超前堵渣预警 前馈温度变化率
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CFB锅炉气化煤与白煤沫掺烧技术的研究
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作者 邓云飞 《化工设计通讯》 CAS 2024年第9期31-33,共3页
为了消化潞安集团内部白煤沫,决定对泉稷公司CFB循环流化床锅炉原设计的煤种进行变换,由原来的烟煤变化为无烟煤与气化煤混合掺烧,由于不同煤种对锅炉整体性能的影响比较大,专门设立了研发机构,组建了研发团队,对CFB锅炉气化煤与白煤沫... 为了消化潞安集团内部白煤沫,决定对泉稷公司CFB循环流化床锅炉原设计的煤种进行变换,由原来的烟煤变化为无烟煤与气化煤混合掺烧,由于不同煤种对锅炉整体性能的影响比较大,专门设立了研发机构,组建了研发团队,对CFB锅炉气化煤与白煤沫掺烧技术进行研究。 展开更多
关键词 cfb锅炉 气化煤 白煤沫 研究
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生物质CFB锅炉给料系统的优化方案
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作者 任建立 《机械工程与自动化》 2024年第6期154-155,共2页
针对生物质CFB锅炉给料系统存在的给料不均而引起锅炉燃烧不稳定的问题,逐一分析了现有生物质CFB锅炉给料系统各组成部分的应用情况,并给出了各组成部分的优化方案,实现了生物质CFB锅炉给料系统的均匀性。
关键词 生物质cfb锅炉 给料系统 均匀性
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循环流化床锅炉(CFB)系统流程模拟
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作者 曹欢 《石油化工设计》 CAS 2024年第2期1-3,7,I0001,共5页
以某石化项目450 t/h超高压循环流化床锅炉系统为对象,采用Thermoflex软件建模并对其进行变工况分析,通过与锅炉厂提供的实际数据进行对比,验证了该流程模拟的准确性。利用该模型进行了不同煤种工况对系统的影响因素分析,研究结果可为... 以某石化项目450 t/h超高压循环流化床锅炉系统为对象,采用Thermoflex软件建模并对其进行变工况分析,通过与锅炉厂提供的实际数据进行对比,验证了该流程模拟的准确性。利用该模型进行了不同煤种工况对系统的影响因素分析,研究结果可为该锅炉系统设计和设备选型提供理论依据,对该项目动力站实际生产运行提供指导。 展开更多
关键词 循环流化床锅炉 流程模拟 系统设计
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CFB锅炉管式空预器改造为回转式空预器的可行性分析及应用
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作者 刘川 《发电设备》 2024年第5期328-334,共7页
通过对比管式空气预热器(简称空预器)与回转式空预器的性能,提出了将中小型循环流化床(CFB)锅炉管式空预器改造为回转式空预器的提质增效方案。针对某300 MW CFB锅炉,评估了空预器改造的可行性和技术方案,并且分析了改造前后的性能参数... 通过对比管式空气预热器(简称空预器)与回转式空预器的性能,提出了将中小型循环流化床(CFB)锅炉管式空预器改造为回转式空预器的提质增效方案。针对某300 MW CFB锅炉,评估了空预器改造的可行性和技术方案,并且分析了改造前后的性能参数和经济效益。结果表明:将管式空预器改造为回转式空预器可以有效降低锅炉的排烟温度,并且可以长期保证漏风率和烟风阻力的稳定,满足节能降耗的需求,同时提高了机组运行的经济性和可靠性。 展开更多
关键词 cfb锅炉 管式空预器 回转式空预器 排烟温度 阻力 漏风率
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