共查询到18条相似文献,搜索用时 62 毫秒
1.
2.
供电标煤耗是评价热电联产企业综合竞争能力的重要指标之一。文中根据某企业供电标煤耗与热电比、汽轮机效率、锅炉效率的对应数据资料,将供电标煤耗与三者之间的变动关系加以模型化,找出并检验回归方程,尝试用回归分析的方法对供电标煤耗进行预测,为热电联产企业降低煤耗,提高市场竞争能力提供依据。 相似文献
3.
4.
5.
6.
一、有关供电煤耗的基本概念1、发电与供电热效率、热耗、煤耗之间的关系a、发电热效率η_G 对于凝汽式发电厂:η_G=P×860/G_F×H_h×100(%) (1) 式中:P—发电量,kWh G_F—燃料消耗量,kg/h H_h—燃料发热量,kcal/kg 相似文献
7.
本文通过实际计算找到了理论依据,对目前供热供电煤耗计算中不一致的部分提出简便实用的计算方法及计算供电煤耗考核定额值的注意事项。 相似文献
8.
颜雪琴 《能源技术(上海)》2014,(3)
燃煤机组掺烧劣质煤,除了增加维护和维修成本外,还会影响锅炉效率、蒸汽参数、辅机电耗等指标。为了定量分析掺烧劣质煤对机组供电煤耗的影响,以12号机组不掺烧(全神木煤)工况为基准,340g/kWh达标煤耗为标杆,分别比对240、180、120MW三种工况下掺烧劣质煤的供电煤耗。试验结果为:240MW电负荷,掺烧劣质煤后供电煤耗上升2.869g/kWh;180MW电负荷,掺烧劣质煤后供电煤耗上升3.987g/kWh;120MW电负荷,掺烧劣质煤后供电煤耗上升3.769g/kWh。为此建议:要控制好掺烧大混煤的煤量,可适当掺烧些褐煤等煤种来对冲;要尽量运行高位磨煤机,通过燃烧器摆角和风烟挡板进行调整,抬高再热器出口温度;要综合考虑掺烧大混煤的比例。 相似文献
9.
10.
11.
12.
13.
介绍耗差分析的原理和方法,运用基本公式法对某引进型300WM机组在不同负荷下的几个运行参数对煤耗影响进行耗差分析。运用Matlab做出各参数分别在不同负荷下对煤耗影响程度的图形。通过对比分析,找寻电厂节能方向,进而指导优化运行。 相似文献
14.
在合理简化条件下,对国内凝汽式火力发电厂主流炉型亚临界、超临界、超超临界锅炉燃用大同烟煤、开滦烟煤、西山贫煤、阳泉无烟煤、元宝山褐煤的排烟温度升高引起供电煤耗提高的状况进行计算及分析.计算结果表明:当排烟温度升高5℃时,凝汽式电厂的供电煤耗提高约0.567~0.934g/kWh,当煤种相同时,过热蒸汽压力越高,排烟温度... 相似文献
15.
16.
17.
18.
In the present paper thermodynamic analyses, i.e. both energy and exergy analyses have been conducted for a coal based combined cycle power plant, which consists of pressurized circulating fluidized bed (PCFB) partial gasification unit and an atmospheric circulating fluidized bed (ACFB) char combustion unit. Dual pressure steam cycle is considered for the bottoming cycle to reduce irreversibilities during heat transfer from gas to water/steam. The effect of operating variables such as pressure ratio, gas turbine inlet temperature on the performance of combined cycle power plant has been investigated. The pressure ratio and maximum temperature (gas turbine inlet temperature) are identified as the dominant parameters having impact on the combined cycle plant performance. The work output of the topping cycle is found to increase with pressure ratio, while for the bottoming cycle it decreases. However, for the same gas turbine inlet temperature the overall work output of the combined cycle plant increases up to a certain pressure ratio, and thereafter not much increase is observed. The entropy generation, the irreversibilities in each component of the combined cycle and the exergy destruction/losses are also estimated. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献