Techno-economic analysis of fly ash recirculation system of circulating fluidized bed combustion boiler;
循环流化床锅炉中灰循环倍率不仅影响燃烧 ,而且还影响传热。
The total mass balance of Circulating Fluidized bed Combustion (CFBC) with coal ash as bed inventory is studied.
本文建立了以煤燃烧成灰为床料的循环流化床总体质量平衡数学模型。
A new concept of achieving high temperature air by circulating fluidized bed combustion at high excess air ratio was proposed.
提出了借助循环流化床在高过剩空气系数下燃烧的技术提供高温空气的新构思。
This paper presents a modelling method of the circulating fluidized bed combustion (CFBC) boiler using a feedforward neural network.
采用多层前向型神经网络,对燃煤循环流化床锅炉模型化进行了研究。
With an eye on the oily sludge in Chinese oil fields, a kind of differential density circulating fluidized bed combustion technology for treating oily sludge is proposed.
针对我国油田的油污泥情况,提出一种采用异密度循环流化床燃烧技术处理油污泥的方法。
The combustion conditions in a Circulating Fluidized Bed (CFB) boiler are much different from a pulverized coal firing (pf) boiler.
循环流化床(cfb)的燃烧条件和煤粉炉差别较大。
The model of combustion fraction for dense phase in circulating fluidized bed combustor has been built up, based on thermal balance, gas analysis and total gas amount.
建立了基于热平衡法、烟气分析法和烟气量法的循环流化床锅炉燃烧室密相区燃烧份额计算数学模型,并分析比较了各种模型的特点。
It lays a foundation for modeling of flowing and combustion as well as heat transfer and abrasion of oil shale circulating fluidized bed boiler dilute zone.
同时为进一步建立适合油页岩的循环流化床燃烧室稀相区的流动、燃烧、传热、磨损模型奠定了基础。
As a cleaning coal combustion technology, Circulating Fluidized Bed (CFB) technology has been successfully used since 1980s throughout the world.
循环流化床燃烧技术是国际80年代在锅炉上得到成功应用的清洁煤燃烧技术。
Combustion air requirements of the circulating fluidized bed boiler is supplied by air distributor equipment, it played a very important role at the operation.
循环流化床燃烧所需的空气主要由布风系统提供,在运行中起了非常重要的作用。
As a cleaning Coal Combustion technology, the Circulating Fluidized Bed (CFB) technology has been successfully used on boilers since 1980's over the world.
循环流化床燃烧技术是国际80年代在锅炉上得到成功应用的清洁煤燃烧技术。
Cyclone separators are the key equipment for warranting that circulating fluidized bed boilers have a certain particle circulation rate, with good combustion and desulfurization efficiency.
旋风分离器是保证循环流化床锅炉具有一定颗粒循环倍率、燃烧效率、脱硫效率的关键设备。
Circulating fluidized bed boiler (CFB), different from fixed bed and floating combustion, is a boiler with new combustion mode.
循环流化床(简称CFB)锅炉,是区别于固定床和悬浮燃烧方式的一种新的燃烧锅炉。
The main task of the thesis is to study and develop parameters tuning and control approaches applied to the characters of circulating fluidized bed boiler combustion system using ADRC.
研究和探讨适于类似于循环流化床锅炉燃烧系统特点的ADRC结构改进与参数整定方法是论文的主要工作。
The circulating fluidized bed (CFB) combustion technology is getting more and more popular because of its better coal adaptability and excellent environmental performance.
循环流化床(CFB)燃烧技术由于较好的煤种适应性及优良的环保性能,得到越来越普遍的应用。
Although many factors can affect the combustion of a circulating fluidized bed boiler, its operation technique still needs to be perfected.
但其影响燃烧的因素较多,尚处在不断完善之中。
The start-up burners for igniting circulating fluidized bed boiler or combustion-supporting with oil under low load mainly include over-bed start-up burner, in-duct burner and bed lance.
指出循环流化床锅炉点火或低负荷投油助燃所采用的床上启动燃烧器、风道燃烧器和床枪的特点及选择原则。
The start-up burners for igniting circulating fluidized bed boiler or combustion-supporting with oil under low load mainly include over-bed start-up burner, in-duct burner and bed lance.
指出循环流化床锅炉点火或低负荷投油助燃所采用的床上启动燃烧器、风道燃烧器和床枪的特点及选择原则。
应用推荐