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火电机组的热经济性分析 总被引:6,自引:0,他引:6
为进行整个火电机组的能量系统热经济性分析及考察其组元变化的影响,提出了以热经济学和边际成本概念为基础的热经济性分析方法。对复杂能量系统主要以功能划分后形成的组元,考察其组元的输出炯流变化引起整个系统的能耗变化,可以通过边际炯成本、单位炯成本和组元产品的函数来表达,来衡量整个系统所有组元的输出炯流变化对系统外部输入燃料的影响,便于火电机组的运行经济状态动态评估。通过300MW机组主蒸汽参数变化的计算表明:参数变化时将引起系统的煤耗增加,降低了经济性,因而从本质上进行了热经济性的全面综合分析,以优化机组运行,进行性能诊断。图1表2参10 相似文献
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提出了一种基于变频调速技术的凝结水泵调节改进方案,并同节流方式进行了技术经济性比较分析,结果表明,变速调节方式虽然初期投资高,但无论是机组在基本负荷还是变负荷工况下运行的经济性和安全性都很高,节能效果显著,可快速回收项目投资,具有很好的应用前景。 相似文献
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以气垫叶栅作为研究对象,从含尘风机气-固两相流动的规律出发,采用SJMPLE算法,结合标准k-ε紊流模型、壁面函数法,利用适体坐标系下的通用控制方程,编制相应的计算程序。在不同的主流与射流速度比、不同的缝隙数和缝隙宽度等条件下,计算了固体颗粒在气垫作用下的运动情况。计算结果表明,气垫阻碍了粒子与壁面的撞击几率,在理论上论证了气垫防磨的可行性。 相似文献
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热电厂装机方案优化决策方法的研究 总被引:1,自引:0,他引:1
针对新型热电厂可行性研究阶段,供热机组装机方案选择提出了优选软件,优选采用最优化和态规划方法,首先根据装机方案的技术经济内容和分析方法,建立装机方案的最优化动态规划数字模型,进而编制优化计算的通用软件,再根据拟建厂的有关原始资料和数据,用软件优选出热电厂最佳装机方案。 相似文献
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Ash deposition is a form of particulate fouling, and appears usually in boiler economizers. The ash deposition increases capital expenditure, energy input and maintenance costs. An analog experiment for monitoring ash deposition was performed from the analogous objective of a 410 t/h boiler economizer to verify the rationality and reliability of the ash-deposition-monitoring model presented in order to increase the security and economy in economizer running. The analog experiment platform is a tube-shell exchanger that conforms well to the conditions of a self-modeling area. The analog flue gas in the shell side is the heated air mixed with ash, and in the tube side the fluid is water heated by the flue gas. The fluid state in the water side and the flue gas side follows the second self-modeling area. A 4-factor-3 level orthogonal table was used to schedule 9 operation conditions of orthogonal experiment, with the 4 factors being heat power, flue gas velocity, ashes grain diameter and adding ashes quantity while the three levels are different values due to different position classes in every factor. The ash deposition thermal resistances is calculated by the model with the measure parameters of temperature and pressure drop. It shows that the values of the ash deposition thermal resistances gradually increase up to a stable state. And the experimental results are reliable by F testing method at α = 0. 001. Therefore, the model can be applied in online monitoring of ash deposition in a boiler economizers in power plants and provides scientific decision on ash deposition prediction and sootblowing. 相似文献
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